Exemplo n.º 1
0
 def setUpClass(cls):
     user = os.environ.get('LIBRATO_USER')
     token = os.environ.get('LIBRATO_TOKEN')
     """Initialize the Librato Connection"""
     assert user and token, "Must set LIBRATO_USER and LIBRATO_TOKEN to run tests"
     cls.conn = librato.connect(user, token)
     cls.conn_sanitize = librato.connect(user, token, sanitizer=librato.sanitize_metric_name)
Exemplo n.º 2
0
 def setup_class(cls):
     user = os.environ.get('LIBRATO_USER')
     token = os.environ.get('LIBRATO_TOKEN')
     """Initialize the Librato Connection"""
     assert user and token, "Must set LIBRATO_USER and LIBRATO_TOKEN to run tests"
     cls.conn = librato.connect(user, token)
     cls.conn_sanitize = librato.connect(user, token, sanitizer=librato.sanitize_metric_name)
Exemplo n.º 3
0
def librato_connect():
    '''
        Connect to the Librato service. See https://metrics.librato.com/
    '''
    apikey = os.getenv('LIBRATOKEY')
    libratoapi = librato.connect('*****@*****.**', apikey)
    return libratoapi
def run():
    try:
        parent_proc = psutil.Process(
                int(file("{{ lantern_pid }}").read().strip()))
        java_proc, = parent_proc.get_children()
        meminfo = java_proc.get_ext_memory_info()
        process_memory = meminfo.rss - meminfo.shared
        connections = len(java_proc.get_connections(kind='inet'))
        io = java_proc.get_io_counters()
        io_ops = io.read_count + io.write_count
        io_bytes = io.read_bytes + io.write_bytes
    except (IOError, ValueError, psutil.NoSuchProcess):
        logging.warn("Lantern not running; reporting zero stats.")
        process_memory = connections = io_ops = io_bytes = 0
    net = psutil.net_io_counters()
    conn = librato.connect(LIBRATO_USERNAME, LIBRATO_TOKEN)
    q = conn.new_queue()
    for k, v in [('process_memory', process_memory),
                 ('process_connections', connections),
                 ('process_io_ops', io_ops),
                 ('process_io_bytes', io_bytes),
                 ('bytes_sent', net.bytes_sent),
                 ('bytes_received', net.bytes_recv),
                 ('net_errors', net.errin + net.errout),
                 ('net_drops', net.dropin + net.dropout),
                 ('page_outs', get_swapouts())]:
        q.add(k, v, source=SOURCE)
    q.submit()
Exemplo n.º 5
0
 def __init__(self, **kwargs):
     self.email = kwargs.pop('email', None)
     self.token = kwargs.pop('token', None)
     if (self.email or self.token) is None:
         raise exceptions.MissingRequiredConfig(
             'Missing authentication info')
     self.connection = librato.connect(self.email, self.token)
Exemplo n.º 6
0
    def __init__(self, config=None):
        """
        Create a new instance of the LibratoHandler class
        """
        # Initialize Handler
        Handler.__init__(self, config)
        logging.debug("Initialized Librato handler.")

        if librato is None:
            logging.error("Failed to load librato module")
            return

        # Initialize Options
        api = librato.connect(self.config['user'], self.config['apikey'])
        self.queue = api.new_queue()
        self.queue_max_size = int(self.config['queue_max_size'])
        self.queue_max_interval = int(self.config['queue_max_interval'])
        self.queue_max_timestamp = int(time.time() + self.queue_max_interval)
        self.current_n_measurements = 0

        # If a user leaves off the ending comma, cast to a array for them
        include_filters = self.config['include_filters']
        if isinstance(include_filters, basestring):
            include_filters = [include_filters]

        self.include_reg = re.compile(r'(?:%s)' % '|'.join(include_filters))
  def __init__(self, mode, source):
    threading.Thread.__init__(self, name='metrics-worker')
    
    self._mode = mode
    self._source = source

    self.queue = METRICS_QUEUE
    self.logger = logging.getLogger('graphlab.metrics')

    self._tracker = None # librato metrics tracker
    self._mixpanel = None # Mixpanel metrics tracker

