From 61aedf201c2c4bf0e5aa4db32e74f4d860b88593 Mon Sep 17 00:00:00 2001 From: Federico Ceratto Date: Tue, 19 Dec 2017 23:39:21 +0000 Subject: New upstream version 1.9.0+dfsg --- python.d/python_modules/base.py | 1126 +-------------------------------------- 1 file changed, 8 insertions(+), 1118 deletions(-) (limited to 'python.d/python_modules/base.py') diff --git a/python.d/python_modules/base.py b/python.d/python_modules/base.py index 1d5417ec2..7c6e1d2f2 100644 --- a/python.d/python_modules/base.py +++ b/python.d/python_modules/base.py @@ -1,1119 +1,9 @@ # -*- coding: utf-8 -*- -# Description: netdata python modules framework -# Author: Pawel Krupa (paulfantom) - -# Remember: -# ALL CODE NEEDS TO BE COMPATIBLE WITH Python > 2.7 and Python > 3.1 -# Follow PEP8 as much as it is possible -# "check" and "create" CANNOT be blocking. -# "update" CAN be blocking -# "update" function needs to be fast, so follow: -# https://wiki.python.org/moin/PythonSpeed/PerformanceTips -# basically: -# - use local variables wherever it is possible -# - avoid dots in expressions that are executed many times -# - use "join()" instead of "+" -# - use "import" only at the beginning -# -# using ".encode()" in one thread can block other threads as well (only in python2) - -import os -import re -import socket -import time -import threading - -import urllib3 - -from glob import glob -from subprocess import Popen, PIPE -from sys import exc_info - -try: - import MySQLdb - PY_MYSQL = True -except ImportError: - try: - import pymysql as MySQLdb - PY_MYSQL = True - except ImportError: - PY_MYSQL = False - -import msg - - -PATH = os.getenv('PATH', '/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin').split(':') -try: - urllib3.disable_warnings() -except AttributeError: - msg.error('urllib3: warnings were not disabled') - - -# class BaseService(threading.Thread): -class SimpleService(threading.Thread): - """ - Prototype of Service class. - Implemented basic functionality to run jobs by `python.d.plugin` - """ - def __init__(self, configuration=None, name=None): - """ - This needs to be initialized in child classes - :param configuration: dict - :param name: str - """ - threading.Thread.__init__(self) - self._data_stream = "" - self.daemon = True - self.retries = 0 - self.retries_left = 0 - self.priority = 140000 - self.update_every = 1 - self.name = name - self.override_name = None - self.chart_name = "" - self._dimensions = [] - self._charts = [] - self.__chart_set = False - self.__first_run = True - self.order = [] - self.definitions = {} - self._data_from_check = dict() - if configuration is None: - self.error("BaseService: no configuration parameters supplied. Cannot create Service.") - raise RuntimeError - else: - self._extract_base_config(configuration) - self.timetable = {} - self.create_timetable() - - # --- BASIC SERVICE CONFIGURATION --- - - def _extract_base_config(self, config): - """ - Get basic parameters to run service - Minimum config: - config = {'update_every':1, - 'priority':100000, - 'retries':0} - :param config: dict - """ - pop = config.pop - try: - self.override_name = pop('name') - except KeyError: - pass - self.update_every = int(pop('update_every')) - self.priority = int(pop('priority')) - self.retries = int(pop('retries')) - self.retries_left = self.retries - self.configuration = config - - def create_timetable(self, freq=None): - """ - Create service timetable. - `freq` is optional - Example: - timetable = {'last': 1466370091.3767564, - 'next': 1466370092, - 'freq': 1} - :param freq: int - """ - if freq is None: - freq = self.update_every - now = time.time() - self.timetable = {'last': now, - 'next': now - (now % freq) + freq, - 'freq': freq} - - # --- THREAD CONFIGURATION --- - - def _run_once(self): - """ - Executes self.update(interval) and draws run time chart. - Return value presents exit status of update() - :return: boolean - """ - t_start = float(time.time()) - chart_name = self.chart_name - - since_last = int((t_start - self.timetable['last']) * 1000000) - if self.__first_run: - since_last = 0 - - if not self.update(since_last): - self.error("update function failed.") - return False - - # draw performance graph - run_time = int((time.time() - t_start) * 1000) - print("BEGIN netdata.plugin_pythond_%s %s\nSET run_time = %s\nEND\n" % - (self.chart_name, str(since_last), str(run_time))) - - self.debug(chart_name, "updated in", str(run_time), "ms") - self.timetable['last'] = t_start - self.