# -*- coding: utf-8 -*- # Description: web log netdata python.d module # Author: l2isbad import bisect import re import os import sys from collections import namedtuple, defaultdict from copy import deepcopy try: from itertools import filterfalse except ImportError: from itertools import ifilter as filter from itertools import ifilterfalse as filterfalse from bases.collection import read_last_line from bases.FrameworkServices.LogService import LogService ORDER_APACHE_CACHE = ['apache_cache'] ORDER_WEB = ['response_statuses', 'response_codes', 'bandwidth', 'response_time', 'response_time_hist', 'response_time_upstream', 'response_time_upstream_hist', 'requests_per_url', 'requests_per_user_defined', 'http_method', 'http_version', 'requests_per_ipproto', 'clients', 'clients_all'] ORDER_SQUID = ['squid_response_statuses', 'squid_response_codes', 'squid_detailed_response_codes', 'squid_method', 'squid_mime_type', 'squid_hier_code', 'squid_transport_methods', 'squid_transport_errors', 'squid_code', 'squid_handling_opts', 'squid_object_types', 'squid_cache_events', 'squid_bytes', 'squid_duration', 'squid_clients', 'squid_clients_all'] CHARTS_WEB = { 'response_codes': { 'options': [None, 'Response Codes', 'requests/s', 'responses', 'web_log.response_codes', 'stacked'], 'lines': [ ['2xx', None, 'incremental'], ['5xx', None, 'incremental'], ['3xx', None, 'incremental'], ['4xx', None, 'incremental'], ['1xx', None, 'incremental'], ['0xx', 'other', 'incremental'], ['unmatched', None, 'incremental'] ]}, 'bandwidth': { 'options': [None, 'Bandwidth', 'kilobits/s', 'bandwidth', 'web_log.bandwidth', 'area'], 'lines': [ ['resp_length', 'received', 'incremental', 8, 1000], ['bytes_sent', 'sent', 'incremental', -8, 1000] ]}, 'response_time': { 'options': [None, 'Processing Time', 'milliseconds', 'timings', 'web_log.response_time', 'area'], 'lines': [ ['resp_time_min', 'min', 'incremental', 1, 1000], ['resp_time_max', 'max', 'incremental', 1, 1000], ['resp_time_avg', 'avg', 'incremental', 1, 1000] ]}, 'response_time_hist': { 'options': [None, 'Processing Time Histogram', 'requests/s', 'timings', 'web_log.response_time_hist', 'line'], 'lines': [ ]}, 'response_time_upstream': { 'options': [None, 'Processing Time Upstream', 'milliseconds', 'timings', 'web_log.response_time_upstream', 'area'], 'lines': [ ['resp_time_upstream_min', 'min', 'incremental', 1, 1000], ['resp_time_upstream_max', 'max', 'incremental', 1, 1000], ['resp_time_upstream_avg', 'avg', 'incremental', 1, 1000] ]}, 'response_time_upstream_hist': { 'options': [None, 'Processing Time Histogram', 'requests/s', 'timings', 'web_log.response_time_upstream_hist', 'line'], 'lines': [ ]}, 'clients': { 'options': [None, 'Current Poll Unique Client IPs', 'unique ips', 'clients', 'web_log.clients', 'stacked'], 'lines': [ ['unique_cur_ipv4', 'ipv4', 'incremental', 1, 1], ['unique_cur_ipv6', 'ipv6', 'incremental', 1, 1] ]}, 'clients_all': { 'options': [None, 'All Time Unique Client IPs', 'unique ips', 'clients', 'web_log.clients_all', 'stacked'], 'lines': [ ['unique_tot_ipv4', 'ipv4', 'absolute', 1, 1], ['unique_tot_ipv6', 'ipv6', 'absolute', 1, 1] ]}, 'http_method': { 'options': [None, 'Requests Per HTTP Method', 'requests/s', 'http methods', 'web_log.http_method', 'stacked'], 'lines': [ ['GET', 'GET', 'incremental', 1, 1] ]}, 'http_version': { 'options': [None, 'Requests Per HTTP Version', 'requests/s', 'http versions', 'web_log.http_version', 'stacked'], 'lines': []}, 'requests_per_ipproto': { 'options': [None, 'Requests Per IP Protocol', 'requests/s', 'ip protocols', 'web_log.requests_per_ipproto', 'stacked'], 'lines': [ ['req_ipv4', 'ipv4', 'incremental', 1, 1], ['req_ipv6', 