    buffer_size = 5
    offline_buffer_size = 25
    self._sys_info_set = False

    self._usable = False
    try:
      if self._mode != 'PROD':
        self.logger.info("Using MetricMock instead of real metrics, mode is: %s" % self._mode)
        self._tracker = MetricMock()
        self._mixpanel = MetricMock()
      else:
        self._tracker = librato.connect(CONFIG.librato_user, CONFIG.librato_token)
        self._mixpanel = mixpanel.Mixpanel(CONFIG.mixpanel_user)
    except Exception, e:
      self.logger.warning("Unexpected exception connecting to Metrics service, disabling metrics, exception %s" % e)
Exemplo n.º 8
0
def run():
    try:
        parent_proc = psutil.Process(
            int(file("{{ lantern_pid }}").read().strip()))
        java_proc, = parent_proc.get_children()
        meminfo = java_proc.get_ext_memory_info()
        process_memory = meminfo.rss - meminfo.shared
        connections = len(java_proc.get_connections(kind='inet'))
        io = java_proc.get_io_counters()
        io_ops = io.read_count + io.write_count
        io_bytes = io.read_bytes + io.write_bytes
    except (IOError, ValueError, psutil.NoSuchProcess):
        logging.warn("Lantern not running; reporting zero stats.")
        process_memory = connections = io_ops = io_bytes = 0
    net = psutil.net_io_counters()
    conn = librato.connect(LIBRATO_USERNAME, LIBRATO_TOKEN)
    q = conn.new_queue()
    for k, v in [('process_memory', process_memory),
                 ('process_connections', connections),
                 ('process_io_ops', io_ops), ('process_io_bytes', io_bytes),
                 ('bytes_sent', net.bytes_sent),
                 ('bytes_received', net.bytes_recv),
                 ('net_errors', net.errin + net.errout),
                 ('net_drops', net.dropin + net.dropout),
                 ('page_outs', get_swapouts())]:
        q.add(k, v, source=SOURCE)
    q.submit()
Exemplo n.º 9
0
    def __init__(self, config=None):
        """
        Create a new instance of the LibratoHandler class
        """
        # Initialize Handler
        Handler.__init__(self, config)
        logging.debug("Initialized Librato handler.")

        if librato is None:
            logging.error("Failed to load librato module")
            return

        # Initialize Options
        self.api = librato.connect(self.config["user"], self.config["apikey"])

        self.queue = []
        self.queue_max_age = int(self.config["queue_max_age"])
        self.queue_max_size = int(self.config["queue_max_size"])
        self.queue_max_interval = int(self.config["queue_max_interval"])
        self.queue_max_timestamp = int(time.time() + self.queue_max_interval)
        self.disable_force_flush = bool(self.config["disable_force_flush"])

        # If a user leaves off the ending comma, cast to a array for them
        include_filters = self.config["include_filters"]
        if isinstance(include_filters, basestring):
            include_filters = [include_filters]

        self.include_reg = re.compile(r"(?:%s)" % "|".join(include_filters))
Exemplo n.º 10
0
    def available_streams(cls, data):
        """ Return a list with available streams for the class implementing this. Should return a list :
                [{'value': v1, 'time': t1}, {'value': v2, 'time': t2}]
        """

        # Get CPU measutements (we use it get the ID of the instances)
        libr = librato.connect(data['credentials']['username'],
                               data['credentials']['token'])

        metric = libr.get(data['metric'], count=100, resolution=1)
        instances_list = [i for i in metric.measurements]

        # Get sources display names
        sources = libr._mexe('sources')['sources']  # pylint: disable=W0212
        names = {}
        for s in sources:
            if s['display_name'] is not None:
                names[s['name']] = s['display_name']
            else:
                names[s['name']] = s['name']
        logger.info('Librato names: %s', names)
        result = []
        for id_ in instances_list:
            name = names.get(id_, id_)
            result.append({
                'id': id_,
                'name': name
            })  # Doesn't have a way to get better names

        return result
Exemplo n.º 11
0
    def __init__(self, config):

        super(LibratometricsStream, self).__init__(config)

        # Set Librato object
        self.libr = librato.connect(config['credentials']['username'],
                                    config['credentials']['token'])

        # Set metric to use
        self.metric = config['metric']

        # Get unit
        self._value_unit = self.libr.get(self.metric, count=1,
                                         resolution=1).attributes.get(
                                             'display_units_short', 'u')
        self._value_label = self.metric

