Python Gauge.set Beispiele

Beispiel #1

def gather_data(registry):
    """Gathers the metrics"""

    # Get the host name of the machine
    host = socket.gethostname()

    # Create our collectors
    trig_metric = Gauge("trigonometry_example",
                        "Various trigonometry examples.",
                        {'host': host})

    # register the metric collectors
    registry.register(trig_metric)

    # Start gathering metrics every second
    counter = 0
    while True:
        time.sleep(1)

        sine = math.sin(math.radians(counter % 360))
        cosine = math.cos(math.radians(counter % 360))
        trig_metric.set({'type': "sine"}, sine)
        trig_metric.set({'type': "cosine"}, cosine)

        counter += 1

Beispiel #2

Datei: test_exporter.py Projekt: zhangzhu16/prometheus-python

    def test_gauge(self):

        # Add some metrics
        data = (
            ({'data': 1}, 100),
            ({'data': "2"}, 200),
            ({'data': 3}, 300),
            ({'data': 1}, 400),
        )
        g = Gauge("test_gauge", "Test Gauge.", {'test': "test_gauge"})
        self.registry.register(g)

        for i in data:
            g.set(i[0], i[1])

        headers = {'accept': 'text/plain; version=0.0.4'}
        url = urllib.parse.urljoin(TEST_URL, TEST_METRICS_PATH[1:])
        r = requests.get(url, headers=headers)

        valid_data = """# HELP test_gauge Test Gauge.
# TYPE test_gauge gauge
test_gauge{data="1",test="test_gauge"} 400
test_gauge{data="2",test="test_gauge"} 200
test_gauge{data="3",test="test_gauge"} 300
"""
        self.assertEqual("text/plain; version=0.0.4; charset=utf-8",
                         r.headers['content-type'])
        self.assertEqual(200, r.status_code)
        self.assertEqual(valid_data, r.text)

Beispiel #3

Datei: memory_cpu_usage_example.py Projekt: zhangzhu16/prometheus-python

def gather_data(registry):
    """Gathers the metrics"""

    # Get the host name of the machine
    host = socket.gethostname()

    # Create our collectors
    ram_metric = Gauge("memory_usage_bytes", "Memory usage in bytes.",
                       {'host': host})
    cpu_metric = Gauge("cpu_usage_percent", "CPU usage percent.",
                       {'host': host})

    # register the metric collectors
    registry.register(ram_metric)
    registry.register(cpu_metric)

    # Start gathering metrics every second
    while True:
        time.sleep(1)

        # Add ram metrics
        ram = psutil.virtual_memory()
        swap = psutil.swap_memory()

        ram_metric.set({
            'type': "virtual",
        }, ram.used)
        ram_metric.set({'type': "virtual", 'status': "cached"}, ram.cached)
        ram_metric.set({'type': "swap"}, swap.used)

        # Add cpu metrics
        for c, p in enumerate(psutil.cpu_percent(interval=1, percpu=True)):
            cpu_metric.set({'core': c}, p)

Beispiel #4

Datei: asterisk_exporter.py Projekt: simhaonline/monitor-calls-asterisk-with-prometheus-grafana-use-asterisk_exporter

def gather_data(registry):
    """Gathers the metrics"""
    host = socket.gethostname()

    asterisk_total_active_channels_metric = Gauge("asterisk_active_channels", "Total current acitve channels",
                       {'host': host})
    asterisk_total_active_calls_metric = Gauge("asterisk_active_calls", "Total current acitve calls",
                       {'host': host})
    asterisk_total_calls_processed_metric = Gauge("asterisk_calls_processed", "Total current calls processed",
                       {'host': host})

    registry.register(asterisk_total_active_calls_metric)
    registry.register(asterisk_total_active_channels_metric)
    registry.register(asterisk_total_calls_processed_metric)

    while True:
        time.sleep(1)

        command_active_channels = "asterisk -rx 'core show channels' | grep 'active channels' | awk '{print $1}'"
        command_active_calls = "asterisk -rx 'core show channels' | grep 'active calls' | awk '{print $1}'"
        command_calls_processed = "asterisk -rx 'core show channels' | grep 'calls processed' | awk '{print $1}'"

        active_channels = os.popen(command_active_channels).read()
        asterisk_total_active_channels_metric.set({'type': "active channels", }, active_channels)

        active_calls = os.popen(command_active_calls).read()
        asterisk_total_active_calls_metric.set({'type': "active calls", }, active_calls)

        calls_processed = os.popen(command_calls_processed).read()
        asterisk_total_calls_processed_metric.set({'type': "calls processed", }, calls_processed)

Beispiel #5

Datei: exporter.py Projekt: vietanhphamnhu/ghichep-prometheus

def gather_data(registry):
    """Gathers the metrics"""