'ipv6', 'incremental', 1, 1] ]}, 'response_statuses': { 'options': [None, 'Response Statuses', 'requests/s', 'responses', 'web_log.response_statuses', 'stacked'], 'lines': [ ['successful_requests', 'success', 'incremental', 1, 1], ['server_errors', 'error', 'incremental', 1, 1], ['redirects', 'redirect', 'incremental', 1, 1], ['bad_requests', 'bad', 'incremental', 1, 1], ['other_requests', 'other', 'incremental', 1, 1] ]}, 'requests_per_url': { 'options': [None, 'Requests Per Url', 'requests/s', 'urls', 'web_log.requests_per_url', 'stacked'], 'lines': [ ['url_pattern_other', 'other', 'incremental', 1, 1] ]}, 'requests_per_user_defined': { 'options': [None, 'Requests Per User Defined Pattern', 'requests/s', 'user defined', 'web_log.requests_per_user_defined', 'stacked'], 'lines': [ ['user_pattern_other', 'other', 'incremental', 1, 1] ]} } CHARTS_APACHE_CACHE = { 'apache_cache': { 'options': [None, 'Apache Cached Responses', 'percent cached', 'cached', 'web_log.apache_cache_cache', 'stacked'], 'lines': [ ["hit", 'cache', "percentage-of-absolute-row"], ["miss", None, "percentage-of-absolute-row"], ["other", None, "percentage-of-absolute-row"] ]} } CHARTS_SQUID = { 'squid_duration': { 'options': [None, 'Elapsed Time The Transaction Busied The Cache', 'milliseconds', 'squid_timings', 'web_log.squid_duration', 'area'], 'lines': [ ['duration_min', 'min', 'incremental', 1, 1000], ['duration_max', 'max', 'incremental', 1, 1000], ['duration_avg', 'avg', 'incremental', 1, 1000] ]}, 'squid_bytes': { 'options': [None, 'Amount Of Data Delivered To The Clients', 'kilobits/s', 'squid_bandwidth', 'web_log.squid_bytes', 'area'], 'lines': [ ['bytes', 'sent', 'incremental', 8, 1000] ]}, 'squid_response_statuses': { 'options': [None, 'Response Statuses', 'responses/s', 'squid_responses', 'web_log.squid_response_statuses', 'stacked'], 'lines': [ ['successful_requests', 'success', 'incremental', 1, 1], ['server_errors', 'error', 'incremental', 1, 1], ['redirects', 'redirect', 'incremental', 1, 1], ['bad_requests', 'bad', 'incremental', 1, 1], ['other_requests', 'other', 'incremental', 1, 1] ]}, 'squid_response_codes': { 'options': [None, 'Response Codes', 'responses/s', 'squid_responses', 'web_log.squid_response_codes', 'stacked'], 'lines': [ ['2xx', None, 'incremental'], ['5xx', None, 'incremental'], ['3xx', None, 'incremental'], ['4xx', None, 'incremental'], ['1xx', None, 'incremental'], ['0xx', None, 'incremental'], ['other', None, 'incremental'], ['unmatched', None, 'incremental'] ]}, 'squid_code': { 'options': [None, 'Responses Per Cache Result Of The Request', 'requests/s', 'squid_squid_cache', 'web_log.squid_code', 'stacked'], 'lines': [ ]}, 'squid_detailed_response_codes': { 'options': [None, 'Detailed Response Codes', 'responses/s', 'squid_responses', 'web_log.squid_detailed_response_codes', 'stacked'], 'lines': [ ]}, 'squid_hier_code': { 'options': [None, 'Responses Per Hierarchy Code', 'requests/s', 'squid_hierarchy', 'web_log.squid_hier_code', 'stacked'], 'lines': [ ]}, 'squid_method': { 'options': [None, 'Requests Per Method', 'requests/s', 'squid_requests', 'web_log.squid_method', 'stacked'], 'lines': [ ]}, 'squid_mime_type': { 'options': [None, 'Requests Per MIME Type', 'requests/s', 'squid_requests', 'web_log.squid_mime_type', 'stacked'], 'lines': [ ]}, 'squid_clients': { 'options': [None, 'Current Poll Unique Client IPs', 'unique ips', 'squid_clients', 'web_log.squid_clients', 'stacked'], 'lines': [ ['unique_ipv4', 'ipv4', 'incremental'], ['unique_ipv6', 'ipv6', 'incremental'] ]}, 'squid_clients_all': { 'options': [None, 'All Time Unique Client IPs', 'unique ips', 'squid_clients', 'web_log.squid_clients_all', 