        # Setup logging
        self.logger = logger or logging.getLogger(__name__)
        handler = logging.handlers.RotatingFileHandler(
            os.environ['LOG_DIR'] + "/stream_%s.log" % self.name,
            maxBytes=1024 * 1024,
            backupCount=4,
        )

        handler.setFormatter(
            logging.Formatter(
                '[%(levelname)s/%(processName)s][%(asctime)s] %(name)s %(message)s'
            ))
        handler.setLevel(logging.INFO)
        self.logger.addHandler(handler)
        self.logger.setLevel(logging.INFO)
Exemplo n.º 12
0
 def __init__(self, *args, **kwargs):
     self.source = kwargs.pop('source', None)
     self.report = librato.connect(*args, **kwargs)
     self.report.set_timeout(
         1
     )  # Report quick or skip it, errors will show up as missing reports
     super(LibratoReport, self).__init__()
Exemplo n.º 13
0
    def __init__(self, config=None):
        """
        Create a new instance of the LibratoHandler class
        """
        # Initialize Handler
        Handler.__init__(self, config)
        logging.debug("Initialized Librato handler.")

        if librato is None:
            logging.error("Failed to load librato module")
            return

        # Initialize Options
        api = librato.connect(self.config['user'],
                              self.config['apikey'])
        self.queue = api.new_queue()
        self.queue_max_size = int(self.config['queue_max_size'])
        self.queue_max_interval = int(self.config['queue_max_interval'])
        self.queue_max_timestamp = int(time.time() + self.queue_max_interval)
        self.current_n_measurements = 0

        # If a user leaves off the ending comma, cast to a array for them
        include_filters = self.config['include_filters']
        if isinstance(include_filters, basestring):
            include_filters = [include_filters]

        self.include_reg = re.compile(r'(?:%s)' % '|'.join(include_filters))
Exemplo n.º 14
0
 def setUp(self):
     self.conn = librato.connect('user_test', 'key_test')
     self.sample_payload = {
         'title': 'Email Ops',
         'type': 'mail',
         'settings': {'addresses': '*****@*****.**'}
     }
     server.clean()
Exemplo n.º 15
0
 def setUpClass(cls):
     """ Auth """
     user = os.environ.get('LIBRATO_USER')
     token = os.environ.get('LIBRATO_TOKEN')
     assert user and token, "Must set LIBRATO_USER and LIBRATO_TOKEN to run tests"
     print "%s and %s" % (user, token)
     """ Ensure user really wants to run these tests """
     are_you_sure = os.environ.get('LIBRATO_ALLOW_INTEGRATION_TESTS')
     assert are_you_sure == 'Y', "INTEGRATION TESTS WILL DELETE METRICS " \
         "IN YOUR ACCOUNT!!! " \
         "If you are absolutely sure that you want to run tests "\
         "against %s, please set LIBRATO_ALLOW_INTEGRATION_TESTS "\
         "to 'Y'" % user
     """Initialize the Librato Connection"""
     cls.conn = librato.connect(user, token)
     cls.conn_sanitize = librato.connect(
         user, token, sanitizer=librato.sanitize_metric_name)
Exemplo n.º 16
0
 def setUp(self):
     self.conn = librato.connect('user_test', 'key_test')
     self.sample_payload = {
         'title': 'Email Ops',
         'type': 'mail',
         'settings': {'addresses': '*****@*****.**'}
     }
     server.clean()
Exemplo n.º 17
0
def librato_metric_task(name, num, attributes=None, metric_type="gauge", **kwargs):
    connection = librato.connect(settings.APP_METRICS_LIBRATO_USER, settings.APP_METRICS_LIBRATO_TOKEN)

    if metric_type == "counter":
        metric = LibratoCounter(connection, name, attributes=attributes)
    else:
        metric = LibratoGauge(connection, name, attributes=attributes)

    metric.add(num, source=settings.APP_METRICS_LIBRATO_SOURCE)
Exemplo n.º 18
0
    def queue(cls, config):
        """
        Cached Librato queue for batch submitting
        """
        if not hasattr(cls, "_queue"):
            api = librato.connect(config.LIBRATO_USER, config.LIBRATO_TOKEN)
            cls._queue = api.new_queue(auto_submit_count=config.LIBRATO_QUEUE_LENGTH)

