Exemple #1
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 def update():
     temperatures = psutil.sensors_temperatures()
     chips = list(temperatures.keys())
     sensor = temperatures[chips[0]][0].current
     update_max_temp(last_value)
     self.last_temp = last_value
     Source.update(self)
Exemple #2
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 def update():
     last_value = psutil.sensors_temperatures(
     )['coretemp'][0].current
     # Update max temp
     update_max_temp(last_value)
     self.last_temp = last_value
     Source.update(self)
Exemple #3
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    def __init__(self, custom_temp=None, temp_thresh=None):
        Source.__init__(self)

        self.max_temp = 10
        self.measurement_unit = 'C'
        self.last_temp = 0
        logging.debug("arg temp  " + str(custom_temp))
        self.custom_temp = custom_temp
        self.is_available = True

        # Set update function
        self.update = self.init_update()  # Initial update

        # Set temperature threshold if a custom one is set
        if temp_thresh is not None:
            try:
                if int(temp_thresh) > 0:
                    self.temp_thresh = int(temp_thresh)
                    logging.debug("Updated custom threshold to " +
                                  str(self.temp_thresh))
                else:
                    self.temp_thresh = self.THRESHOLD_TEMP
            except ValueError:
                self.temp_thresh = self.THRESHOLD_TEMP
        else:
            self.temp_thresh = self.THRESHOLD_TEMP
        self.update()
        logging.debug("Update is updated to " + str(self.update))
Exemple #4
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 def update():
     sensors_info = self.custom_temp.split(",")
     sensor_major = sensors_info[0]
     sensor_minor = sensors_info[1]
     last_value = psutil.sensors_temperatures()[sensor_major][
         int(sensor_minor)].current
     update_max_temp(last_value)
     self.last_temp = last_value
     Source.update(self)
 def update():
     with os.popen(cmd) as temp_file:
         last_value = temp_file.read()
         logging.info("Recorded temp " + last_value)
         try:
             last_value = int(last_value) / 1000
         except (ValueError):
             logging.debug("Thermal zone contains no data")
             self.is_available = False
             return empty_func
         update_max_temp(last_value)
         self.last_temp = last_value
         Source.update(self)
Exemple #6
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    def __init__(self, custom_temp=None):
        Source.__init__(self)

        self.max_temp = 0
        self.measurement_unit = 'C'
        self.last_temp = 0
        self.custom_temp = custom_temp
        self.is_available = True

        self.update()  # Initial update
        # If not relevant sensor found, do not register temperature
        if int(self.max_temp) <= 0:
            self.is_available = False
            logging.debug("Temperature sensor unavailable")
Exemple #7
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 def update():
     last_value = os.popen(
         'cat /sys/class/thermal/thermal_zone0/temp 2> /dev/null'
     ).read()
     logging.info("Recorded temp " + last_value)
     try:
         last_value = int(last_value) / 1000
     except (ValueError):
         logging.debug("Thermal zone contains no data")
         self.is_available = False
         return empty_func
     update_max_temp(last_value)
     self.last_temp = last_value
     Source.update(self)
Exemple #8
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    def __init__(self):
        self.is_available = True
        self.last_util_list = [0]

        try:
            self.last_util_list = [0] * psutil.cpu_count()
        except AttributeError:
            logging.debug("cpu_freq is not available from psutil")
            self.is_available = False
            return

        self.update()

        Source.__init__(self)
Exemple #9
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    def __init__(self, temp_thresh=None):
        Source.__init__(self)

        self.max_temp = 10
        self.measurement_unit = 'C'
        self.last_temp = 0
        self.temp_thresh = self.THRESHOLD_TEMP
        self.is_available = True

        self.available_sensors = []
        sensors_dict = dict()
        try:
            sensors_dict = psutil.sensors_temperatures()
        except (AttributeError, IOError):
            logging.debug("Unable to create sensors dict")
            self.is_available = False
            return
        for key, value in sensors_dict.items():
            sensor_name = "".join(key.title().split(" "))
            for sensor_idx, sensor in enumerate(value):
                sensor_label = sensor.label

                full_name = ""
                if not sensor_label:
                    full_name = sensor_name + "," + str(sensor_idx)
                else:
                    full_name = ("".join(sensor_label.title().split(" ")) +
                                 "," + sensor_name)

                logging.debug("Temp sensor name " + full_name)

                self.available_sensors.append(full_name)

