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