__first_run = False - return True - - def run(self): - """ - Runs job in thread. Handles retries. - Exits when job failed or timed out. - :return: None - """ - step = float(self.timetable['freq']) - penalty = 0 - self.timetable['last'] = float(time.time() - step) - self.debug("starting data collection - update frequency:", str(step), " retries allowed:", str(self.retries)) - while True: # run forever, unless something is wrong - now = float(time.time()) - next = self.timetable['next'] = now - (now % step) + step + penalty - - # it is important to do this in a loop - # sleep() is interruptable - while now < next: - self.debug("sleeping for", str(next - now), "secs to reach frequency of", - str(step), "secs, now:", str(now), " next:", str(next), " penalty:", str(penalty)) - time.sleep(next - now) - now = float(time.time()) - - # do the job - try: - status = self._run_once() - except Exception: - status = False - - if status: - # it is good - self.retries_left = self.retries - penalty = 0 - else: - # it failed - self.retries_left -= 1 - if self.retries_left <= 0: - if penalty == 0: - penalty = float(self.retries * step) / 2 - else: - penalty *= 1.5 - - if penalty > 600: - penalty = 600 - - self.retries_left = self.retries - self.alert("failed to collect data for " + str(self.retries) + - " times - increasing penalty to " + str(penalty) + " sec and trying again") - - else: - self.error("failed to collect data - " + str(self.retries_left) - + " retries left - penalty: " + str(penalty) + " sec") - - # --- CHART --- - - @staticmethod - def _format(*args): - """ - Escape and convert passed arguments. - :param args: anything - :return: list - """ - params = [] - append = params.append - for p in args: - if p is None: - append(p) - continue - if type(p) is not str: - p = str(p) - if ' ' in p: - p = "'" + p + "'" - append(p) - return params - - def _line(self, instruction, *params): - """ - Converts *params to string and joins them with one space between every one. - Result is appended to self._data_stream - :param params: str/int/float - """ - tmp = list(map((lambda x: "''" if x is None or len(x) == 0 else x), params)) - self._data_stream += "%s %s\n" % (instruction, str(" ".join(tmp))) - - def chart(self, type_id, name="", title="", units="", family="", - category="", chart_type="line", priority="", update_every=""): - """ - Defines a new chart. - :param type_id: str - :param name: str - :param title: str - :param units: str - :param family: str - :param category: str - :param chart_type: str - :param priority: int/str - :param update_every: int/str - """ - self._charts.append(type_id) - - p = self._format(type_id, name, title, units, family, category, chart_type, priority, update_every) - self._line("CHART", *p) - - def dimension(self, id, name=None, algorithm="absolute", multiplier=1, divisor=1, hidden=False): - """ - Defines a new dimension for the chart - :param id: str - :param name: str - :param algorithm: str - :param multiplier: int/str - :param divisor: int/str - :param hidden: boolean - :return: - """ - try: - int(multiplier) - except TypeError: - self.error("malformed dimension: multiplier is not a number:", multiplier) - multiplier = 1 - try: - int(divisor) - except TypeError: - self.error("malformed dimension: divisor is not a number:", divisor) - divisor = 1 - if name is None: - name = id - if algorithm not in ("absolute", "incremental", "percentage-of-absolute-row", "percentage-of-incremental-row"): - algorithm = "absolute" - - self._dimensions.append(str(id)) - if hidden: - p = self._format(id, name, algorithm, multiplier, divisor, "hidden") - else: - p = self._format(id, name, algorithm, multiplier, divisor) - - self._line("DIMENSION", *p) - - def begin(self, type_id, microseconds=0): - """ - Begin data set - :param type_id: str - :param microseconds: int - :return: boolean - """ - if type_id not in self._charts: - self.error("wrong chart type_id:", type_id) - return False - try: - int(microseconds) - except TypeError: - self.error("malformed begin statement: microseconds are not a number:", microseconds) - microseconds = "" - - self._line("BEGIN", type_id, str(microseconds)) - return True - - def set(self, id, value): - """ - Set value to dimension - :param id: str - :param value: int/float - :return: boolean - """ - if id not in self._dimensions: - self.error("wrong dimension id:", id, "Available dimensions are:", *self._dimensions) - return False - try: - value = str(int(value)) - except TypeError: - self.error("cannot set non-numeric value:", str(value)) - return False - self._line("SET", id, "=", str(value)) - self.__chart_set = True - return True - - def end(self): - if self.__chart_set: - self._line("END") - self.