    # Get the host name of the machine
    host = socket.gethostname()

    # Create our collectors
    mysql_seconds_behind_master = Gauge("mysql_slave_seconds_behind_master",
                                        "MySQL slave secons behind master",
                                        {'host': host})
    mysql_io_running = Gauge("mysql_slave_io_running",
                             "MySQL slave IO Running", {'host': host})
    mysql_sql_running = Gauge("mysql_slave_sql_running",
                              "MySQL slave SQL Running", {'host': host})

    # register the metric collectors
    registry.register(mysql_seconds_behind_master)
    registry.register(mysql_io_running)
    registry.register(mysql_sql_running)

    # Connect to mysql
    con = mdb.connect(host=host, port=port, user=user, passwd=password)
    cur = con.cursor(mdb.cursors.DictCursor)

    # Start gathering metrics every second
    while True:
        time.sleep(1)

        # Get replication infomation
        cur.execute('show slave status')
        slave_status = cur.fetchone()
        slave_file = slave_status["Seconds_Behind_Master"]
        slave_sql_running = 1 if slave_status[
            "Slave_SQL_Running"] == "Yes" else 0
        slave_io_running = 1 if slave_status["Slave_IO_Running"] == "Yes" else 0
        #con.close()

        #Add metrics
        mysql_seconds_behind_master.set({}, slave_file)
        mysql_io_running.set({}, slave_io_running)
        mysql_sql_running.set({}, slave_sql_running)

Beispiel #6

Datei: cisco-sf300-exporter.py Projekt: tainguyenbp/cisco-sf300-exporter

def draytek_gather_data(registry):
    host = '192.168.1.1'
    """Gathers the metrics"""

    # Get the host name of the machine

    metric_cpu_5_seconds = Gauge("switch_cisso_sf300_cpu_5_seconds",
                                 "switch cisco sf300 cpu usage 5 seconds",
                                 {'host': host})
    metric_cpu_1_minutes = Gauge("switch_cisso_sf300_cpu_1_minutes",
                                 "switch cisco sf300 cpu usage 1 minutes",
                                 {'host': host})
    metric_cpu_5_minutes = Gauge("switch_cisso_sf300_cpu_5_minutes",
                                 "switch cisco sf300 cpu usage 5 minutes",
                                 {'host': host})

    registry.register(metric_cpu_5_seconds)
    registry.register(metric_cpu_1_minutes)
    registry.register(metric_cpu_5_minutes)

    while True:
        time.sleep(1)
        mode_enable = 'enable'

        net_connect_device = ConnectHandler(**switch_cisco_sf300)
        net_connect_device.enable()

        command_show_cpu = 'show cpu utilization'

        result_run_command_cpu = net_connect_device.send_command(
            command_show_cpu, expect_string=r'#')

        [cpu_5_seconds, cpu_1_minutes,
         cpu_5_minutes] = re.findall("\d+", result_run_command_cpu)

        metric_cpu_5_seconds.set({}, cpu_5_seconds)
        metric_cpu_1_minutes.set({}, cpu_1_minutes)
        metric_cpu_5_minutes.set({}, cpu_5_minutes)

        net_connect_device.disconnect()

Beispiel #7

Datei: exporter.py Projekt: congto/ghichep-prometheus

def gather_data(registry):
    """Gathers the metrics"""

    # Get the host name of the machine
    host = socket.gethostname()

    # Create our collectors
    mysql_seconds_behind_master = Gauge("mysql_slave_seconds_behind_master", "MySQL slave secons behind master",
                                        {'host': host})
    mysql_io_running = Gauge("mysql_slave_io_running", "MySQL slave IO Running",
                                        {'host': host})
    mysql_sql_running = Gauge("mysql_slave_sql_running", "MySQL slave SQL Running",
                                        {'host': host})

    # register the metric collectors
    registry.register(mysql_seconds_behind_master)
    registry.register(mysql_io_running)
    registry.register(mysql_sql_running)

    # Connect to mysql
    con = mdb.connect(host=host, port=port, user=user, passwd=password);
    cur = con.cursor(mdb.cursors.DictCursor)

    # Start gathering metrics every second
    while True:
        time.sleep(1)

        # Get replication infomation
        cur.execute('show slave status')
        slave_status = cur.fetchone()
        slave_file = slave_status["Seconds_Behind_Master"]
        slave_sql_running = 1 if slave_status["Slave_SQL_Running"] == "Yes" else 0
        slave_io_running = 1 if slave_status["Slave_IO_Running"] == "Yes" else 0
        #con.close()

        #Add metrics
        mysql_seconds_behind_master.set({},slave_file)
        mysql_io_running.set({},slave_io_running)
        mysql_sql_running.set({},slave_sql_running)

Beispiel #8

Datei: draytek-exporter.py Projekt: tainguyenbp/draytek-exporter

def draytek_gather_data(registry):
    host = '192.168.1.1'
    """Gathers the metrics"""

