Esempio n. 1
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    def __init__(self, cached_time=1):
        self.cpu_percent = 0
        self.percpu_percent = []

        # cached_time is the minimum time interval between stats updates
        # since last update is passed (will retrieve old cached info instead)
        self.timer_cpu = Timer(0)
        self.timer_percpu = Timer(0)
        self.cached_time = cached_time
Esempio n. 2
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    def update(self, servers_list):
        """Update the servers' list screen.

        Wait for __refresh_time sec / catch key every 100 ms.

        servers_list: Dict of dict with servers stats
        """
        # Flush display
        self.flush(servers_list)

        # Wait
        exitkey = False
        countdown = Timer(self.__refresh_time)
        while not countdown.finished() and not exitkey:
            # Getkey
            pressedkey = self.__catch_key(servers_list)
            # Is it an exit or select server key ?
            exitkey = (
                pressedkey == ord('\x1b') or pressedkey == ord('q') or pressedkey == 10)
            if not exitkey and pressedkey > -1:
                # Redraw display
                self.flush(servers_list)
            # Wait 100ms...
            curses.napms(100)

        return self.get_active()
Esempio n. 3
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 def __get_percpu(self):
     """Update and/or return the per CPU list using the psutil library."""
     # Never update more than 1 time per cached_time
     if self.timer_percpu.finished():
         self.percpu_percent = []
         for cpu_number, cputimes in enumerate(
                 psutil.cpu_times_percent(interval=0.0, percpu=True)):
             cpu = {
                 'key': self.get_key(),
                 'cpu_number': cpu_number,
                 'total': round(100 - cputimes.idle, 1),
                 'user': cputimes.user,
                 'system': cputimes.system,
                 'idle': cputimes.idle
             }
             # The following stats are for API purposes only
             if hasattr(cputimes, 'nice'):
                 cpu['nice'] = cputimes.nice
             if hasattr(cputimes, 'iowait'):
                 cpu['iowait'] = cputimes.iowait
             if hasattr(cputimes, 'irq'):
                 cpu['irq'] = cputimes.irq
             if hasattr(cputimes, 'softirq'):
                 cpu['softirq'] = cputimes.softirq
             if hasattr(cputimes, 'steal'):
                 cpu['steal'] = cputimes.steal
             if hasattr(cputimes, 'guest'):
                 cpu['guest'] = cputimes.guest
             if hasattr(cputimes, 'guest_nice'):
                 cpu['guest_nice'] = cputimes.guest_nice
             # Append new CPU to the list
             self.percpu_percent.append(cpu)
             # Reset timer for cache
             self.timer_percpu = Timer(self.cached_time)
     return self.percpu_percent
Esempio n. 4
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 def get(self):
     """Update and/or return the CPU using the psutil library."""
     # Never update more than 1 time per cached_time
     if self.timer.finished():
         self.cpu_percent = psutil.cpu_percent(interval=0.0)
         self.timer = Timer(self.cached_time)
     return self.cpu_percent
Esempio n. 5
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 def __get_cpu(self):
     """Update and/or return the CPU using the psutil library."""
     # Never update more than 1 time per cached_time
     if self.timer_cpu.finished():
         self.cpu_percent = psutil.cpu_percent(interval=0.0)
         # Reset timer for cache
         self.timer_cpu = Timer(self.cached_time)
     return self.cpu_percent
Esempio n. 6
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    def __init__(self, cached_time=1, config=None):
        # Init stats
        self.stats = GlancesStatsServer(config)

        # Initial update
        self.stats.update()

        # cached_time is the minimum time interval between stats updates
        # i.e. XML/RPC calls will not retrieve updated info until the time
        # since last update is passed (will retrieve old cached info instead)
        self.timer = Timer(0)
        self.cached_time = cached_time
Esempio n. 7
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    def __init__(self, cache_timeout=60):
        """Init the class to collect stats about processes."""
        # Add internals caches because PSUtil do not cache all the stats
        # See: https://code.google.com/p/psutil/issues/detail?id=462
        self.username_cache = {}
        self.cmdline_cache = {}

        # The internals caches will be cleaned each 'cache_timeout' seconds
        self.cache_timeout = cache_timeout
        self.cache_timer = Timer(self.cache_timeout)

        # Init the io dict
        # key = pid
        # value = [ read_bytes_old, write_bytes_old ]
        self.io_old = {}

        # Wether or not to enable process tree
        self._enable_tree = False
        self.process_tree = None

        # Init stats
        self.auto_sort = True
        self._sort_key = 'cpu_percent'
        self.allprocesslist = []
        self.processlist = []
        self.processcount = {
            'total': 0,
            'running': 0,
            'sleeping': 0,
            'thread': 0
        }

        # Tag to enable/disable the processes stats (to reduce the Glances CPU consumption)
        # Default is to enable the processes stats
        self.disable_tag = False

        # Extended stats for top process is enable by default
        self.disable_extended_tag = False

        # Maximum number of processes showed in the UI (None if no limit)
        self._max_processes = None

        # Process filter is a regular expression
        self._process_filter = None
        self._process_filter_re = None

        # Whether or not to hide kernel threads
        self.no_kernel_threads = False
Esempio n. 8
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    def update(self, stats, cs_status="None"):
        """Update the screen.

        Wait for __refresh_time sec / catch key every 100 ms.

        stats: Stats database to display
        cs_status:
            "None": standalone or server mode
            "Connected": Client is connected to the server
            "Disconnected": Client is disconnected from the server
        """
        # Flush display
        self.flush(stats, cs_status=cs_status)

        # Wait
        countdown = Timer(self.__refresh_time)
        while not countdown.finished():
            # Getkey
            if self.__catch_key() > -1:
                # Redraw display
                self.flush(stats, cs_status=cs_status)
            # Wait 100ms...
            curses.napms(100)
Esempio n. 9
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    def update(self, stats, cs_status="None", return_to_browser=False):
        """Update the screen.

        Wait for __refresh_time sec / catch key every 100 ms.

        INPUT
        stats: Stats database to display
        cs_status:
            "None": standalone or server mode
            "Connected": Client is connected to the server
            "Disconnected": Client is disconnected from the server
        return_to_browser:
            True: Do not exist, return to the browser list
            False: Exit and return to the shell

        OUPUT
        True: Exit key has been pressed
        False: Others cases...
        """
        # Flush display
        self.flush(stats, cs_status=cs_status)

        # Wait
        exitkey = False
        countdown = Timer(self.__refresh_time)
        while not countdown.finished() and not exitkey:
            # Getkey
            pressedkey = self.__catch_key(return_to_browser=return_to_browser)
            # Is it an exit key ?
            exitkey = (pressedkey == ord('\x1b') or pressedkey == ord('q'))
            if not exitkey and pressedkey > -1:
                # Redraw display
                self.flush(stats, cs_status=cs_status)
            # Wait 100ms...
            curses.napms(100)

        return exitkey
Esempio n. 10
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 def __update__(self):
     # Never update more than 1 time per cached_time
     if self.timer.finished():
         self.stats.update()
         self.timer = Timer(self.cached_time)