__chart_set = False - else: - pos = self._data_stream.rfind("BEGIN") - self._data_stream = self._data_stream[:pos] - - def commit(self): - """ - Upload new data to netdata. - """ - try: - print(self._data_stream) - except Exception as e: - msg.fatal('cannot send data to netdata:', str(e)) - self._data_stream = "" - - # --- ERROR HANDLING --- - - def error(self, *params): - """ - Show error message on stderr - """ - msg.error(self.chart_name, *params) - - def alert(self, *params): - """ - Show error message on stderr - """ - msg.alert(self.chart_name, *params) - - def debug(self, *params): - """ - Show debug message on stderr - """ - msg.debug(self.chart_name, *params) - - def info(self, *params): - """ - Show information message on stderr - """ - msg.info(self.chart_name, *params) - - # --- MAIN METHODS --- - - def _get_data(self): - """ - Get some data - :return: dict - """ - return {} - - def check(self): - """ - check() prototype - :return: boolean - """ - self.debug("Module", str(self.__module__), "doesn't implement check() function. Using default.") - data = self._get_data() - - if data is None: - self.debug("failed to receive data during check().") - return False - - if len(data) == 0: - self.debug("empty data during check().") - return False - - self.debug("successfully received data during check(): '" + str(data) + "'") - return True - - def create(self): - """ - Create charts - :return: boolean - """ - data = self._data_from_check or self._get_data() - if data is None: - self.debug("failed to receive data during create().") - return False - - idx = 0 - for name in self.order: - options = self.definitions[name]['options'] + [self.priority + idx, self.update_every] - self.chart(self.chart_name + "." + name, *options) - # check if server has this datapoint - for line in self.definitions[name]['lines']: - if line[0] in data: - self.dimension(*line) - idx += 1 - - self.commit() - return True - - def update(self, interval): - """ - Update charts - :param interval: int - :return: boolean - """ - data = self._get_data() - if data is None: - self.debug("failed to receive data during update().") - return False - - updated = False - for chart in self.order: - if self.begin(self.chart_name + "." + chart, interval): - updated = True - for dim in self.definitions[chart]['lines']: - try: - self.set(dim[0], data[dim[0]]) - except KeyError: - pass - self.end() - - self.commit() - if not updated: - self.error("no charts to update") - - return updated - - @staticmethod - def find_binary(binary): - try: - if isinstance(binary, str): - binary = os.path.basename(binary) - return next(('/'.join([p, binary]) for p in PATH - if os.path.isfile('/'.join([p, binary])) - and os.access('/'.join([p, binary]), os.X_OK))) - return None - except StopIteration: - return None - - def _add_new_dimension(self, dimension_id, chart_name, dimension=None, algorithm='incremental', - multiplier=1, divisor=1, priority=65000): - """ - :param dimension_id: - :param chart_name: - :param dimension: - :param algorithm: - :param multiplier: - :param divisor: - :param priority: - :return: - """ - if not all([dimension_id not in self._dimensions, - chart_name in self.order, - chart_name in self.definitions]): - return - self._dimensions.append(dimension_id) - dimension_list = list(map(str, [dimension_id, - dimension if dimension else dimension_id, - algorithm, - multiplier, - divisor])) - self.definitions[chart_name]['lines'].append(dimension_list) - add_to_name = self.override_name or self.name - job_name = ('_'.join([self.__module__, re.sub('\s+', '_', add_to_name)]) - if add_to_name != 'None' else self.__module__) - chart = 'CHART {0}.{1} '.format(job_name, chart_name) - options = '"" "{0}" {1} "{2}" {3} {4} '.format(*self.definitions[chart_name]['options'][1:6]) - other = '{0} {1}\n'.format(priority, self.update_every) - new_dimension = "DIMENSION {0}\n".format(' '.join(dimension_list)) - print(chart + options + other + new_dimension) - - -class UrlService(SimpleService): - def __init__(self, configuration=None, name=None): - SimpleService.