    # Get the host name of the machine

    metric_memory_usage = Gauge("draytek_vigor_3900_memory_usage",
                                "Draytek Vigor 3900 Memory Usage",
                                {'host': host})
    metric_cpu_usage = Gauge("draytek_vigor_3900_metric_cpu_usage",
                             "Draytek Vigor 3900 CPU Usage", {'host': host})
    metric_memory_size = Gauge("draytek_vigor_3900_metric_memory_size",
                               "Draytek Vigor 3900 Memory Size",
                               {'host': host})
    metric_model = Gauge("draytek_vigor_3900_metric_model",
                         "Draytek Vigor 3900 Model", {'host': host})
    metric_hardware_verison = Gauge(
        "draytek_vigor_3900_metric_hardware_verison",
        "Draytek Vigor 3900 Hardware Version", {'host': host})
    metric_firmware_verison = Gauge(
        "draytek_vigor_3900_metric_firmware_verison",
        "Draytek Vigor 3900 Firmware Version", {'host': host})
    metric_build_date_time = Gauge("draytek_vigor_3900_metric_build_date_time",
                                   "Draytek Vigor 3900 Build Date Time",
                                   {'host': host})
    metric_revision = Gauge("draytek_vigor_3900_metric_revision",
                            "Draytek Vigor 3900 Revision", {'host': host})
    metric_system_up_time = Gauge("draytek_vigor_3900_metric_system_up_time",
                                  "Draytek Vigor 3900 System Up Time",
                                  {'host': host})
    metric_current_system_time = Gauge(
        "draytek_vigor_3900_metric_current_system_time",
        "Draytek Vigor 3900 Current System Time", {'host': host})
    metric_eeprom_version = Gauge("draytek_vigor_3900_metric_eeprom_version",
                                  "Draytek Vigor 3900 EEPROM Version",
                                  {'host': host})
    metric_bootloader_version = Gauge(
        "draytek_vigor_3900_metric_bootloader_version",
        "Draytek Vigor 3900 BootLoader Version", {'host': host})

    metric_memory_used = Gauge("draytek_vigor_3900_metric_memory_used",
                               "Draytek Vigor 3900 Memory Used",
                               {'host': host})
    metric_memory_free = Gauge("draytek_vigor_3900_metric_memory_free",
                               "Draytek Vigor 3900 Memory Free",
                               {'host': host})
    metric_memory_shards = Gauge("draytek_vigor_3900_metric_memory_shards",
                                 "Draytek Vigor 3900 Memory Shards",
                                 {'host': host})
    metric_memory_buffer = Gauge("draytek_vigor_3900_metric_memory_buffer",
                                 "Draytek Vigor 3900 Memory Buffer",
                                 {'host': host})
    metric_memory_cached = Gauge("draytek_vigor_3900_metric_memory_cached",
                                 "Draytek Vigor 3900 Memory Cached",
                                 {'host': host})

    metric_load_average_1 = Gauge("draytek_vigor_3900_metric_load_average_1",
                                  "Draytek Vigor 3900 Load Average 1 Minutes",
                                  {'host': host})
    metric_load_average_5 = Gauge("draytek_vigor_3900_metric_load_average_5",
                                  "Draytek Vigor 3900 Load Average 5 Minutes",
                                  {'host': host})
    metric_load_average_15 = Gauge(
        "draytek_vigor_3900_metric_load_average_15",
        "Draytek Vigor 3900 Load Average 15 Minutes", {'host': host})

    metric_command_process_top_1 = Gauge(
        "draytek_vigor_3900_metric_command_process_top_1",
        "Draytek Vigor 3900 command process top 1", {'host': host})
    metric_cpu_process_top_1 = Gauge(
        "draytek_vigor_3900_metric_cpu_process_top_1",
        "Draytek Vigor 3900 cpu process top 1", {'host': host})
    metric_memory_process_top_1 = Gauge(
        "draytek_vigor_3900_metric_memory_process_top_1",
        "Draytek Vigor 3900 memory process top 1", {'host': host})

    metric_command_process_top_2 = Gauge(
        "draytek_vigor_3900_metric_command_process_top_2",
        "Draytek Vigor 3900 command process top 2", {'host': host})
    metric_cpu_process_top_2 = Gauge(
        "draytek_vigor_3900_metric_cpu_process_top_2",
        "Draytek Vigor 3900 cpu process top 2", {'host': host})
    metric_memory_process_top_2 = Gauge(
        "draytek_vigor_3900_metric_memory_process_top_2",
        "Draytek Vigor 3900 memmory process top 2", {'host': host})

    registry.register(metric_memory_usage)
    registry.register(metric_cpu_usage)
    registry.register(metric_model)
    registry.register(metric_hardware_verison)
    registry.register(metric_firmware_verison)
    registry.register(metric_build_date_time)
    registry.register(metric_revision)
    registry.register(metric_system_up_time)
    registry.register(metric_current_system_time)
    registry.register(metric_eeprom_version)
    registry.register(metric_bootloader_version)