'stacked'], 'lines': [ ['unique_tot_ipv4', 'ipv4', 'absolute'], ['unique_tot_ipv6', 'ipv6', 'absolute'] ]}, 'squid_transport_methods': { 'options': [None, 'Transport Methods', 'requests/s', 'squid_squid_transport', 'web_log.squid_transport_methods', 'stacked'], 'lines': [ ]}, 'squid_transport_errors': { 'options': [None, 'Transport Errors', 'requests/s', 'squid_squid_transport', 'web_log.squid_transport_errors', 'stacked'], 'lines': [ ]}, 'squid_handling_opts': { 'options': [None, 'Handling Opts', 'requests/s', 'squid_squid_cache', 'web_log.squid_handling_opts', 'stacked'], 'lines': [ ]}, 'squid_object_types': { 'options': [None, 'Object Types', 'objects/s', 'squid_squid_cache', 'web_log.squid_object_types', 'stacked'], 'lines': [ ]}, 'squid_cache_events': { 'options': [None, 'Cache Events', 'events/s', 'squid_squid_cache', 'web_log.squid_cache_events', 'stacked'], 'lines': [ ]} } NAMED_PATTERN = namedtuple('PATTERN', ['description', 'func']) DET_RESP_AGGR = ['', '_1xx', '_2xx', '_3xx', '_4xx', '_5xx', '_Other'] SQUID_CODES = dict(TCP='squid_transport_methods', UDP='squid_transport_methods', NONE='squid_transport_methods', CLIENT='squid_handling_opts', IMS='squid_handling_opts', ASYNC='squid_handling_opts', SWAPFAIL='squid_handling_opts', REFRESH='squid_handling_opts', SHARED='squid_handling_opts', REPLY='squid_handling_opts', NEGATIVE='squid_object_types', STALE='squid_object_types', OFFLINE='squid_object_types', INVALID='squid_object_types', FAIL='squid_object_types', MODIFIED='squid_object_types', UNMODIFIED='squid_object_types', REDIRECT='squid_object_types', HIT='squid_cache_events', MEM='squid_cache_events', MISS='squid_cache_events', DENIED='squid_cache_events', NOFETCH='squid_cache_events', TUNNEL='squid_cache_events', ABORTED='squid_transport_errors', TIMEOUT='squid_transport_errors') REQUEST_REGEX = re.compile(r'(?P[A-Z]+) (?P[^ ]+) [A-Z]+/(?P\d(?:.\d)?)') class Service(LogService): def __init__(self, configuration=None, name=None): """ :param configuration: :param name: """ LogService.__init__(self, configuration=configuration, name=name) self.configuration = configuration self.log_path = self.configuration.get('path') self.job = None def check(self): """ :return: bool 1. "log_path" is specified in the module configuration file 2. "log_path" must be readable by netdata user and must exist 3. "log_path' must not be empty. We need at least 1 line to find appropriate pattern to parse 4. other checks depends on log "type" """ log_type = self.configuration.get('type', 'web') log_types = dict(web=Web, apache_cache=ApacheCache, squid=Squid) if log_type not in log_types: self.error("bad log type {log_type}. Supported types: {types}".format(log_type=log_type, types=log_types.keys())) return False if not self.log_path: self.error('log path is not specified') return False if not (self._find_recent_log_file() and os.access(self.log_path, os.R_OK)): self.error('{log_file} not readable or not exist'.format(log_file=self.log_path)) return False if not os.path.getsize(self.log_path): self.error('{log_file} is empty'.format(log_file=self.log_path)) return False self.job = log_types[log_type](self) if self.job.check(): self.order = self.job.order self.definitions = self.job.definitions return True return False def _get_data(self): return self.job.get_data(self._get_raw_data()) class Web: def __init__(self, service): self.service = service self.order = ORDER_WEB[:] self.definitions = deepcopy(CHARTS_WEB) self.pre_filter = check_patterns('filter', self.configuration.get('filter')) self.storage = dict() self.data = {'bytes_sent': 0, 'resp_length': 0, 'resp_time_min': 0, 'resp_time_max': 0, 'resp_time_avg': 0, 