__init__(self, configuration=configuration, name=name) - self.url = self.configuration.get('url') - self.user = self.configuration.get('user') - self.password = self.configuration.get('pass') - self.proxy_user = self.configuration.get('proxy_user') - self.proxy_password = self.configuration.get('proxy_pass') - self.proxy_url = self.configuration.get('proxy_url') - self._manager = None - - def __make_headers(self, **header_kw): - user = header_kw.get('user') or self.user - password = header_kw.get('pass') or self.password - proxy_user = header_kw.get('proxy_user') or self.proxy_user - proxy_password = header_kw.get('proxy_pass') or self.proxy_password - header_params = dict(keep_alive=True) - proxy_header_params = dict() - if user and password: - header_params['basic_auth'] = '{user}:{password}'.format(user=user, - password=password) - if proxy_user and proxy_password: - proxy_header_params['proxy_basic_auth'] = '{user}:{password}'.format(user=proxy_user, - password=proxy_password) - try: - return urllib3.make_headers(**header_params), urllib3.make_headers(**proxy_header_params) - except TypeError as error: - self.error('build_header() error: {error}'.format(error=error)) - return None, None - - def _build_manager(self, **header_kw): - header, proxy_header = self.__make_headers(**header_kw) - if header is None or proxy_header is None: - return None - proxy_url = header_kw.get('proxy_url') or self.proxy_url - if proxy_url: - manager = urllib3.ProxyManager - params = dict(proxy_url=proxy_url, headers=header, proxy_headers=proxy_header) - else: - manager = urllib3.PoolManager - params = dict(headers=header) - try: - return manager(**params) - except (urllib3.exceptions.ProxySchemeUnknown, TypeError) as error: - self.error('build_manager() error:', str(error)) - return None - - def _get_raw_data(self, url=None, manager=None): - """ - Get raw data from http request - :return: str - """ - try: - url = url or self.url - manager = manager or self._manager - # TODO: timeout, retries and method hardcoded.. - response = manager.request(method='GET', - url=url, - timeout=1, - retries=1, - headers=manager.headers) - except (urllib3.exceptions.HTTPError, TypeError, AttributeError) as error: - self.error('Url: {url}. Error: {error}'.format(url=url, error=error)) - return None - if response.status == 200: - return response.data.decode() - self.debug('Url: {url}. Http response status code: {code}'.format(url=url, code=response.status)) - return None - - def check(self): - """ - Format configuration data and try to connect to server - :return: boolean - """ - if not (self.url and isinstance(self.url, str)): - self.error('URL is not defined or type is not ') - return False - - self._manager = self._build_manager() - if not self._manager: - return False - - try: - data = self._get_data() - except Exception as error: - self.error('_get_data() failed. Url: {url}. Error: {error}'.format(url=self.url, error=error)) - return False - - if isinstance(data, dict) and data: - self._data_from_check = data - return True - self.error('_get_data() returned no data or type is not ') - return False - - -class SocketService(SimpleService): - def __init__(self, configuration=None, name=None): - self._sock = None - self._keep_alive = False - self.host = "localhost" - self.port = None - self.unix_socket = None - self.request = "" - self.__socket_config = None - self.__empty_request = "".encode() - SimpleService.__init__(self, configuration=configuration, name=name) - - def _socketerror(self, message=None): - if self.unix_socket is not None: - self.error("unix socket '" + self.unix_socket + "':", message) - else: - if self.__socket_config is not None: - af, socktype, proto, canonname, sa = self.__socket_config - self.error("socket to '" + str(sa[0]) + "' port " + str(sa[1]) + ":", message) - else: - self.error("unknown socket:", message) - - def _connect2socket(self, res=None): - """ - Connect to a socket, passing the result of getaddrinfo() - :return: boolean - """ - if res is None: - res = self.__socket_config - if res is None: - self.error("Cannot create socket to 'None':") - return False - - af, socktype, proto, canonname, sa = res - try: - self.debug("creating socket to '" + str(sa[0]) + "', port " + str(sa[1])) - self._sock = socket.socket(af, socktype, proto) - except socket.error as e: - self.error("Failed to create socket to '" + str(sa[0]) + "', port " + str(sa[1]) + ":", str(e)) - self._sock = None - self.__socket_config = None - return False - - try: - self.debug("connecting socket to '" + str(sa[0]) + "', port " + str(sa[1])) - self._sock.connect(sa) - except socket.error as e: - self.error("Failed to connect to '" + str(sa[0]) + "', port " + str(sa[1]) + ":", str(e)) - self._disconnect() - self.__socket_config = None - return False - - self.debug("connected to '" + str(sa[0]) + "', port " + str(sa[1])) - self.