    registry.register(metric_memory_used)
    registry.register(metric_memory_free)
    registry.register(metric_memory_shards)
    registry.register(metric_memory_buffer)
    registry.register(metric_memory_cached)

    registry.register(metric_load_average_1)
    registry.register(metric_load_average_5)
    registry.register(metric_load_average_15)

    registry.register(metric_command_process_top_1)
    registry.register(metric_cpu_process_top_1)
    registry.register(metric_memory_process_top_1)

    registry.register(metric_command_process_top_2)
    registry.register(metric_cpu_process_top_2)
    registry.register(metric_memory_process_top_2)

    while True:
        time.sleep(1)
        mode_enable = 'enable'

        net_connect_device = ConnectHandler(**vigor_draytek_3900)
        net_connect_device.enable()

        command_status_system = 'status system'
        command_status_process = 'status process'

        result_run_command_system = ''
        result_run_command_process = ''

        result_run_command = net_connect_device.send_command(
            mode_enable, expect_string=r'Entering enable mode...')
        result_run_command += net_connect_device.send_command(
            command_status_system, expect_string=r'#')

        result_run_command_process += net_connect_device.send_command(
            command_show_process, expect_string=r'#')

        [
            Model, Hardware_Version, Firmware_Version, Build_Date_Time,
            Revision, System_up_Time, CPU_usage, Memory_Size, Memory_Usage,
            Current_System_Time, EEPROM_Version, Bootloader_Version
        ] = re.findall("\d.+", result_run_command)
        process_array = re.findall("\d.+", result_run_command_process)

        [
            memory_used, memory_free, memory_shards, memory_buffer,
            memory_cached
        ] = re.findall('\d+', process_array[0])

        [load_average1, load_average5,
         load_average15] = re.findall('[0-9.]*[0-9]+', process_array[1])

        [
            PID_TOP1, USER_TOP1, STATUS_TOP1, RSS_TOP1, PPID_TOP1, CPU_TOP1,
            MEM_TOP1, COMMAND_TOP1
        ] = re.findall('\S+', process_array[2])
        [
            PID_TOP2, USER_TOP2, STATUS_TOP2, RSS_TOP2, PPID_TOP2, CPU_TOP2,
            MEM_TOP2, COMMAND_TOP2
        ] = re.findall('\S+', process_array[3])
        [
            PID_TOP3, USER_TOP3, STATUS_TOP3, RSS_TOP3, PPID_TOP3, CPU_TOP3,
            MEM_TOP3, COMMAND_TOP3
        ] = re.findall('\S+', process_array[4])
        [
            PID_TOP4, USER_TOP4, STATUS_TOP4, RSS_TOP4, PPID_TOP4, CPU_TOP4,
            MEM_TOP4, COMMAND_TOP4
        ] = re.findall('\S+', process_array[5])
        [
            PID_TOP5, USER_TOP5, STATUS_TOP5, RSS_TOP5, PPID_TOP5, CPU_TOP5,
            MEM_TOP5, COMMAND_TOP5
        ] = re.findall('\S+', process_array[6])
        [
            PID_TOP6, USER_TOP6, STATUS_TOP6, RSS_TOP6, PPID_TOP6, CPU_TOP6,
            MEM_TOP6, COMMAND_TOP6
        ] = re.findall('\S+', process_array[7])
        [
            PID_TOP7, USER_TOP7, STATUS_TOP7, RSS_TOP7, PPID_TOP7, CPU_TOP7,
            MEM_TOP7, COMMAND_TOP7
        ] = re.findall('\S+', process_array[8])
        [
            PID_TOP8, USER_TOP8, STATUS_TOP8, RSS_TOP8, PPID_TOP8, CPU_TOP8,
            MEM_TOP8, COMMAND_TOP8
        ] = re.findall('\S+', process_array[9])
        [
            PID_TOP9, USER_TOP9, STATUS_TOP9, RSS_TOP9, PPID_TOP9, CPU_TOP9,
            MEM_TOP9, COMMAND_TOP9
        ] = re.findall('\S+', process_array[10])
        [
            PID_TOP10, USER_TOP10, STATUS_TOP10, RSS_TOP10, PPID_TOP10,
            CPU_TOP10, MEM_TOP10, COMMAND_TOP10
        ] = re.findall('\S+', process_array[11])