'resp_time_upstream_min': 0, 'resp_time_upstream_max': 0, 'resp_time_upstream_avg': 0, 'unique_cur_ipv4': 0, 'unique_cur_ipv6': 0, '2xx': 0, '5xx': 0, '3xx': 0, '4xx': 0, '1xx': 0, '0xx': 0, 'unmatched': 0, 'req_ipv4': 0, 'req_ipv6': 0, 'unique_tot_ipv4': 0, 'unique_tot_ipv6': 0, 'successful_requests': 0, 'redirects': 0, 'bad_requests': 0, 'server_errors': 0, 'other_requests': 0, 'GET': 0} def __getattr__(self, item): return getattr(self.service, item) def check(self): last_line = read_last_line(self.log_path) if not last_line: return False # Custom_log_format or predefined log format. if self.configuration.get('custom_log_format'): match_dict, error = self.find_regex_custom(last_line) else: match_dict, error = self.find_regex(last_line) # "match_dict" is None if there are any problems if match_dict is None: self.error(error) return False self.storage['unique_all_time'] = list() self.storage['url_pattern'] = check_patterns('url_pattern', self.configuration.get('categories')) self.storage['user_pattern'] = check_patterns('user_pattern', self.configuration.get('user_defined')) self.create_web_charts(match_dict) # Create charts self.info('Collected data: %s' % list(match_dict.keys())) return True def create_web_charts(self, match_dict): """ :param match_dict: dict: regex.search.groupdict(). Ex. {'address': '127.0.0.1', 'code': '200', 'method': 'GET'} :return: Create/remove additional charts depending on the 'match_dict' keys and configuration file options """ if 'resp_time' not in match_dict: self.order.remove('response_time') self.order.remove('response_time_hist') if 'resp_time_upstream' not in match_dict: self.order.remove('response_time_upstream') self.order.remove('response_time_upstream_hist') # Add 'response_time_hist' and 'response_time_upstream_hist' charts if is specified in the configuration histogram = self.configuration.get('histogram', None) if isinstance(histogram, list): self.storage['bucket_index'] = histogram[:] self.storage['bucket_index'].append(sys.maxint) self.storage['buckets'] = [0] * (len(histogram) + 1) self.storage['upstream_buckets'] = [0] * (len(histogram) + 1) hist_lines = self.definitions['response_time_hist']['lines'] upstream_hist_lines = self.definitions['response_time_upstream_hist']['lines'] for i, le in enumerate(histogram): hist_key = "response_time_hist_%d" % i upstream_hist_key = "response_time_upstream_hist_%d" % i hist_lines.append([hist_key, str(le), 'incremental', 1, 1]) upstream_hist_lines.append([upstream_hist_key, str(le), 'incremental', 1, 1]) hist_lines.append(["response_time_hist_%d" % len(histogram), '+Inf', 'incremental', 1, 1]) upstream_hist_lines.append(["response_time_upstream_hist_%d" % len(histogram), '+Inf', 'incremental', 1, 1]) elif histogram is not None: self.error("expect histogram list, but was {0}".format(type(histogram))) if not self.configuration.get('all_time', True): self.order.remove('clients_all') # Add 'detailed_response_codes' chart if specified in the configuration if self.configuration.get('detailed_response_codes', True): if self.configuration.get('detailed_response_aggregate', True): codes = DET_RESP_AGGR[:1] else: codes = DET_RESP_AGGR[1:] for code in codes: self.order.append('detailed_response_codes%s' % code) self.definitions['detailed_response_codes%s' % code] \ = {'options': [None, 'Detailed Response Codes %s' % code[1:], 'requests/s', 'responses', 'web_log.detailed_response_codes%s' % code, 'stacked'], 'lines': []} # Add 'requests_per_url' chart if specified in the configuration if self.storage['url_pattern']: for elem in self.storage['url_pattern']: dim = [elem.description, elem.description[12:], 