__socket_config = res - return True - - def _connect2unixsocket(self): - """ - Connect to a unix socket, given its filename - :return: boolean - """ - if self.unix_socket is None: - self.error("cannot connect to unix socket 'None'") - return False - - try: - self.debug("attempting DGRAM unix socket '" + str(self.unix_socket) + "'") - self._sock = socket.socket(socket.AF_UNIX, socket.SOCK_DGRAM) - self._sock.connect(self.unix_socket) - self.debug("connected DGRAM unix socket '" + str(self.unix_socket) + "'") - return True - except socket.error as e: - self.debug("Failed to connect DGRAM unix socket '" + str(self.unix_socket) + "':", str(e)) - - try: - self.debug("attempting STREAM unix socket '" + str(self.unix_socket) + "'") - self._sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) - self._sock.connect(self.unix_socket) - self.debug("connected STREAM unix socket '" + str(self.unix_socket) + "'") - return True - except socket.error as e: - self.debug("Failed to connect STREAM unix socket '" + str(self.unix_socket) + "':", str(e)) - self.error("Failed to connect to unix socket '" + str(self.unix_socket) + "':", str(e)) - self._sock = None - return False - - def _connect(self): - """ - Recreate socket and connect to it since sockets cannot be reused after closing - Available configurations are IPv6, IPv4 or UNIX socket - :return: - """ - try: - if self.unix_socket is not None: - self._connect2unixsocket() - - else: - if self.__socket_config is not None: - self._connect2socket() - else: - for res in socket.getaddrinfo(self.host, self.port, socket.AF_UNSPEC, socket.SOCK_STREAM): - if self._connect2socket(res): break - - except Exception as e: - self._sock = None - self.__socket_config = None - - if self._sock is not None: - self._sock.setblocking(0) - self._sock.settimeout(5) - self.debug("set socket timeout to: " + str(self._sock.gettimeout())) - - def _disconnect(self): - """ - Close socket connection - :return: - """ - if self._sock is not None: - try: - self.debug("closing socket") - self._sock.shutdown(2) # 0 - read, 1 - write, 2 - all - self._sock.close() - except Exception: - pass - self._sock = None - - def _send(self): - """ - Send request. - :return: boolean - """ - # Send request if it is needed - if self.request != self.__empty_request: - try: - self.debug("sending request:", str(self.request)) - self._sock.send(self.request) - except Exception as e: - self._socketerror("error sending request:" + str(e)) - self._disconnect() - return False - return True - - def _receive(self): - """ - Receive data from socket - :return: str - """ - data = "" - while True: - self.debug("receiving response") - try: - buf = self._sock.recv(4096) - except Exception as e: - self._socketerror("failed to receive response:" + str(e)) - self._disconnect() - break - - if buf is None or len(buf) == 0: # handle server disconnect - if data == "": - self._socketerror("unexpectedly disconnected") - else: - self.debug("server closed the connection") - self._disconnect() - break - - self.debug("received data:", str(buf)) - data += buf.decode('utf-8', 'ignore') - if self._check_raw_data(data): - break - - self.debug("final response:", str(data)) - return data - - def _get_raw_data(self): - """ - Get raw data with low-level "socket" module. - :return: str - """ - if self._sock is None: - self._connect() - if self._sock is None: - return None - - # Send request if it is needed - if not self._send(): - return None - - data = self._receive() - - if not self._keep_alive: - self._disconnect() - - return data - - def _check_raw_data(self, data): - """ - Check if all data has been gathered from socket - :param data: str - :return: boolean - """ - return True - - def _parse_config(self): - """ - Parse configuration data - :return: boolean - """ - if self.name is None or self.name == str(None): - self.name = "" - else: - self.name = str(self.name) - - try: - self.unix_socket = str(self.configuration['socket']) - except (KeyError, TypeError): - self.debug("No unix socket specified. Trying TCP/IP socket.") - self.unix_socket = None - try: - self.host = str(self.configuration['host']) - except (KeyError, TypeError): - self.debug("No host specified. Using: '" + self.host + "'") - try: - self.port = int(self.configuration['port']) - except (KeyError, TypeError): - self.debug("No port specified. Using: '" + str(self.port) + "'") - - try: - self.request = str(self.configuration['request']) - except (KeyError, TypeError): - self.debug("No request specified. Using: '" + str(self.request) + "'") - - self.request = self.request.encode() - - def check(self): - self._parse_config() - return SimpleService.check(self) - - -class LogService(SimpleService): - def __init__(self, configuration=None, name=None): - SimpleService.