        return cls._queue
Exemplo n.º 19
0
 def __init__(self, user, token, queue, upload_size=100, on_error=None):
     """Create a consumer thread."""
     Thread.__init__(self)
     self.api = librato.connect(user, token)
     self.daemon = True  # set as a daemon so the program can exit
     self.upload_size = upload_size
     self.on_error = on_error
     self.queue = queue
     self.retries = 3
Exemplo n.º 20
0
    def __init__(self,
                 units='celsius',
                 username='******',
                 token='mytoken',
                 source='braubuddy'):

        self._source = source
        self._api = librato.connect(username, token)
        super(LibratoAPIOutput, self).__init__(units)
Exemplo n.º 21
0
 def __init__(self, user, token, queue, upload_size=100, on_error=None):
     """Create a consumer thread."""
     Thread.__init__(self)
     self.api = librato.connect(user, token)
     self.daemon = True  # set as a daemon so the program can exit
     self.upload_size = upload_size
     self.on_error = on_error
     self.queue = queue
     self.retries = 3
Exemplo n.º 22
0
    def test_constructor_tags(self):
        conn = librato.connect('user_test', 'key_test', tags={'sky': 'blue'})
        q = conn.new_queue(tags={'sky': 'red', 'coal': 'black'})
        tags = q.get_tags()

        assert len(tags) == 2
        assert 'sky' in tags
        assert tags['sky'] == 'red'
        assert 'coal' in tags
        assert tags['coal'] == 'black'
Exemplo n.º 23
0
    def queue(cls, config):
        """
        Cached Librato queue for batch submitting
        """
        if not hasattr(cls, "_queue"):
            api = librato.connect(config.LIBRATO_USER, config.LIBRATO_TOKEN)
            cls._queue = api.new_queue(
                auto_submit_count=config.LIBRATO_QUEUE_LENGTH)

        return cls._queue
Exemplo n.º 24
0
def librato_connect():
    '''
        Connect to the Librato service. See https://metrics.librato.com/
    '''
    apikey = os.getenv('LIBRATOKEY')
    if apikey == None:
        sys.stderr.write('Error: LIBRATOKEY environment variable is not set!!')
        sys.exit(1)
    libratoapi = librato.connect('*****@*****.**', apikey)
    return libratoapi
Exemplo n.º 25
0
    def queue(cls, config):
        """
        Cached Librato queue for batch submitting
        """
        if not hasattr(cls, "_queue"):
            api = librato.connect(os.environ.get('LIBRATO_USER'), os.environ.get('LIBRATO_TOKEN'))
            queue_length = int(os.environ.get('LIBRATO_QUEUE_LENGTH'))
            cls._queue = api.new_queue(auto_submit_count= queue_length)

        return cls._queue
Exemplo n.º 26
0
    def test_constructor_tags(self):
        conn = librato.connect('user_test', 'key_test', tags={'sky': 'blue'})
        q = conn.new_queue(tags={'sky': 'red', 'coal': 'black'})
        tags = q.get_tags()

        assert len(tags) == 2
        assert 'sky' in tags
        assert tags['sky'] == 'red'
        assert 'coal' in tags
        assert tags['coal'] == 'black'
Exemplo n.º 27
0
def connect_to_librato():
    import librato
    try:
        librato_user = os.environ['LIBRATO_USER']
        librato_token = os.environ['LIBRATO_TOKEN']
    except KeyError:
        raise Exception('librato user or token not set in enviroment settings ' +
        'LIBRATO_USER and LIBRATO_TOKEN despite set COVERAGE_ENABLED enviroment variable')

    return librato.connect(librato_user, librato_token)
Exemplo n.º 28
0
def librato_metric_task(name, num, attributes=None, metric_type="gauge",
                        **kwargs):
    connection = librato.connect(settings.APP_METRICS_LIBRATO_USER,
                                 settings.APP_METRICS_LIBRATO_TOKEN)

    if metric_type == "counter":
        metric = LibratoCounter(connection, name, attributes=attributes)
    else:
        metric = LibratoGauge(connection, name, attributes=attributes)

    metric.add(num, source=settings.APP_METRICS_LIBRATO_SOURCE)
Exemplo n.º 29
0
  def _get_queue(self):
    """Gets a Librato Queue object for bulk submission of metrics.