        Memory_Usage = Memory_Usage[:len(Memory_Usage) - 1]
        CPU_usage = CPU_usage[:len(CPU_usage) - 1]

        metric_model.set({}, Model)
        metric_hardware_verison.set({}, Hardware_Version)
        metric_firmware_verison.set({}, Firmware_Version)
        metric_build_date_time.set({}, Build_Date_Time)
        metric_revision.set({}, Revision)
        metric_system_up_time.set({}, System_up_Time)
        metric_memory_usage.set({}, Memory_Usage)
        metric_cpu_usage.set({}, CPU_usage)
        metric_memory_size.set({}, Memory_Size)
        metric_current_system_time.set({}, Current_System_Time)
        metric_eeprom_version.set({}, EEPROM_Version)
        metric_bootloader_version.set({}, Bootloader_Version)

        metric_memory_used.set({}, memory_used)
        metric_memory_free.set({}, memory_free)
        metric_memory_shards.set({}, memory_shards)
        metric_memory_buffer.set({}, memory_buffer)
        metric_memory_cached.set({}, memory_cached)

        metric_load_average_1.set({}, load_average1)
        metric_load_average_5.set({}, load_average5)
        metric_load_average_15.set({}, load_average15)

        metric_command_process_top_1.set({}, COMMAND_TOP1)
        metric_cpu_process_top_1.set({}, CPU_TOP1)
        metric_memory_process_top_1.set({}, MEM_TOP1)

        metric_command_process_top_2.set({}, COMMAND_TOP2)
        metric_cpu_process_top_2.set({}, CPU_TOP2)
        metric_memory_process_top_2.set({}, MEM_TOP2)

        net_connect_device.disconnect()

Beispiel #9

Datei: asterisk_exporter.py Projekt: kirychukyurii/asterisk_exporter

def gather_data(registry):
    """Gathers the metrics"""
    host = socket.gethostname()

    asterisk_total_active_channels_metric = Gauge("asterisk_total_active_channels_metric", "Total current acitve channels",
                       {'host': host})
    asterisk_total_active_calls_metric = Gauge("asterisk_total_active_calls_metric", "Total current acitve calls",
                       {'host': host})
    asterisk_total_calls_processed_metric = Gauge("asterisk_total_calls_processed_metric", "Total current calls processed",
                       {'host': host})

    asterisk_system_uptime_seconds_metric = Gauge("asterisk_system_uptime_seconds_metric", "system uptime",
                       {'host': host})
    asterisk_last_reload_seconds_metric = Gauge("asterisk_last_reload_seconds_metric", "last reload",
                       {'host': host})

    asterisk_total_sip_peers_metric = Gauge("asterisk_total_sip_peers_metric", "ip peers",
                       {'host': host})
    asterisk_total_monitored_online_metric = Gauge("asterisk_total_monitored_online_metric", "monitored online",
                       {'host': host})
    asterisk_total_monitored_offline_metric = Gauge("asterisk_total_monitored_offline_metric", "monitored offline",
                       {'host': host})
    asterisk_total_unmonitored_online_metric = Gauge("asterisk_total_unmonitored_online_metric", "unmonitored online",
                       {'host': host})
    asterisk_total_unmonitored_offline_metric = Gauge("asterisk_total_unmonitored_offline_metric", "unmonitored offline",
                       {'host': host})

    asterisk_total_threads_listed_metric = Gauge("asterisk_total_threads_metric", "total threads listed",
                       {'host': host})
    asterisk_total_sip_status_unknown_metric = Gauge("asterisk_total_sip_status_unknown_metric", "total sip status unknown",
                       {'host': host})
    asterisk_total_sip_status_qualified_metric = Gauge("asterisk_total_sip_status_qualified_metric", "total sip status qualified",
                       {'host': host})

    registry.register(asterisk_total_active_calls_metric)
    registry.register(asterisk_total_active_channels_metric)
    registry.register(asterisk_total_calls_processed_metric)

    registry.register(asterisk_system_uptime_seconds_metric)
    registry.register(asterisk_last_reload_seconds_metric)

    registry.register(asterisk_total_sip_peers_metric)
    registry.register(asterisk_total_monitored_online_metric)
    registry.register(asterisk_total_monitored_offline_metric)
    registry.register(asterisk_total_unmonitored_online_metric)
    registry.register(asterisk_total_unmonitored_offline_metric)

    registry.register(asterisk_total_threads_listed_metric)
    registry.register(asterisk_total_sip_status_unknown_metric)
    registry.register(asterisk_total_sip_status_qualified_metric)

    while True:
        time.sleep(1)
        command_core_show_channels = [ "/usr/sbin/asterisk -rx 'core show channels' | awk '{print $1}'" ]
        command_core_show_uptime = [ "/usr/sbin/asterisk -rx 'core show uptime seconds' | awk '{print $3}'" ]
        command_sip_show_peers = "/usr/sbin/asterisk -rx 'sip show peers' | grep 'sip peers' | grep 'Monitored' | grep 'Unmonitored'"
        command_core_show_threads = "/usr/sbin/asterisk -rx 'core show threads' | tail -1 | cut -d' ' -f1"
        command_sip_show_peers_status_unknown = "/usr/sbin/asterisk -rx 'sip show peers' | grep -P '^\d{3,}.*UNKNOWN\s' | wc -l"
        command_sip_show_peers_status_qualified = "/usr/sbin/asterisk -rx 'sip show peers' | grep -P '^\d{3,}.*OK\s\(\d+' | wc -l"
        