'incremental'] self.definitions['requests_per_url']['lines'].append(dim) self.data[elem.description] = 0 self.data['url_pattern_other'] = 0 else: self.order.remove('requests_per_url') # Add 'requests_per_user_defined' chart if specified in the configuration if self.storage['user_pattern'] and 'user_defined' in match_dict: for elem in self.storage['user_pattern']: dim = [elem.description, elem.description[13:], 'incremental'] self.definitions['requests_per_user_defined']['lines'].append(dim) self.data[elem.description] = 0 self.data['user_pattern_other'] = 0 else: self.order.remove('requests_per_user_defined') def get_data(self, raw_data=None): """ Parses new log lines :return: dict OR None None if _get_raw_data method fails. In all other cases - dict. """ if not raw_data: return None if raw_data is None else self.data filtered_data = filter_data(raw_data=raw_data, pre_filter=self.pre_filter) unique_current = set() timings = defaultdict(lambda: dict(minimum=None, maximum=0, summary=0, count=0)) for line in filtered_data: match = self.storage['regex'].search(line) if match: match_dict = match.groupdict() try: code = match_dict['code'][0] + 'xx' self.data[code] += 1 except KeyError: self.data['0xx'] += 1 # detailed response code if self.configuration.get('detailed_response_codes', True): self.get_data_per_response_codes_detailed(code=match_dict['code']) # response statuses self.get_data_per_statuses(code=match_dict['code']) # requests per user defined pattern if self.storage['user_pattern'] and 'user_defined' in match_dict: self.get_data_per_pattern(row=match_dict['user_defined'], other='user_pattern_other', pattern=self.storage['user_pattern']) # method, url, http version self.get_data_from_request_field(match_dict=match_dict) # bandwidth sent bytes_sent = match_dict['bytes_sent'] if '-' not in match_dict['bytes_sent'] else 0 self.data['bytes_sent'] += int(bytes_sent) # request processing time and bandwidth received if 'resp_length' in match_dict: resp_length = match_dict['resp_length'] if '-' not in match_dict['resp_length'] else 0 self.data['resp_length'] += int(resp_length) if 'resp_time' in match_dict: resp_time = self.storage['func_resp_time'](float(match_dict['resp_time'])) get_timings(timings=timings['resp_time'], time=resp_time) if 'bucket_index' in self.storage: get_hist(self.storage['bucket_index'], self.storage['buckets'], resp_time / 1000) if 'resp_time_upstream' in match_dict and match_dict['resp_time_upstream'] != '-': resp_time_upstream = self.storage['func_resp_time'](float(match_dict['resp_time_upstream'])) get_timings(timings=timings['resp_time_upstream'], time=resp_time_upstream) if 'bucket_index' in self.storage: get_hist(self.storage['bucket_index'], self.storage['upstream_buckets'], resp_time / 1000) # requests per ip proto proto = 'ipv6' if ':' in match_dict['address'] else 'ipv4' self.data['req_' + proto] += 1 # unique clients ips if self.configuration.get('all_time', True): if address_not_in_pool(pool=self.storage['unique_all_time'], address=match_dict['address'], pool_size=self.data['unique_tot_ipv4'] + self.data['unique_tot_ipv6']): self.data['unique_tot_' + proto] += 1 if match_dict['address'] not in unique_current: self.data['unique_cur_' + proto] += 1 unique_current.add(match_dict['address']) else: self.data['unmatched'] += 1 # timings for elem in timings: self.data[elem + '_min'] += timings[elem]['minimum'] self.data[elem + '_avg'] += timings[elem]['summary'] / timings[elem]['count'] self.data[elem + '_max'] += timings[elem]['maximum'] # histogram if 'bucket_index' in self.storage: buckets = self.storage['buckets'] upstream_buckets = self.storage['upstream_buckets'] for i in range(0, len(self.storage['bucket_index'])): hist_key = "response_time_hist_%d" % i upstream_hist_key = "response_time_upstream_hist_%d" % i self.data[hist_key] = buckets[i] self.data[upstream_hist_key] = upstream_buckets[i] return self.data def find_regex(self, last_line): """ :param last_line: str: literally last line from log file :return: tuple where: [0]: dict or None: match_dict or None [1]: str: error description We need to find appropriate pattern for current log file All logic is do a regex search through the string for all predefined patterns until we find something or fail. """ # REGEX: 1.IPv4 address 2.HTTP method 3. URL 4. Response code # 5. Bytes sent 6. Response length 7. Response process time default = re.compile(r'(?P
[\da-f.:]+|localhost)' r' -.*?"(?P[^"]*)"' r' (?P[1-9]\d{2})' r' (?P\d+|-)') apache_ext_insert = re.compile(r'(?P
[\da-f.:]+|localhost)' r' -.*?"(?P[^"]*)"' r' (?P[1-9]\d{2})' r' (?P\d+|-)' r' (?P\d+|-)' r' (?P\d+) ') apache_ext_append = re.compile(r'(?P
[\da-f.:]+|localhost)' r' -.*?"(?P[^"]*)"' r' (?P[1-9]\d{2})' r' (?P\d+|-)' r' .*?' r' (?P\d+|-)' r' (?P\d+)' r'(?: |$)') nginx_ext_insert = re.compile(r'(?P
[\da-f.:]+)' r' -.*?"(?P[^"]*)"' r' (?P[1-9]\d{2})' r' (?P\d+)' r' (?P\d+)' r' (?P\d+\.\d+) ') nginx_ext2_insert = re.compile(r'(?P
[\da-f.:]+)' r' -.*?"(?P[^"]*)"' r' (?P[1-9]\d{2})' r' (?P\d+)' r' (?P\d+)' r' (?P\d+\.\d+)' r' (?P[\d.-]+) ') nginx_ext_append = re.compile(r'(?P
[\da-f.:]+)' r' -.*?"(?P[^"]*)"' r' (?P[1-9]\d{2})' r' (?P\d+)' r' .*?' r' (?P\d+)' r' (?P\d+\.\d+)') def func_usec(time): return time def func_sec(time): return time * 1000000 r_regex = [apache_ext_insert, apache_ext_append, nginx_ext2_insert, nginx_ext_insert, nginx_ext_append, default] r_function = [func_usec, func_usec, func_sec, func_sec, func_sec, func_usec] regex_function = zip(r_regex, r_function) match_dict = dict() for regex, func in regex_function: match = regex.search(last_line) if match: self.storage['regex'] = regex self.storage['func_resp_time'] = func match_dict = match.groupdict() break return find_regex_return(match_dict=match_dict or None, msg='Unknown log format. You need to use "custom_log_format" feature.') def find_regex_custom(self, last_line): """ :param last_line: str: literally last line from log file :return: tuple where: [0]: dict or None: match_dict or None [1]: str: error description We are here only if "custom_log_format" is in logs. We need to make sure: 1. "custom_log_format" is a dict 2. "pattern" in "custom_log_format" and pattern is instance 3. if "time_multiplier" is in "custom_log_format" it must be instance If all parameters is ok we need to make sure: 1. Pattern search is success 2. Pattern search contains named subgroups (?P) (= "match_dict") If pattern search is success we need to make sure: 1. All mandatory keys ['address', 'code', 'bytes_sent', 'method', 'url'] are in "match_dict" If this is True we need to make sure: 1. All mandatory key values from "match_dict" have the correct format ("code" is integer, "method" is uppercase word, etc) If non mandatory keys in "match_dict" we need to make sure: 1. All non mandatory key values from match_dict ['resp_length', 'resp_time'] have the correct format ("resp_length" is integer or "-", "resp_time" is integer or float) """ if not hasattr(self.configuration.get('custom_log_format'), 'keys'): return find_regex_return(msg='Custom log: "custom_log_format" is not a ') pattern = self.configuration.get('custom_log_format', dict()).get('pattern') if not (pattern and isinstance(pattern, str)): return find_regex_return(msg='Custom log: "pattern" option is not specified or type is not ') resp_time_func = self.configuration.get('custom_log_format', dict()).get('time_multiplier') or 