    Returns:
      A Librato Queue object.
    """
    import librato
    from librato import Queue

    connection = librato.connect(self._api_user, self._api_token)
    return Queue(connection)
Exemplo n.º 30
0
 def __init__(self,
              name,
              user=None,
              token=None,
              source=None,
              extract=lambda r, _: r):
     Action.__init__(self)
     self.extract = extract
     self.name = name
     self.source = source
     self.librato_api = librato.connect(user, token)
Exemplo n.º 31
0
    def setUpClass(cls):
        """ Auth """
        user = os.environ.get("LIBRATO_USER")
        token = os.environ.get("LIBRATO_TOKEN")
        assert user and token, "Must set LIBRATO_USER and LIBRATO_TOKEN to run tests"
        print "%s and %s" % (user, token)

        """ Ensure user really wants to run these tests """
        are_you_sure = os.environ.get("LIBRATO_ALLOW_INTEGRATION_TESTS")
        assert are_you_sure == "Y", (
            "INTEGRATION TESTS WILL DELETE METRICS "
            "IN YOUR ACCOUNT!!! "
            "If you are absolutely sure that you want to run tests "
            "against %s, please set LIBRATO_ALLOW_INTEGRATION_TESTS "
            "to 'Y'" % user
        )

        """Initialize the Librato Connection"""
        cls.conn = librato.connect(user, token)
        cls.conn_sanitize = librato.connect(user, token, sanitizer=librato.sanitize_metric_name)
Exemplo n.º 32
0
def _get_librato(ret=None):
    '''
    Return a Librato connection object.
    '''
    _options = _get_options(ret)

    conn = librato.connect(_options.get('email'),
                           _options.get('api_token'),
                           sanitizer=librato.sanitize_metric_name,
                           hostname=_options.get('api_url'))
    log.info("Connected to librato.")
    return conn
Exemplo n.º 33
0
def send_heartbeat(retries=3):
    for i in range(retries):
        try:
            user = '******'
            token = '<your_token>'
            api = librato.connect(user, token)
            api.submit('runner.{0}.heartbeat'.format(namespace), 1)
            break
        except Exception as e:
            log.exception('Exception sending health check to librato')
            notify("Exception sending health check to librato\n\nException is: " + traceback.format_exc(), severity="WARNING")
            time.sleep(1)
Exemplo n.º 34
0
class _MetricsWorkerThread(threading.Thread):
    """Worker Thread for publishing metrics in the background."""
    def __init__(self, mode, source):
        threading.Thread.__init__(self, name='metrics-worker')

        if CONFIG.version.endswith('.gpu'):
            self._version = CONFIG.version.split('.gpu')[0]
            self._isgpu = True
        else:
            self._version = CONFIG.version
            self._isgpu = False

        self._mode = mode
        self._source = source
        try:
            # product key
            from .. import product_key
            self._product_key = product_key.get_product_key()
        except Exception, e:
            self._product_key = None

        self.queue = METRICS_QUEUE
        root_package_name = __import__(__name__.split('.')[0]).__name__
        self.logger = logging.getLogger(root_package_name + '.metrics')

        self._tracker = None  # librato metrics tracker
        self._mixpanel = None  # Mixpanel metrics tracker

        buffer_size = 5
        offline_buffer_size = 25
        self._sys_info_set = False

        self._usable = False
        try:

            self._metrics_url = CONFIG.metrics_url
            self._requests = _requests  # support mocking out requests library in unit-tests

            if self._mode != 'PROD':
                self.logger.info(
                    "Using MetricMock instead of real metrics, mode is: %s" %
                    self._mode)
                self._tracker = MetricMock()
                self._mixpanel = MetricMock()
            else:
                self._tracker = librato.connect(CONFIG.librato_user,
                                                CONFIG.librato_token)
                self._mixpanel = mixpanel.Mixpanel(CONFIG.mixpanel_user)
        except Exception, e:
            self.logger.warning(
                "Unexpected exception connecting to Metrics service, disabling metrics, exception %s"
                % e)
Exemplo n.º 35
0
 def __init__(self, config=None):
     """
     Create a new instance of the LibratoHandler class
     """
     # Initialize Handler
     Handler.__init__(self, config)
     logging.debug("Initialized statsd handler.")
     # Initialize Options
     api = librato.connect(self.conf['user'],
                           self.conf['apikey'])
     self.queue = api.new_queue()
     self.batch_size = 300
     self.current_n_measurements = 0
Exemplo n.º 36
0
def _get_librato(ret=None):
    """
    Return a Librato connection object.
    """
    _options = _get_options(ret)