        # command_active_channels = "asterisk -rx 'core show channels' | grep 'active channels' | awk '{print $1}'"
        # command_active_calls = "asterisk -rx 'core show channels' | grep 'active calls' | awk '{print $1}'"
        # command_calls_processed = "asterisk -rx 'core show channels' | grep 'calls processed' | awk '{print $1}'"

        # active_channels = os.popen(command_active_channels).read()
        # asterisk_total_active_channels_metric.set({'type': "active channels", }, active_channels)

        # active_calls = os.popen(command_active_calls).read()
        # asterisk_total_active_calls_metric.set({'type': "active calls", }, active_calls)

        # calls_processed = os.popen(command_calls_processed).read()
        # asterisk_total_calls_processed_metric.set({'type': "calls processed", }, calls_processed)

        for core_show_channels in command_core_show_channels:
            array_core_show_channels = os.popen(core_show_channels).readlines()

            active_channels = array_core_show_channels[1].rstrip()
            active_calls = array_core_show_channels[2].rstrip()
            calls_processed = array_core_show_channels[3].rstrip()

            asterisk_total_active_channels_metric.set({'type': "active channels", }, active_channels)
            asterisk_total_active_calls_metric.set({'type': "active calls", }, active_calls)
            asterisk_total_calls_processed_metric.set({'type': "calls processed", }, calls_processed)

        for core_show_uptime in command_core_show_uptime:
            array_core_show_uptime = os.popen(core_show_uptime).readlines()

            system_uptime = array_core_show_uptime[0].rstrip()
            last_reload = array_core_show_uptime[1].rstrip()

            asterisk_system_uptime_seconds_metric.set({'type': "system uptime seconds", }, active_channels)
            asterisk_last_reload_seconds_metric.set({'type': "last reload seconds", }, active_calls) 
              
        sip_show_peers = os.popen(command_sip_show_peers).read()
        [sip_peers, monitored_online, monitored_offline, unmonitored_online, unmonitored_offline] = re.findall("\d+", sip_show_peers)
        asterisk_total_sip_peers_metric.set({'type': "total sip peers", }, sip_peers)
        asterisk_total_monitored_online_metric.set({'type': "total monitored online", }, monitored_online)
        asterisk_total_monitored_offline_metric.set({'type': "total monitored_offline", }, monitored_offline)
        asterisk_total_unmonitored_online_metric.set({'type': "total unmonitored_online", }, unmonitored_online)
        asterisk_total_unmonitored_offline_metric.set({'type': "total unmonitored offline", }, unmonitored_offline)
        
        core_show_threads = os.popen(command_core_show_threads).read()
        asterisk_total_threads_listed_metric.set({'type': "total threads listed", }, core_show_threads)

        sip_show_peers_status_unknown = os.popen(command_sip_show_peers_status_unknown).read()
        asterisk_total_sip_status_unknown_metric.set({'type': "total sip status unknown", }, sip_show_peers_status_unknown)

        sip_show_peers_status_qualified = os.popen(command_sip_show_peers_status_qualified).read()
        asterisk_total_sip_status_qualified_metric.set({'type': "total sip status qualified", }, sip_show_peers_status_qualified)

Beispiel #10

class TestGauge(unittest.TestCase):
    def setUp(self):
        self.data = {
            'name': "hdd_disk_used",
            'help_text': "Disk space used",
            'const_labels': {
                "server": "1.db.production.my-app"
            },
        }

        self.g = Gauge(**self.data)

    def test_set(self):
        data = ({
            'labels': {
                'max': "500G",
                'dev': "sda"
            },
            'values': range(0, 500, 50)
        }, {
            'labels': {
                'max': "1T",
                'dev': "sdb"
            },
            'values': range(0, 1000, 100)
        }, {
            'labels': {
                'max': "10T",
                'dev': "sdc"
            },
            'values': range(0, 10000, 1000)
        })

        for i in data:
            for j in i['values']:
                self.g.set(i['labels'], j)

        self.assertEqual(len(data), len(self.g.values))

    def test_get(self):
        data = ({
            'labels': {
                'max': "500G",
                'dev': "sda"
            },
            'values': range(0, 500, 50)
        }, {
            'labels': {
                'max': "1T",
                'dev': "sdb"
            },
            'values': range(0, 1000, 100)
        }, {
            'labels': {
                'max': "10T",
                'dev': "sdc"
            },
            'values': range(0, 10000, 1000)
        })

        for i in data:
            for j in i['values']:
                self.g.set(i['labels'], j)
                self.assertEqual(j, self.g.get(i['labels']))

        for i in data:
            self.assertEqual(max(i['values']), self.g.get(i['labels']))

