#!/usr/bin/env python import abc import copy import logging import os import re import time import requests from yaml import dump from yaml import load import latency_unit import status as st # This is the mandatory fields that must be in the configuration file in this # same exact structure. configuration_mandatory_fields = { 'endpoint': ['url', 'method', 'timeout', 'expectation'], 'cachet': ['api_url', 'token', 'component_id'], 'frequency': []} class ConfigurationValidationError(Exception): """Exception raised when there's a validation error.""" def __init__(self, value): self.value = value def __str__(self): return repr(self.value) class ComponentNonexistentError(Exception): """Exception raised when the component does not exist.""" def __init__(self, component_id): self.component_id = component_id def __str__(self): return repr('Component with id [%d] does not exist.' % (self.component_id,)) def get_current_status(endpoint_url, component_id, headers): """Retrieves the current status of the component that is being monitored. It will fail if the component does not exist or doesn't respond with the expected data. :return component status. """ get_status_request = requests.get('%s/components/%s' % (endpoint_url, component_id), headers=headers) if get_status_request.ok: # The component exists. return get_status_request.json()['data']['status'] else: raise ComponentNonexistentError(component_id) def normalize_url(url): """If passed url doesn't include schema return it with default one - http.""" if not url.lower().startswith('http'): return 'http://%s' % url return url class Configuration(object): """Represents a configuration file, but it also includes the functionality of assessing the API and pushing the results to cachet. """ def __init__(self, config_file): self.logger = logging.getLogger('cachet_url_monitor.configuration.Configuration') self.config_file = config_file self.data = load(file(self.config_file, 'r')) # Exposing the configuration to confirm it's parsed as expected. self.print_out() # We need to validate the configuration is correct and then validate the component actually exists. self.validate() # We store the main information from the configuration file, so we don't keep reading from the data dictionary. self.headers = {'X-Cachet-Token': os.environ.get('CACHET_TOKEN') or self.data['cachet']['token']} self.endpoint_method = os.environ.get('ENDPOINT_METHOD') or self.data['endpoint']['method'] self.endpoint_url = os.environ.get('ENDPOINT_URL') or self.data['endpoint']['url'] self.endpoint_url = normalize_url(self.endpoint_url) self.endpoint_timeout = os.environ.get('ENDPOINT_TIMEOUT') or self.data['endpoint'].get('timeout') or 1 self.api_url = os.environ.get('CACHET_API_URL') or self.data['cachet']['api_url'] self.component_id = os.environ.get('CACHET_COMPONENT_ID') or self.data['cachet']['component_id'] self.metric_id = os.environ.get('CACHET_METRIC_ID') or self.data['cachet'].get('metric_id') self.default_metric_value = self.get_default_metric_value() # The latency_unit configuration is not mandatory and we fallback to seconds, by default. self.latency_unit = os.environ.get('LATENCY_UNIT') or self.data['cachet'].get('latency_unit') or 's' # We need the current status so we monitor the status changes. This is necessary for creating incidents. self.status = get_current_status(self.api_url, self.component_id, self.headers) # Get remaining settings self.public_incidents = int( os.environ.get('CACHET_PUBLIC_INCIDENTS') or self.data['cachet']['public_incidents']) self.logger.info('Monitoring URL: %s %s' % (self.endpoint_method, self.endpoint_url)) self.expectations = [Expectaction.create(expectation) for expectation in self.data['endpoint']['expectation']] for expectation in self.expectations: self.logger.info('Registered expectation: %s' % (expectation,)) def get_default_metric_value(self): """Returns default value for configured metric.""" get_metric_request = requests.get('%s/metrics/%s' % (self.api_url, self.metric_id), headers=self.headers) return get_metric_request.json()['data']['default_value'] def get_action(self): """Retrieves the action list from the configuration. If it's empty, returns an empty list. :return: The list of actions, which can be an empty list. """ if self.data['cachet'].get('action') is None: return [] else: return self.data['cachet']['action'] def validate(self): """Validates the configuration by verifying the mandatory fields are present and in the correct format. If the validation fails, a ConfigurationValidationError is raised. Otherwise nothing will happen. """ configuration_errors = [] for key, sub_entries in configuration_mandatory_fields.iteritems(): if key not in self.data: configuration_errors.append(key) for sub_key in sub_entries: if sub_key not in self.data[key]: configuration_errors.append('%s.