    conn = librato.connect(
        _options.get("email"),
        _options.get("api_token"),
        sanitizer=librato.sanitize_metric_name,
        hostname=_options.get("api_url"),
    )
    log.info("Connected to librato.")
    return conn
    def connect():
        librato_running = False
        q = None

        while librato_running is not True:
            try:
                api = librato.connect(librato_user, librato_token)
                q = api.new_queue()
                librato_running = True
            except:
                print("unable to connect to Librato server")
                sys.stdout.flush()
                time.sleep(interval)

        return q
    def connect():
        librato_running = False
        q = None

        while librato_running is not True:
            try:
                api = librato.connect(librato_user, librato_token)
                q = api.new_queue()
                librato_running = True
            except:
                print("unable to connect to Librato server")
                sys.stdout.flush()
                time.sleep(interval)

        return q
Exemplo n.º 39
0
def send_heartbeat(retries=3):
    for i in range(retries):
        try:
            user = '******'
            token = '<your_token>'
            api = librato.connect(user, token)
            api.submit('runner.{0}.heartbeat'.format(namespace), 1)
            break
        except Exception as e:
            log.exception('Exception sending health check to librato')
            notify(
                "Exception sending health check to librato\n\nException is: " +
                traceback.format_exc(),
                severity="WARNING")
            time.sleep(1)
Exemplo n.º 40
0
    def test_inherited_tags(self):
        conn = librato.connect('user_test', 'key_test', tags={'sky': 'blue'})
        assert conn.get_tags() == {'sky': 'blue'}

        q = conn.new_queue()
        q.add_tagged('user_cpu', 10)
        q.submit()

        # Measurement must inherit 'sky' tag from connection
        resp = self.conn.get_tagged('user_cpu', duration=60, tags_search="sky=blue")

        assert len(resp['series']) == 1
        assert resp['series'][0].get('tags', {}) == conn.get_tags()

        measurements = resp['series'][0]['measurements']
        assert len(measurements) == 1
        assert measurements[0]['value'] == 10
Exemplo n.º 41
0
    def test_inherited_tags(self):
        conn = librato.connect('user_test', 'key_test', tags={'sky': 'blue'})
        assert conn.get_tags() == {'sky': 'blue'}

        q = conn.new_queue()
        q.add_tagged('user_cpu', 10)
        q.submit()

        # Measurement must inherit 'sky' tag from connection
        resp = self.conn.get_tagged('user_cpu', duration=60, tags_search="sky=blue")

        assert len(resp['series']) == 1
        assert resp['series'][0].get('tags', {}) == conn.get_tags()

        measurements = resp['series'][0]['measurements']
        assert len(measurements) == 1
        assert measurements[0]['value'] == 10
Exemplo n.º 42
0
    def __init__(self,
                 librato_user,
                 librato_api_token,
                 pct_threshold=90,
                 debug=False,
                 flush_interval=60000,
                 no_aggregate_counters=False,
                 expire=0,
                 source_prefix='',
                 librato_hostname=LIBRATO_HOSTNAME,
                 prefix=None):
        self.buf = 8192
        self.flush_interval = float(flush_interval / 1000)
        self.pct_threshold = pct_threshold

        self.no_aggregate_counters = no_aggregate_counters
        self.debug = debug
        self.expire = expire
        self.hostname = socket.gethostname()

        parts = librato_hostname.split("://")
        if len(parts) > 2:
            raise ValueError("Malformed hostname: {}".format(librato_hostname))
        elif len(parts) == 2:
            protocol, librato_hostname = parts
            if protocol not in ["http", "https"]:
                raise ValueError("Unsupported protocol: {}".format(protocol))
        else:
            protocol = "https"

        self.api = librato.connect(librato_user,
                                   librato_api_token,
                                   hostname=librato_hostname,
                                   protocol=protocol,
                                   sanitizer=librato.sanitize_metric_name)

        self.counters = {}
        self.timers = {}
        self.gauges = {}
        self.aliases = {}
        self._sock = None
        self.prefix = prefix
        if source_prefix:
            self.source = '{}-{}'.format(source_prefix, self.hostname)
        else:
            self.source = self.hostname
Exemplo n.º 43
0
def main():
    config_file = 'config.json'
    if len(sys.argv) > 1:
        config_file = sys.argv[1]

    with open(config_file, 'r') as f:
        config = json.load(f)

