# (C) Copyright 2017 Hewlett Packard Enterprise Development LP import requests from monasca_agent.collector.checks import AgentCheck from monasca_agent.collector.checks import utils from monasca_agent.common.util import rollup_dictionaries DEFAULT_TIMEOUT = "3" # format for METRICS: (cadvisor metric name, [metric types], [metric units]) METRICS = { "cpu_metrics": { "system": ("system_time", ["gauge", "rate"], ["core_seconds", "core_seconds_per_second"]), "total": ("total_time", ["gauge", "rate"], ["core_seconds", "core_seconds_per_second"]), "user": ("user_time", ["gauge", "rate"], ["core_seconds", "core_seconds_per_second"]) }, "memory_metrics": { "swap": ("swap_bytes", ["gauge"], ["bytes"]), "cache": ("cache_bytes", ["gauge"], ["bytes"]), "usage": ("used_bytes", ["gauge"], ["bytes"]), "working_set": ("working_set", ["gauge"], ["bytes"]) }, "filesystem_metrics": { "capacity": ("total_bytes", ["gauge"], ["bytes"]), "usage": ("usage_bytes", ["gauge"], ["bytes"]) }, 'network_metrics': { "rx_bytes": ("in_bytes", ["gauge", "rate"], ["total_bytes", "total_bytes_per_second"]), "tx_bytes": ("out_bytes", ["gauge", "rate"], ["total_bytes", "total_bytes_per_second"]), "rx_packets": ("in_packets", ["gauge", "rate"], ["total_packets", "total_packets_per_second"]), "tx_packets": ("out_packets", ["gauge", "rate"], ["total_packets", "total_packets_per_second"]), "rx_dropped": ("in_dropped_packets", ["gauge", "rate"], ["total_packets", "total_packets_per_second"]), "tx_dropped": ("out_dropped_packets", ["gauge", "rate"], ["total_packets", "total_packets_per_second"]), "rx_errors": ("in_errors", ["gauge", "rate"], ["total_errors", "total_errors_per_second"]), "tx_errors": ("out_errors", ["gauge", "rate"], ["total_errors", "total_errors_per_second"]) }, "diskio_metrics": { "Read": ("read_bytes", ["gauge", "rate"], ["total_bytes", "total_bytes_per_second"]), 'Write': ("write_bytes", ["gauge", "rate"], ["total_bytes", "total_bytes_per_second"]) }, } class CadvisorHost(AgentCheck): """Queries given cAdvisor API for node metrics """ def __init__(self, name, init_config, agent_config, instances=None): AgentCheck.__init__(self, name, init_config, agent_config, instances) if instances is not None and len(instances) > 1: raise Exception('cAdvisor host check only supports one configured' ' instance.') self.connection_timeout = int(init_config.get('connection_timeout', DEFAULT_TIMEOUT)) self.cadvisor_url = None def check(self, instance): if not self.cadvisor_url: cadvisor_url = instance.get("cadvisor_url", None) detect_cadvisor_url = instance.get("kubernetes_detect_cadvisor", False) if not cadvisor_url: if detect_cadvisor_url: kubernetes_connector = utils.KubernetesConnector(self.connection_timeout) host = kubernetes_connector.get_agent_pod_host() cadvisor_url = "http://{}:4194".format(host) else: exception_message = "Either cAdvisor url or kubernetes " \ "detect cAdvisor must be set when " \ "monitoring a Kubernetes Node." self.log.error(exception_message) raise Exception(exception_message) self.cadvisor_url = "{}/{}".format(cadvisor_url, "api/v2.0/stats?count=1") dimensions = self._set_dimensions(None, instance) try: host_metrics = requests.get(self.cadvisor_url, self.connection_timeout).json() except Exception as e: self.log.error("Error communicating with cAdvisor to collect data - {}".format(e)) else: self._parse_send_metrics(host_metrics, dimensions) def _send_metrics(self, metric_name, value, dimensions, metric_types, metric_units): for