    def test_set_get_without_labels(self):
        data = {'labels': {}, 'values': range(100)}

        for i in data['values']:
            self.g.set(data['labels'], i)

        self.assertEqual(1, len(self.g.values))

        self.assertEqual(max(data['values']), self.g.get(data['labels']))

    def test_inc(self):
        iterations = 100
        labels = {'max': "10T", 'dev': "sdc"}

        for i in range(iterations):
            self.g.inc(labels)
            self.assertEqual(i + 1, self.g.get(labels))

        self.assertEqual(iterations, self.g.get(labels))

    def test_dec(self):
        iterations = 100
        labels = {'max': "10T", 'dev': "sdc"}
        self.g.set(labels, iterations)

        for i in range(iterations):
            self.g.dec(labels)
            self.assertEqual(iterations - (i + 1), self.g.get(labels))

        self.assertEqual(0, self.g.get(labels))

    def test_add(self):
        iterations = 100
        labels = {'max': "10T", 'dev': "sdc"}

        for i in range(iterations):
            self.g.add(labels, i)

        self.assertEqual(sum(range(iterations)), self.g.get(labels))

    def test_add_negative(self):
        iterations = 100
        labels = {'max': "10T", 'dev': "sdc"}

        for i in range(iterations):
            self.g.add(labels, -i)

        self.assertEqual(sum(map(lambda x: -x, range(iterations))),
                         self.g.get(labels))

    def test_sub(self):
        iterations = 100
        labels = {'max': "10T", 'dev': "sdc"}

        for i in range(iterations):
            self.g.sub(labels, i)

        self.assertEqual(sum(map(lambda x: -x, range(iterations))),
                         self.g.get(labels))

    def test_sub_positive(self):
        iterations = 100
        labels = {'max': "10T", 'dev': "sdc"}

        for i in range(iterations):
            self.g.sub(labels, -i)

        self.assertEqual(sum(range(iterations)), self.g.get(labels))

Beispiel #11

Datei: test_exporter.py Projekt: zhangzhu16/prometheus-python

    def test_all(self):
        format_times = 10

        counter_data = (
            ({'c_sample': '1'}, 100),
            ({'c_sample': '2'}, 200),
            ({'c_sample': '3'}, 300),
            ({'c_sample': '1', 'c_subsample': 'b'}, 400),
        )

        gauge_data = (
            ({'g_sample': '1'}, 500),
            ({'g_sample': '2'}, 600),
            ({'g_sample': '3'}, 700),
            ({'g_sample': '1', 'g_subsample': 'b'}, 800),
        )

        summary_data = (
            ({'s_sample': '1'}, range(1000, 2000, 4)),
            ({'s_sample': '2'}, range(2000, 3000, 20)),
            ({'s_sample': '3'}, range(3000, 4000, 13)),
            ({'s_sample': '1', 's_subsample': 'b'}, range(4000, 5000, 47)),
        )

        registry = Registry()
        counter = Counter("counter_test", "A counter.", {'type': "counter"})
        gauge = Gauge("gauge_test", "A gauge.", {'type': "gauge"})
        summary = Summary("summary_test", "A summary.", {'type': "summary"})

        self.registry.register(counter)
        self.registry.register(gauge)
        self.registry.register(summary)

        # Add data
        [counter.set(c[0], c[1]) for c in counter_data]
        [gauge.set(g[0], g[1]) for g in gauge_data]
        [summary.add(i[0], s) for i in summary_data for s in i[1]]

        registry.register(counter)
        registry.register(gauge)
        registry.register(summary)

        valid_data = """# HELP counter_test A counter.
# TYPE counter_test counter
counter_test{c_sample="1",c_subsample="b",type="counter"} 400
counter_test{c_sample="1",type="counter"} 100
counter_test{c_sample="2",type="counter"} 200
counter_test{c_sample="3",type="counter"} 300
# HELP gauge_test A gauge.
# TYPE gauge_test gauge
gauge_test{g_sample="1",g_subsample="b",type="gauge"} 800
gauge_test{g_sample="1",type="gauge"} 500
gauge_test{g_sample="2",type="gauge"} 600
gauge_test{g_sample="3",type="gauge"} 700
# HELP summary_test A summary.
# TYPE summary_test summary
summary_test_count{s_sample="1",s_subsample="b",type="summary"} 22
summary_test_count{s_sample="1",type="summary"} 250
summary_test_count{s_sample="2",type="summary"} 50
summary_test_count{s_sample="3",type="summary"} 77
summary_test_sum{s_sample="1",s_subsample="b",type="summary"} 98857.0
summary_test_sum{s_sample="1",type="summary"} 374500.0
summary_test_sum{s_sample="2",type="summary"} 124500.0
summary_test_sum{s_sample="3",type="summary"} 269038.0
summary_test{quantile="0.5",s_sample="1",s_subsample="b",type="summary"} 4235.0
summary_test{quantile="0.5",s_sample="1",type="summary"} 1272.0
summary_test{quantile="0.5",s_sample="2",type="summary"} 2260.0
summary_test{quantile="0.5",s_sample="3",type="summary"} 3260.0
summary_test{quantile="0.9",s_sample="1",s_subsample="b",type="summary"} 4470.0
summary_test{quantile="0.9",s_sample="1",type="summary"} 1452.0
summary_test{quantile="0.9",s_sample="2",type="summary"} 2440.0
summary_test{quantile="0.9",s_sample="3",type="summary"} 3442.0
summary_test{quantile="0.99",s_sample="1",s_subsample="b",type="summary"} 4517.0
summary_test{quantile="0.99",s_sample="1",type="summary"} 1496.0
summary_test{quantile="0.99",s_sample="2",type="summary"} 2500.0
summary_test{quantile="0.99",s_sample="3",type="summary"} 3494.0
"""