__init__(self, configuration=configuration, name=name) - self.log_path = self.configuration.get('path') - self.__glob_path = self.log_path - self._last_position = 0 - self.retries = 100000 # basically always retry - self.__re_find = dict(current=0, run=0, maximum=60) - - def _get_raw_data(self): - """ - Get log lines since last poll - :return: list - """ - lines = list() - try: - if self.__re_find['current'] == self.__re_find['run']: - self._find_recent_log_file() - size = os.path.getsize(self.log_path) - if size == self._last_position: - self.__re_find['current'] += 1 - return list() # return empty list if nothing has changed - elif size < self._last_position: - self._last_position = 0 # read from beginning if file has shrunk - - with open(self.log_path) as fp: - fp.seek(self._last_position) - for line in fp: - lines.append(line) - self._last_position = fp.tell() - self.__re_find['current'] = 0 - except (OSError, IOError) as error: - self.__re_find['current'] += 1 - self.error(str(error)) - - return lines or None - - def _find_recent_log_file(self): - """ - :return: - """ - self.__re_find['run'] = self.__re_find['maximum'] - self.__re_find['current'] = 0 - self.__glob_path = self.__glob_path or self.log_path # workaround for modules w/o config files - path_list = glob(self.__glob_path) - if path_list: - self.log_path = max(path_list) - return True - return False - - def check(self): - """ - Parse basic configuration and check if log file exists - :return: boolean - """ - if not self.log_path: - self.error("No path to log specified") - return None - - if all([self._find_recent_log_file(), - os.access(self.log_path, os.R_OK), - os.path.isfile(self.log_path)]): - return True - self.error("Cannot access %s" % self.log_path) - return False - - def create(self): - # set cursor at last byte of log file - self._last_position = os.path.getsize(self.log_path) - status = SimpleService.create(self) - # self._last_position = 0 - return status - - -class ExecutableService(SimpleService): - - def __init__(self, configuration=None, name=None): - SimpleService.__init__(self, configuration=configuration, name=name) - self.command = None - - def _get_raw_data(self, stderr=False): - """ - Get raw data from executed command - :return: - """ - try: - p = Popen(self.command, stdout=PIPE, stderr=PIPE) - except Exception as error: - self.error("Executing command", " ".join(self.command), "resulted in error:", str(error)) - return None - data = list() - std = p.stderr if stderr else p.stdout - for line in std.readlines(): - data.append(line.decode()) - - return data or None - - def check(self): - """ - Parse basic configuration, check if command is whitelisted and is returning values - :return: - """ - # Preference: 1. "command" from configuration file 2. "command" from plugin (if specified) - if 'command' in self.configuration: - self.command = self.configuration['command'] - - # "command" must be: 1.not None 2. type - if not (self.command and isinstance(self.command, str)): - self.error('Command is not defined or command type is not ') - return False - - # Split "command" into: 1. command 2. options - command, opts = self.command.split()[0], self.command.split()[1:] - - # Check for "bad" symbols in options. No pipes, redirects etc. TODO: what is missing? - bad_opts = set(''.join(opts)) & set(['&', '|', ';', '>', '<']) - if bad_opts: - self.error("Bad command argument(s): %s" % bad_opts) - return False - - # Find absolute path ('echo' => '/bin/echo') - if '/' not in command: - command = self.find_binary(command) - if not command: - self.error('Can\'t locate "%s" binary in PATH(%s)' % (self.command, PATH)) - return False - # Check if binary exist and executable - else: - if not (os.path.isfile(command) and os.access(command, os.X_OK)): - self.error('"%s" is not a file or not executable' % command) - return False - - self.command = [command] + opts if opts else [command] - - try: - data = self._get_data() - except Exception as error: - self.error('_get_data() failed. Command: %s. Error: %s' % (self.command, error)) - return False - - if isinstance(data, dict) and data: - # We need this for create() method. No reason to execute get_data() again if result is not empty dict() - self._data_from_check = data - return True - else: - self.error("Command", str(self.command), "returned no data") - return False - - -class MySQLService(SimpleService): - - def __init__(self, configuration=None, name=None): - SimpleService.__init__(self, configuration=configuration, name=name) - self.__connection = None - self.__conn_properties = dict() - self.extra_conn_properties = dict() - self.