0 if not isinstance(resp_time_func, int): return find_regex_return(msg='Custom log: "time_multiplier" is not an integer') try: regex = re.compile(pattern) except re.error as error: return find_regex_return(msg='Pattern compile error: %s' % str(error)) match = regex.search(last_line) if not match: return find_regex_return(msg='Custom log: pattern search FAILED') match_dict = match.groupdict() or None if match_dict is None: return find_regex_return(msg='Custom log: search OK but contains no named subgroups' ' (you need to use ?P)') mandatory_dict = {'address': r'[\w.:-]+', 'code': r'[1-9]\d{2}', 'bytes_sent': r'\d+|-'} optional_dict = {'resp_length': r'\d+|-', 'resp_time': r'[\d.]+', 'resp_time_upstream': r'[\d.-]+', 'method': r'[A-Z]+', 'http_version': r'\d(?:.\d)?'} mandatory_values = set(mandatory_dict) - set(match_dict) if mandatory_values: return find_regex_return(msg='Custom log: search OK but some mandatory keys (%s) are missing' % list(mandatory_values)) for key in mandatory_dict: if not re.search(mandatory_dict[key], match_dict[key]): return find_regex_return(msg='Custom log: can\'t parse "%s": %s' % (key, match_dict[key])) optional_values = set(optional_dict) & set(match_dict) for key in optional_values: if not re.search(optional_dict[key], match_dict[key]): return find_regex_return(msg='Custom log: can\'t parse "%s": %s' % (key, match_dict[key])) dot_in_time = '.' in match_dict.get('resp_time', '') if dot_in_time: self.storage['func_resp_time'] = lambda time: time * (resp_time_func or 1000000) else: self.storage['func_resp_time'] = lambda time: time * (resp_time_func or 1) self.storage['regex'] = regex return find_regex_return(match_dict=match_dict) def get_data_from_request_field(self, match_dict): if match_dict.get('request'): match_dict = REQUEST_REGEX.search(match_dict['request']) if match_dict: match_dict = match_dict.groupdict() else: return # requests per url if match_dict.get('url') and self.storage['url_pattern']: self.get_data_per_pattern(row=match_dict['url'], other='url_pattern_other', pattern=self.storage['url_pattern']) # requests per http method if match_dict.get('method'): if match_dict['method'] not in self.data: self.charts['http_method'].add_dimension([match_dict['method'], match_dict['method'], 'incremental']) self.data[match_dict['method']] = 0 self.data[match_dict['method']] += 1 # requests per http version if match_dict.get('http_version'): dim_id = match_dict['http_version'].replace('.', '_') if dim_id not in self.data: self.charts['http_version'].add_dimension([dim_id, match_dict['http_version'], 'incremental']) self.data[dim_id] = 0 self.data[dim_id] += 1 def get_data_per_response_codes_detailed(self, code): """ :param code: str: CODE from parsed line. Ex.: '202, '499' :return: Calls add_new_dimension method If the value is found for the first time """ if code not in self.data: if self.configuration.get('detailed_response_aggregate', True): self.charts['detailed_response_codes'].add_dimension([code, code, 'incremental']) self.data[code] = 0 else: code_index = int(code[0]) if int(code[0]) < 6 else 6 chart_key = 'detailed_response_codes' + DET_RESP_AGGR[code_index] self.charts[chart_key].add_dimension([code, code, 'incremental']) self.data[code] = 0 self.data[code] += 1 def get_data_per_pattern(self, row, other, pattern): """ :param row: str: :param other: str: :param pattern: named tuple: (['pattern_description', 'regular expression']) :return: Scan through string looking for the first location where patterns produce a match for all user defined patterns """ match = None for elem in pattern: if elem.func(row): self.data[elem.description] += 1 match = True break