        headers = {'accept': 'text/plain; version=0.0.4'}
        url = urllib.parse.urljoin(TEST_URL, TEST_METRICS_PATH[1:])
        r = requests.get(url, headers=headers)

        self.assertEqual("text/plain; version=0.0.4; charset=utf-8",
                             r.headers['content-type'])
        self.assertEqual(200, r.status_code)
        self.assertEqual(valid_data, r.text)

Beispiel #12

def gather_data(registry):
    #def gather_data():
    """Gathers the metrics"""
    host = '192.168.1.1'
    stacks_1 = 'stacks 1'
    stacks_2 = 'stacks 2'
    # Get the host name of the machine

    metric_total_disk_stacks1 = Gauge(
        "cisco_switch_3650_total_disk_stacks1_bytes",
        "Cisco switch 3650 total disk stacks 1", {
            'host': host,
            'stacks': stacks_1
        })
    metric_free_disk_stacks1 = Gauge(
        "cisco_switch_3650_free_disk_stacks1_bytes",
        "Cisco switch 3650 free disk stacks 1", {
            'host': host,
            'stacks': stacks_1
        })
    metric_used_disk_stacks1 = Gauge(
        "cisco_switch_3650_used_disk_stacks1_bytes",
        "Cisco switch 3650 used disk of stacks 1", {
            'host': host,
            'stacks': stacks_1
        })
    metric_total_disk_stacks2 = Gauge(
        "cisco_switch_3650_total_disk_stacks2_bytes",
        "Cisco switch 3650 total disk stacks 2", {
            'host': host,
            'stacks': stacks_2
        })
    metric_free_disk_stacks2 = Gauge(
        "cisco_switch_3650_free_disk_stacks2_bytes",
        "Cisco switch 3650 free disk stacks 2", {
            'host': host,
            'stacks': stacks_2
        })
    metric_used_disk_stacks2 = Gauge(
        "cisco_switch_3650_used_disk_stacks2_bytes",
        "Cisco switch 3650 used disk of stacks 2", {
            'host': host,
            'stacks': stacks_2
        })

    registry.register(metric_total_disk_stacks1)
    registry.register(metric_free_disk_stacks1)
    registry.register(metric_used_disk_stacks1)
    registry.register(metric_total_disk_stacks2)
    registry.register(metric_free_disk_stacks2)
    registry.register(metric_used_disk_stacks2)

    net_connect = ConnectHandler(**cisco_ios)
    while True:
        time.sleep(1)

        command_show_infor_disk_stacks1 = 'dir flash-1:/ | include bytes | include total | include free'
        command_show_infor_disk_stacks2 = 'dir flash-2:/ | include bytes | include total | include free'

        result_run_command_show_infor_disk_stacks1 = net_connect.send_command(
            command_show_infor_disk_stacks1)
        result_run_command_show_infor_disk_stacks2 = net_connect.send_command(
            command_show_infor_disk_stacks2)

        [value_total_disk_stacks1, value_free_disk_stacks1
         ] = re.findall("\d+", result_run_command_show_infor_disk_stacks1)
        [value_total_disk_stacks2, value_free_disk_stacks2
         ] = re.findall("\d+", result_run_command_show_infor_disk_stacks2)

        value_used_disk_stacks1 = int(value_total_disk_stacks1) - int(
            value_free_disk_stacks1)
        value_used_disk_stacks2 = int(value_total_disk_stacks2) - int(
            value_free_disk_stacks2)

        metric_free_disk_stacks1.set({}, value_free_disk_stacks1)
        metric_used_disk_stacks1.set({}, value_used_disk_stacks1)
        metric_total_disk_stacks1.set({}, value_total_disk_stacks1)
        metric_free_disk_stacks2.set({}, value_free_disk_stacks2)
        metric_used_disk_stacks2.set({}, value_used_disk_stacks2)
        metric_total_disk_stacks2.set({}, value_total_disk_stacks2)