%s' % (key, sub_key)) if ('endpoint' in self.data and 'expectation' in self.data['endpoint']): if (not isinstance(self.data['endpoint']['expectation'], list) or (isinstance(self.data['endpoint']['expectation'], list) and len(self.data['endpoint']['expectation']) == 0)): configuration_errors.append('endpoint.expectation') if len(configuration_errors) > 0: raise ConfigurationValidationError( 'Config file [%s] failed validation. Missing keys: %s' % (self.config_file, ', '.join(configuration_errors))) def evaluate(self): """Sends the request to the URL set in the configuration and executes each one of the expectations, one by one. The status will be updated according to the expectation results. """ try: self.request = requests.request(self.endpoint_method, self.endpoint_url, timeout=self.endpoint_timeout) self.current_timestamp = int(time.time()) except requests.ConnectionError: self.message = 'The URL is unreachable: %s %s' % (self.endpoint_method, self.endpoint_url) self.logger.warning(self.message) self.status = st.COMPONENT_STATUS_PARTIAL_OUTAGE return except requests.HTTPError: self.message = 'Unexpected HTTP response' self.logger.exception(self.message) self.status = st.COMPONENT_STATUS_PARTIAL_OUTAGE return except requests.Timeout: self.message = 'Request timed out' self.logger.warning(self.message) self.status = st.COMPONENT_STATUS_PERFORMANCE_ISSUES return # We initially assume the API is healthy. self.status = st.COMPONENT_STATUS_OPERATIONAL self.message = '' for expectation in self.expectations: status = expectation.get_status(self.request) # The greater the status is, the worse the state of the API is. if status > self.status: self.status = status self.message = expectation.get_message(self.request) self.logger.info(self.message) def print_out(self): self.logger.info('Current configuration:\n%s' % (self.__repr__())) def __repr__(self): temporary_data = copy.deepcopy(self.data) # Removing the token so we don't leak it in the logs. del temporary_data['cachet']['token'] return dump(temporary_data, default_flow_style=False) def push_status(self): """Pushes the status of the component to the cachet server. It will update the component status based on the previous call to evaluate(). """ params = {'id': self.component_id, 'status': self.status} component_request = requests.put('%s/components/%d' % (self.api_url, self.component_id), params=params, headers=self.headers) if component_request.ok: # Successful update self.logger.info('Component update: status [%d]' % (self.status,)) else: # Failed to update the API status self.logger.warning('Component update failed with status [%d]: API' ' status: [%d]' % (component_request.status_code, self.status)) def push_metrics(self): """Pushes the total amount of seconds the request took to get a response from the URL. It only will send a request if the metric id was set in the configuration. In case of failed connection trial pushes the default metric value. """ if 'metric_id' in self.data['cachet'] and hasattr(self, 'request'): # We convert the elapsed time from the request, in seconds, to the configured unit. value = self.default_metric_value if self.status != 1 else latency_unit.convert_to_unit(self.latency_unit, self.request.elapsed.total_seconds()) params = {'id': self.metric_id, 'value': value, 'timestamp': self.current_timestamp} metrics_request = requests.post('%s/metrics/%d/points' % (self.api_url, self.metric_id), params=params, headers=self.headers) if metrics_request.ok: # Successful metrics upload self.logger.info('Metric uploaded: %.6f seconds' % (value,)) else: self.logger.warning('Metric upload failed with status [%d]' % (metrics_request.status_code,)) def push_incident(self): """If the component status