    librato_client = None
    if 'librato' in config:
        librato_client = librato.connect(config['librato']['user'],
                                         config['librato']['token'])

    carbon_socket = None
    if 'carbon' in config:
        carbon_socket = (config['carbon']['server'], config['carbon']['port'])

    publish_forever(config, librato_client, carbon_socket)
Exemplo n.º 44
0
 def __init__(self, config=None):
     """
     Create a new instance of the LibratoHandler class
     """
     # Initialize Handler
     Handler.__init__(self, config)
     logging.debug("Initialized statsd handler.")
     # Initialize Options
     api = librato.connect(self.config['user'],
                           self.config['apikey'])
     self.queue = api.new_queue()
     self.queue_max_size = int(self.config.get('queue_max_size',300))
     self.queue_max_interval = int(self.config.get('queue_max_interval',60))
     self.queue_max_timestamp = int(time.time() + self.queue_max_interval)  
     self.current_n_measurements = 0
     
     self.include_reg = re.compile(r'(?:%s)' % '|'.join(
       self.config.get('include_filters',['^.*'])))
Exemplo n.º 45
0
def main():
    config_file = 'config.json'
    if len(sys.argv) > 1:
        config_file = sys.argv[1]

    with open(config_file, 'r') as f:
        config = json.load(f)

    librato_client = None
    if 'librato' in config:
        librato_client = librato.connect(config['librato']['user'],
                                         config['librato']['token'])

    carbon_socket = None
    if 'carbon' in config:
        carbon_socket = (config['carbon']['server'], config['carbon']['port'])


    publish_forever(config, librato_client, carbon_socket)
Exemplo n.º 46
0
    def __init__(self, config=None):
        """
        Create a new instance of the LibratoHandler class
        """
        # Initialize Handler
        Handler.__init__(self, config)
        logging.debug("Initialized statsd handler.")
        # Initialize Options
        api = librato.connect(self.config["user"], self.config["apikey"])
        self.queue = api.new_queue()
        self.queue_max_size = int(self.config.get("queue_max_size", 300))
        self.queue_max_interval = int(self.config.get("queue_max_interval", 60))
        self.queue_max_timestamp = int(time.time() + self.queue_max_interval)
        self.current_n_measurements = 0

        # If a user leaves off the ending comma, cast to a array for them
        include_filters = self.config.get("include_filters", ["^.*"])
        if isinstance(include_filters, basestring):
            include_filters = [include_filters]

        self.include_reg = re.compile(r"(?:%s)" % "|".join(include_filters))
Exemplo n.º 47
0
def handler(event, context):
    page = requests.get("http://www.nytimes.com/elections/results/president")
    tree = html.fromstring(page.content)
    democrat_electoral = tree.xpath(
        "//div[@class='eln-group eln-democrat ']/div[@class='eln-count']/text()"
    )[0]
    republican_electoral = tree.xpath(
        "//div[@class='eln-group eln-republican eln-winner']/div[@class='eln-count']/text()"
    )[0]

    print(democrat_electoral)
    print(republican_electoral)

    democrat_popular = tree.xpath(
        "//div[@class='eln-group eln-democrat']/div[@class='eln-value']/span[@class='eln-popular-vote-count']/text()"
    )[0].split(" votes")[0].replace(",", "")
    republican_popular = tree.xpath(
        "//div[@class='eln-group eln-republican']/div[@class='eln-value']/span[@class='eln-popular-vote-count']/text()"
    )[0].split(" votes")[0].replace(",", "")

    print(democrat_popular)
    print(republican_popular)

    # Send em to Librato
    username = os.environ['LIBRATO_USER']
    token = os.environ['LIBRATO_TOKEN']
    api = librato.connect(username, token)
    api.submit("election.electoral_votes.democrats",
               democrat_electoral,
               description="Democrats")
    api.submit("election.electoral_votes.gop",
               republican_electoral,
               description="GOP")

    api.submit("election.popular_vote.democrats",
               int(democrat_popular),
               description="Democrats")
    api.submit("election.popular_vote.gop",
               int(republican_popular),
               description="GOP")
Exemplo n.º 48
0
    def __init__(self, config=None):
        """
        Create a new instance of the LibratoHandler class
        """
        # Initialize Handler
        Handler.__init__(self, config)
        logging.debug("Initialized statsd handler.")
        # Initialize Options
        api = librato.connect(self.config['user'],
                              self.config['apikey'])
        self.queue = api.new_queue()
        self.queue_max_size = int(self.config.get('queue_max_size', 300))
        self.queue_max_interval = int(self.config.get('queue_max_interval', 60))
        self.queue_max_timestamp = int(time.time() + self.queue_max_interval)
        self.current_n_measurements = 0