metric_type in metric_types: if metric_type == 'rate': dimensions.update({'unit': metric_units[metric_types.index('rate')]}) self.rate(metric_name + "_sec", value, dimensions) elif metric_type == 'gauge': dimensions.update({'unit': metric_units[metric_types.index('gauge')]}) self.gauge(metric_name, value, dimensions) def _parse_memory(self, memory_data, dimensions): memory_metrics = METRICS['memory_metrics'] for cadvisor_key, (metric_name, metric_types, metric_units) in memory_metrics.items(): if cadvisor_key in memory_data: self._send_metrics("mem." + metric_name, memory_data[cadvisor_key], dimensions, metric_types, metric_units) def _parse_filesystem(self, filesystem_data, dimensions): filesystem_metrics = METRICS['filesystem_metrics'] for filesystem in filesystem_data: file_dimensions = dimensions.copy() file_dimensions['device'] = filesystem['device'] for cadvisor_key, (metric_name, metric_types, metric_units) in filesystem_metrics.items(): if cadvisor_key in filesystem: self._send_metrics("fs." + metric_name, filesystem[cadvisor_key], file_dimensions, metric_types, metric_units) def _parse_network(self, network_data, dimensions): network_interfaces = network_data['interfaces'] network_metrics = METRICS['network_metrics'] interface_sum = {} # This function is to roll up network metrics for different interfaces for interface in network_interfaces: interface_sum = rollup_dictionaries(interface_sum, interface) network_dimensions = dimensions.copy() for cadvisor_key, (metric_name, metric_types, metric_units) in network_metrics.items(): if cadvisor_key in interface_sum: self._send_metrics("net." + metric_name, interface_sum[cadvisor_key], network_dimensions, metric_types, metric_units) def _parse_diskio(self, diskio_data, dimensions): diskio_metrics = METRICS['diskio_metrics'] disk_io_sum = {} for io_data in diskio_data['io_service_bytes']: disk_io_sum = rollup_dictionaries(disk_io_sum, io_data['stats']) for cadvisor_key, (metric_name, metric_types, metric_units) in diskio_metrics.items(): if cadvisor_key in disk_io_sum: self._send_metrics("io." + metric_name, disk_io_sum[cadvisor_key], dimensions, metric_types, metric_units) def _parse_cpu(self, cpu_data, dimensions): cpu_metrics = METRICS['cpu_metrics'] cpu_usage = cpu_data['usage'] for cadvisor_key, (metric_name, metric_types, metric_units) in cpu_metrics.items(): if cadvisor_key in cpu_usage: # Convert nanoseconds to seconds cpu_usage_sec = cpu_usage[cadvisor_key] / 1000000000.0 self._send_metrics("cpu." + metric_name, cpu_usage_sec, dimensions, metric_types, metric_units) def _parse_send_metrics(self, metrics, dimensions): for host, cadvisor_metrics in metrics.items(): host_dimensions = dimensions.copy() # Grab first set of metrics from return data cadvisor_metrics = cadvisor_metrics[0] if cadvisor_metrics['has_memory'] and cadvisor_metrics['memory']: self._parse_memory(cadvisor_metrics['memory'], host_dimensions) if cadvisor_metrics['has_filesystem'] and cadvisor_metrics['filesystem']: self._parse_filesystem(cadvisor_metrics['filesystem'], host_dimensions) if cadvisor_metrics['has_network'] and cadvisor_metrics['network']: self._parse_network(cadvisor_metrics['network'], host_dimensions) if cadvisor_metrics['has_diskio'] and cadvisor_metrics['diskio']: self._parse_diskio(cadvisor_metrics['diskio'], host_dimensions) if cadvisor_metrics['has_cpu'] and cadvisor_metrics['cpu']: self._parse_cpu(cadvisor_metrics['cpu'], host_dimensions)