__queries = self.configuration.get('queries', dict()) - self.queries = dict() - - def __connect(self): - try: - connection = MySQLdb.connect(connect_timeout=self.update_every, **self.__conn_properties) - except (MySQLdb.MySQLError, TypeError, AttributeError) as error: - return None, str(error) - else: - return connection, None - - def check(self): - def get_connection_properties(conf, extra_conf): - properties = dict() - if conf.get('user'): - properties['user'] = conf['user'] - if conf.get('pass'): - properties['passwd'] = conf['pass'] - if conf.get('socket'): - properties['unix_socket'] = conf['socket'] - elif conf.get('host'): - properties['host'] = conf['host'] - properties['port'] = int(conf.get('port', 3306)) - elif conf.get('my.cnf'): - if MySQLdb.__name__ == 'pymysql': - self.error('"my.cnf" parsing is not working for pymysql') - else: - properties['read_default_file'] = conf['my.cnf'] - if isinstance(extra_conf, dict) and extra_conf: - properties.update(extra_conf) - - return properties or None - - def is_valid_queries_dict(raw_queries, log_error): - """ - :param raw_queries: dict: - :param log_error: function: - :return: dict or None - - raw_queries is valid when: type and not empty after is_valid_query(for all queries) - """ - def is_valid_query(query): - return all([isinstance(query, str), - query.startswith(('SELECT', 'select', 'SHOW', 'show'))]) - - if hasattr(raw_queries, 'keys') and raw_queries: - valid_queries = dict([(n, q) for n, q in raw_queries.items() if is_valid_query(q)]) - bad_queries = set(raw_queries) - set(valid_queries) - - if bad_queries: - log_error('Removed query(s): %s' % bad_queries) - return valid_queries - else: - log_error('Unsupported "queries" format. Must be not empty ') - return None - - if not PY_MYSQL: - self.error('MySQLdb or PyMySQL module is needed to use mysql.chart.py plugin') - return False - - # Preference: 1. "queries" from the configuration file 2. "queries" from the module - self.queries = self.__queries or self.queries - # Check if "self.queries" exist, not empty and all queries are in valid format - self.queries = is_valid_queries_dict(self.queries, self.error) - if not self.queries: - return None - - # Get connection properties - self.__conn_properties = get_connection_properties(self.configuration, self.extra_conn_properties) - if not self.__conn_properties: - self.error('Connection properties are missing') - return False - - # Create connection to the database - self.__connection, error = self.__connect() - if error: - self.error('Can\'t establish connection to MySQL: %s' % error) - return False - - try: - data = self._get_data() - except Exception as error: - self.error('_get_data() failed. Error: %s' % error) - return False - - if isinstance(data, dict) and data: - # We need this for create() method - self._data_from_check = data - return True - else: - self.error("_get_data() returned no data or type is not ") - return False - - def _get_raw_data(self, description=None): - """ - Get raw data from MySQL server - :return: dict: fetchall() or (fetchall(), description) - """ - - if not self.__connection: - self.__connection, error = self.__connect() - if error: - return None - - raw_data = dict() - queries = dict(self.queries) - try: - with self.__connection as cursor: - for name, query in queries.items(): - try: - cursor.execute(query) - except (MySQLdb.ProgrammingError, MySQLdb.OperationalError) as error: - if self.__is_error_critical(err_class=exc_info()[0], err_text=str(error)): - raise RuntimeError - self.error('Removed query: %s[%s]. Error: %s' - % (name, query, error)) - self.queries.pop(name) - continue - else: - raw_data[name] = (cursor.fetchall(), cursor.description) if description else cursor.fetchall() - self.__connection.commit() - except (MySQLdb.MySQLError, RuntimeError, TypeError, AttributeError): - self.__connection.close() - self.__connection = None - return None - else: - return raw_data or None - - @staticmethod - def __is_error_critical(err_class, err_text): - return err_class == MySQLdb.OperationalError and all(['denied' not in err_text, - 'Unknown column' not in err_text]) +# Description: backward compatibility with old version + +from bases.FrameworkServices.SimpleService import SimpleService +from bases.FrameworkServices.UrlService import UrlService +from bases.FrameworkServices.SocketService import SocketService +from bases.FrameworkServices.LogService import LogService +from bases.FrameworkServices.ExecutableService import ExecutableService +from bases.FrameworkServices.MySQLService import MySQLService -- cgit v1.2.3