        # If a user leaves off the ending comma, cast to a array for them
        include_filters = self.config.get('include_filters', ['^.*'])
        if isinstance(include_filters, basestring):
            include_filters = [include_filters]

        self.include_reg = re.compile(r'(?:%s)' % '|'.join(include_filters))
Exemplo n.º 49
0
    def __init__(self, librato_user, librato_api_token,
                 pct_threshold=90, debug=False, flush_interval=60000,
                 no_aggregate_counters=False, expire=0, source_prefix='',
                 librato_hostname=LIBRATO_HOSTNAME, prefix=None):
        self.buf = 8192
        self.flush_interval = float(flush_interval/1000)
        self.pct_threshold = pct_threshold

        self.no_aggregate_counters = no_aggregate_counters
        self.debug = debug
        self.expire = expire
        self.hostname = socket.gethostname()

        parts = librato_hostname.split("://")
        if len(parts) > 2:
            raise ValueError("Malformed hostname: {}".format(librato_hostname))
        elif len(parts) == 2:
            protocol, librato_hostname = parts
            if protocol not in ["http", "https"]:
                raise ValueError("Unsupported protocol: {}".format(protocol))
        else:
            protocol = "https"

        self.api = librato.connect(librato_user, librato_api_token,
                                   hostname=librato_hostname,
                                   protocol=protocol,
                                   sanitizer=librato.sanitize_metric_name)

        self.counters = {}
        self.timers = {}
        self.gauges = {}
        self.aliases = {}
        self._sock = None
        self.prefix = prefix
        if source_prefix:
            self.source = '{}-{}'.format(source_prefix, self.hostname)
        else:
            self.source = self.hostname
Exemplo n.º 50
0
 def setUp(self):
     self.conn = librato.connect('user_test', 'key_test')
     server.clean()
     self.q = self.conn.new_queue()
Exemplo n.º 51
0
def librato_metric_task(name, num, **kwargs):
    api = librato.connect(settings.APP_METRICS_LIBRATO_USER,
                          settings.APP_METRICS_LIBRATO_TOKEN)
    source = settings.APP_METRICS_LIBRATO_SOURCE
    api.submit(name, num, source=source, **kwargs)
Exemplo n.º 52
0
def client(config):
    return librato.connect(config["user"], config["token"])
Exemplo n.º 53
0
#!flask/bin/python
from flask import Flask
from flask import request
from flask import abort
from flask import jsonify
import hashlib
import hmac
import base64
import librato

app = Flask(__name__)

user   = '******'
token  = 'TOKEN'
secret = 'secret'
api    = librato.connect(user, token)

@app.route('/')
def index():
    return "Hello, World!"

@app.route('/proxy', methods=['POST'])
def proxy_temp():
    if not request.json or \
       not 'plain' in request.json  or \
       not 'hash' in request.json:
        abort(400, 'invalid request')

    plain_temp = str(request.json["plain"])
    hash_temp  = str(request.json["hash"])
    local_hash = hmac.new(secret, plain_temp).hexdigest()
Exemplo n.º 54
0
 def setup_class(cls):
     """Initialize the Librato Connection"""
     assert("LIBRATO_USER" in os.environ and "LIBRATO_TOKEN" in os.environ), \
         "Must set LIBRATO_USER and LIBRATO_TOKEN to run tests"
     cls.conn = librato.connect(os.environ['LIBRATO_USER'], os.environ['LIBRATO_TOKEN'])
Exemplo n.º 55
0
 def setUp(self):
     self.conn = librato.connect("user_test", "key_test")
     server.clean()
     self.q = self.conn.new_queue()
Exemplo n.º 56
0
 def setUp(self):
     self.conn = librato.connect('user_test', 'key_test', tags={'sky': 'blue'})
     server.clean()
Exemplo n.º 57
0
 def setUp(self):
     self.conn = librato.connect('user_test', 'key_test')
     server.clean()
Exemplo n.º 58
0
 def setUp(self):
     self.conn = librato.connect('user_test', 'key_test')
     server.clean()
     self.q = self.conn.new_queue()