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https://github.com/tahoe-lafs/tahoe-lafs.git
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235 lines
8.4 KiB
Python
235 lines
8.4 KiB
Python
# -*- python -*-
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from __future__ import print_function
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"""
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# run this tool on a linux box in its own directory, with a file named
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# 'pids.txt' describing which processes to watch. It will follow CPU usage of
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# the given processes, and compute 1/5/15-minute moving averages for each
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# process. These averages can be retrieved from a foolscap connection
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# (published at ./watcher.furl), or through an HTTP query (using ./webport).
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# Each line of pids.txt describes a single process. Blank lines and ones that
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# begin with '#' are ignored. Each line is either "PID" or "PID NAME" (space
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# separated). PID is either a numeric process ID, a pathname to a file that
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# contains a process ID, or a pathname to a directory that contains a
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# twistd.pid file (which contains a process ID). NAME is an arbitrary string
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# that will be used to describe the process to watcher.furl subscribers, and
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# defaults to PID if not provided.
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"""
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# TODO:
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# built-in graphs on web interface
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import pickle, os.path, time, pprint
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from twisted.application import internet, service, strports
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from twisted.web import server, resource, http
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from twisted.python import log
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import json
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from foolscap import Tub, Referenceable, RemoteInterface, eventual
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from foolscap.schema import ListOf, TupleOf
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from zope.interface import implements
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def read_cpu_times(pid):
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data = open("/proc/%d/stat" % pid, "r").read()
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data = data.split()
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times = data[13:17]
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# the values in /proc/%d/stat are in ticks, I think. My system has
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# CONFIG_HZ_1000=y in /proc/config.gz but nevertheless the numbers in
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# 'stat' appear to be 10ms each.
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HZ = 100
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userspace_seconds = int(times[0]) * 1.0 / HZ
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system_seconds = int(times[1]) * 1.0 / HZ
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child_userspace_seconds = int(times[2]) * 1.0 / HZ
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child_system_seconds = int(times[3]) * 1.0 / HZ
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return (userspace_seconds, system_seconds)
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def read_pids_txt():
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processes = []
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for line in open("pids.txt", "r").readlines():
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line = line.strip()
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if not line or line[0] == "#":
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continue
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parts = line.split()
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pidthing = parts[0]
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if len(parts) > 1:
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name = parts[1]
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else:
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name = pidthing
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pid = None
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try:
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pid = int(pidthing)
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except ValueError:
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pidfile = os.path.expanduser(pidthing)
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if os.path.isdir(pidfile):
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pidfile = os.path.join(pidfile, "twistd.pid")
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try:
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pid = int(open(pidfile, "r").read().strip())
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except EnvironmentError:
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pass
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if pid is not None:
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processes.append( (pid, name) )
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return processes
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Averages = ListOf( TupleOf(str, float, float, float) )
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class RICPUWatcherSubscriber(RemoteInterface):
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def averages(averages=Averages):
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return None
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class RICPUWatcher(RemoteInterface):
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def get_averages():
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"""Return a list of rows, one for each process I am watching. Each
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row is (name, 1-min-avg, 5-min-avg, 15-min-avg), where 'name' is a
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string, and the averages are floats from 0.0 to 1.0 . Each average is
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the percentage of the CPU that this process has used: the change in
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CPU time divided by the change in wallclock time.
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"""
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return Averages
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def subscribe(observer=RICPUWatcherSubscriber):
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"""Arrange for the given observer to get an 'averages' message every
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time the averages are updated. This message will contain a single
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argument, the same list of tuples that get_averages() returns."""