        # Set temperature threshold if a custom one is set
        if temp_thresh is not None:
            if int(temp_thresh) > 0:
                self.temp_thresh = int(temp_thresh)
                logging.debug("Updated custom threshold to " +
                              str(self.temp_thresh))

        self.update()
Exemple #10
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    def __init__(self):
        self.is_available = True
        self.top_freq = -1
        self.last_freq_list = [0]
        self.samples_taken = 0
        self.stress_started = False

        try:
            self.last_freq_list = [0] * len(psutil.cpu_freq(True))
        except AttributeError:
            logging.debug("cpu_freq is not available from psutil")
            self.is_available = False
            return

        self.update()

        try:
            # If top freq not available, take the current as top
            if max(self.last_freq_list) >= 0 and self.top_freq == -1:
                self.top_freq = max(self.last_freq_list)
        except ValueError:
            self.is_available = False

        Source.__init__(self)
Exemple #11
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    def update(self):
        """
        Read the latest Temperature reading.
        Reading for temperature might be different between systems
        Support for additional systems can be added here
        """
        last_value = 0
        # NOTE: Negative values might not be supported

        # Temperature on most common systems is in coretemp
        last_value = 0
        if self.custom_temp is not None:
            # Use the manual sensor
            try:
                sensors_info = self.custom_temp.split(",")
                sensor_major = sensors_info[0]
                sensor_minor = sensors_info[1]
                logging.debug("Major" + str(sensor_major) + "Minor" +
                              str(sensor_minor))
                last_value = psutil.sensors_temperatures()[sensor_major][int(
                    sensor_minor)].current
            except:
                self.is_available = False
                logging.debug("Illegal sensor")
                self.last_temp = 1
        else:  # Choose out a list of known sensors
            if last_value <= 0:
                try:
                    last_value = psutil.sensors_temperatures(
                    )['coretemp'][0].current
                except:
                    last_value = 0
            # Support for Ryzen 1700X
            if last_value <= 0:
                try:
                    last_value = psutil.sensors_temperatures(
                    )['k10temp'][0].current
                except:
                    last_value = 0
            # Support for Ryzen 7 + asus
            if last_value <= 0:
                try:
                    last_value = psutil.sensors_temperatures(
                    )['it8655'][0].current
                except:
                    last_value = 0
            # Support for specific systems
            if last_value <= 0:
                try:
                    last_value = psutil.sensors_temperatures(
                    )['it8622'][0].current
                except:
                    last_value = 0
            # Support for specific systems
            if last_value <= 0:
                try:
                    last_value = psutil.sensors_temperatures(
                    )['it8721'][0].current
                except:
                    last_value = 0
            # Raspberry pi 3 running Ubuntu 16.04
            if last_value <= 0:
                try:
                    last_value = psutil.sensors_temperatures(
                    )['bcm2835_thermal'][0].current
                except:
                    last_value = 0
            # Raspberry pi + raspiban CPU temp
            if last_value <= 0:
                try:
                    last_value = os.popen(
                        'cat /sys/class/thermal/thermal_zone0/temp 2> /dev/null'
                    ).read()
                    logging.info("Recorded temp " + last_value)
                    last_value = int(last_value) / 1000
                except:
                    last_value = 0
            # Fall back for most single processor systems
            # Take the first value of the first processor
            if last_value <= 0:
                try:
                    temperatures = psutil.sensors_temperatures()
                    chips = list(temperatures.keys())
                    last_value = temperatures[chips[0]][0].current
                except:
                    last_value = 0

        # self.cpu_temp = self.append_latest_value(self.cpu_temp, last_value)
        # Update max temp
        try:
            if int(last_value) > int(self.max_temp):
                self.max_temp = last_value
        except:
            self.max_temp = 0

        self.last_temp = last_value

        # Run base update routines
        Source.update(self)
 def update_func(sensor, idx):
     sample = psutil.sensors_temperatures()
     last_value = sample[sensor][idx].current
     update_max_temp(last_value)
     self.last_temp = last_value
     Source.update(self)
Exemple #13
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 def update():
     last_value = psutil.sensors_temperatures(
     )['bcm2835_thermal'][0].current
     update_max_temp(last_value)
     self.last_temp = last_value
     Source.update(self)
Exemple #14
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 def update():
     last_value = psutil.sensors_temperatures()['it8721'][0].current
     update_max_temp(last_value)
     self.last_temp = last_value
     Source.update(self)