has changed, we create a new incident (if this is the first time it becomes unstable) or updates the existing incident once it becomes healthy again. """ if hasattr(self, 'incident_id') and self.status == st.COMPONENT_STATUS_OPERATIONAL: # If the incident already exists, it means it was unhealthy but now it's healthy again. params = {'status': 4, 'visible': self.public_incidents, 'component_id': self.component_id, 'component_status': self.status, 'notify': True} incident_request = requests.put('%s/incidents/%d' % (self.api_url, self.incident_id), params=params, headers=self.headers) if incident_request.ok: # Successful metrics upload self.logger.info( 'Incident updated, API healthy again: component status [%d], message: "%s"' % ( self.status, self.message)) del self.incident_id else: self.logger.warning('Incident update failed with status [%d], message: "%s"' % ( incident_request.status_code, self.message)) elif not hasattr(self, 'incident_id') and self.status != st.COMPONENT_STATUS_OPERATIONAL: # This is the first time the incident is being created. params = {'name': 'URL unavailable', 'message': self.message, 'status': 1, 'visible': self.public_incidents, 'component_id': self.component_id, 'component_status': self.status, 'notify': True} incident_request = requests.post('%s/incidents' % (self.api_url,), params=params, headers=self.headers) if incident_request.ok: # Successful incident upload. self.incident_id = incident_request.json()['data']['id'] self.logger.info( 'Incident uploaded, API unhealthy: component status [%d], message: "%s"' % ( self.status, self.message)) else: self.logger.warning( 'Incident upload failed with status [%d], message: "%s"' % ( incident_request.status_code, self.message)) class Expectaction(object): """Base class for URL result expectations. Any new excpectation should extend this class and the name added to create() method. """ @staticmethod def create(configuration): """Creates a list of expectations based on the configuration types list. """ expectations = { 'HTTP_STATUS': HttpStatus, 'LATENCY': Latency, 'REGEX': Regex } return expectations.get(configuration['type'])(configuration) @abc.abstractmethod def get_status(self, response): """Returns the status of the API, following cachet's component status documentation: https://docs.cachethq.io/docs/component-statuses """ @abc.abstractmethod def get_message(self, response): """Gets the error message.""" class HttpStatus(Expectaction): def __init__(self, configuration): self.status_range = self.parse_range(configuration['status_range']) def parse_range(self, range_string): statuses = range_string.split("-") if len(statuses) == 1: # When there was no range given, we should treat the first number as a single status check. return (int(statuses[0]), int(statuses[0]) + 1) else: # We shouldn't look into more than one value, as this is a range value. return (int(statuses[0]), int(statuses[1])) def get_status(self, response): if response.status_code >= self.status_range[0] and response.status_code < self.status_range[1]: return st.COMPONENT_STATUS_OPERATIONAL else: return st.COMPONENT_STATUS_PARTIAL_OUTAGE def get_message(self, response): return 'Unexpected HTTP status (%s)' % (response.status_code,) def __str__(self): return repr('HTTP status range: %s' % (self.status_range,)) class Latency(Expectaction): def __init__(self, configuration): self.threshold = configuration['threshold'] def get_status(self, response): if response.elapsed.total_seconds() <= self.threshold: return st.COMPONENT_STATUS_OPERATIONAL else: return st.COMPONENT_STATUS_PERFORMANCE_ISSUES def get_message(self, response): return 'Latency above threshold: %.4f seconds' % (response.elapsed.total_seconds(),) def __str__(self): return repr('Latency threshold: %.4f seconds' % (self.threshold,)) class Regex(Expectaction): def __init__(self, configuration): self.regex_string = configuration['regex'] self.regex = re.compile(configuration['regex'], re.UNICODE + re.DOTALL) def get_status(self, response): if self.regex.match(response.text): return st.COMPONENT_STATUS_OPERATIONAL else: return st.COMPONENT_STATUS_PARTIAL_OUTAGE def get_message(self, response): return 'Regex did not match anything in the body' def __str__(self): return repr('Regex: %s' % (self.regex_string,))