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return None
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class CPUWatcher(service.MultiService, resource.Resource, Referenceable):
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implements(RICPUWatcher)
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POLL_INTERVAL = 30 # seconds
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HISTORY_LIMIT = 15 * 60 # 15min
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AVERAGES = (1*60, 5*60, 15*60) # 1min, 5min, 15min
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def __init__(self):
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service.MultiService.__init__(self)
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resource.Resource.__init__(self)
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try:
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self.history = pickle.load(open("history.pickle", "rb"))
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except:
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self.history = {}
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self.current = []
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self.observers = set()
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ts = internet.TimerService(self.POLL_INTERVAL, self.poll)
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ts.setServiceParent(self)
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def startService(self):
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service.MultiService.startService(self)
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try:
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desired_webport = open("webport", "r").read().strip()
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except EnvironmentError:
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desired_webport = None
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webport = desired_webport or "tcp:0"
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root = self
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serv = strports.service(webport, server.Site(root))
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serv.setServiceParent(self)
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if not desired_webport:
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got_port = serv._port.getHost().port
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open("webport", "w").write("tcp:%d\n" % got_port)
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self.tub = Tub(certFile="watcher.pem")
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self.tub.setServiceParent(self)
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try:
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desired_tubport = open("tubport", "r").read().strip()
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except EnvironmentError:
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desired_tubport = None
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tubport = desired_tubport or "tcp:0"
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l = self.tub.listenOn(tubport)
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if not desired_tubport:
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got_port = l.getPortnum()
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open("tubport", "w").write("tcp:%d\n" % got_port)
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d = self.tub.setLocationAutomatically()
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d.addCallback(self._tub_ready)
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d.addErrback(log.err)
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def _tub_ready(self, res):
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self.tub.registerReference(self, furlFile="watcher.furl")
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def getChild(self, path, req):
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if path == "":
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return self
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return resource.Resource.getChild(self, path, req)
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def render(self, req):
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t = req.args.get("t", ["html"])[0]
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ctype = "text/plain"
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data = ""
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if t == "html":
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data = "# name, 1min, 5min, 15min\n"
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data += pprint.pformat(self.current) + "\n"
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elif t == "json":
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#data = str(self.current) + "\n" # isn't that convenient? almost.
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data = json.dumps(self.current, indent=True)
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else:
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req.setResponseCode(http.BAD_REQUEST)
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data = "Unknown t= %s\n" % t
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req.setHeader("content-type", ctype)
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return data
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def remote_get_averages(self):
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return self.current
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def remote_subscribe(self, observer):
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self.observers.add(observer)
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def notify(self, observer):
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d = observer.callRemote("averages", self.current)
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def _error(f):
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log.msg("observer error, removing them")
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log.msg(f)
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self.observers.discard(observer)
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d.addErrback(_error)
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def poll(self):
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max_history = self.HISTORY_LIMIT / self.POLL_INTERVAL
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current = []
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try:
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processes = read_pids_txt()
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except:
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log.err()
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return
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for (pid, name) in processes:
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if pid not in self.history:
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self.history[pid] = []
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now = time.time()
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try:
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(user_seconds, sys_seconds) = read_cpu_times(pid)
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self.history[pid].append( (now, user_seconds, sys_seconds) )
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while len(self.history[pid]) > max_history+1:
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self.history[pid].pop(0)
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except:
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log.msg("error reading process %s (%s), ignoring" % (pid, name))
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log.err()
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try:
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# Newer protocols won't work in Python 2; when it is dropped,
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# protocol v4 can be used (added in Python 3.4).
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pickle.dump(self.history, open("history.pickle.tmp", "wb"), protocol=2)
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os.rename("history.pickle.tmp", "history.pickle")
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except:
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pass
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for (pid, name) in processes:
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row = [name]
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for avg in self.AVERAGES:
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row.append(self._average_N(pid, avg))
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current.append(tuple(row))
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self.current = current
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print(current)
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for ob in self.observers:
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eventual.eventually(self.notify, ob)
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def _average_N(self, pid, seconds):
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num_samples = seconds / self.POLL_INTERVAL
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samples = self.history[pid]
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if len(samples) < num_samples+1:
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return None
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first = -num_samples-1
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elapsed_wall = samples[-1][0] - samples[first][0]
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elapsed_user = samples[-1][1] - samples[first][1]
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elapsed_sys = samples[-1][2] - samples[first][2]
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if elapsed_wall == 0.0:
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return 0.0
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return (elapsed_user+elapsed_sys) / elapsed_wall
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application = service.Application("cpu-watcher")
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CPUWatcher().setServiceParent(application)
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