if not match: self.data[other] += 1 def get_data_per_statuses(self, code): """ :param code: str: response status code. Ex.: '202', '499' :return: """ code_class = code[0] if code_class == '2' or code == '304' or code_class == '1': self.data['successful_requests'] += 1 elif code_class == '3': self.data['redirects'] += 1 elif code_class == '4': self.data['bad_requests'] += 1 elif code_class == '5': self.data['server_errors'] += 1 else: self.data['other_requests'] += 1 class ApacheCache: def __init__(self, service): self.service = service self.order = ORDER_APACHE_CACHE self.definitions = CHARTS_APACHE_CACHE @staticmethod def check(): return True @staticmethod def get_data(raw_data=None): data = dict(hit=0, miss=0, other=0) if not raw_data: return None if raw_data is None else data for line in raw_data: if 'cache hit' in line: data['hit'] += 1 elif 'cache miss' in line: data['miss'] += 1 else: data['other'] += 1 return data class Squid: def __init__(self, service): self.service = service self.order = ORDER_SQUID self.definitions = CHARTS_SQUID self.pre_filter = check_patterns('filter', self.configuration.get('filter')) self.storage = dict() self.data = {'duration_max': 0, 'duration_avg': 0, 'duration_min': 0, 'bytes': 0, '0xx': 0, '1xx': 0, '2xx': 0, '3xx': 0, '4xx': 0, '5xx': 0, 'other': 0, 'unmatched': 0, 'unique_ipv4': 0, 'unique_ipv6': 0, 'unique_tot_ipv4': 0, 'unique_tot_ipv6': 0, 'successful_requests': 0, 'redirects': 0, 'bad_requests': 0, 'server_errors': 0, 'other_requests': 0 } def __getattr__(self, item): return getattr(self.service, item) def check(self): last_line = read_last_line(self.log_path) if not last_line: return False self.storage['unique_all_time'] = list() self.storage['regex'] = re.compile(r'[0-9.]+\s+(?P[0-9]+)' r' (?P[\da-f.:]+)' r' (?P[A-Z_]+)/' r'(?P[0-9]+)' r' (?P[0-9]+)' r' (?P[A-Z_]+)' r' (?P[^ ]+)' r' (?P[^ ]+)' r' (?P[A-Z_]+)/[\da-f.:-]+' r' (?P[^\n]+)') match = self.storage['regex'].search(last_line) if not match: self.error('Regex not matches (%s)' % self.storage['regex'].pattern) return False self.storage['dynamic'] = { 'http_code': {'chart': 'squid_detailed_response_codes', 'func_dim_id': None, 'func_dim': None}, 'hier_code': { 'chart': 'squid_hier_code', 'func_dim_id': None, 'func_dim': lambda v: v.replace('HIER_', '')}, 'method': { 'chart': 'squid_method', 'func_dim_id': None, 'func_dim': None}, 'mime_type': { 'chart': 'squid_mime_type', 'func_dim_id': lambda v: v.split('/')[0], 'func_dim': None}} if not self.configuration.get('all_time', True): self.order.remove('squid_clients_all') return True def get_data(self, raw_data=None): if not raw_data: return None if raw_data is None else self.data filtered_data = filter_data(raw_data=raw_data, pre_filter=self.pre_filter) unique_ip = set() timings = defaultdict(lambda: dict(minimum=None, maximum=0, summary=0, count=0)) for row in filtered_data: match = self.storage['regex'].search(row) if match: match = match.groupdict() if match['duration'] != '0': get_timings(timings=timings['duration'], time=float(match['duration']) * 1000) try: self.data[match['http_code'][0] + 'xx'] += 1 except KeyError: self.data['other'] += 1 self.get_data_per_statuses(match['http_code']) self.get_data_per_squid_code(match['squid_code']) self.data['bytes'] += int(match['bytes']) proto = 'ipv4' if '.' in match['client_address'] else 'ipv6' # unique clients ips if self.configuration.get('all_time', True): if address_not_in_pool(pool=self.storage['unique_all_time'], address=match['client_address'], pool_size=self.data['unique_tot_ipv4'] + self.data['unique_tot_ipv6']): self.data['unique_tot_' + proto] += 1 if match['client_address'] not in unique_ip: self.data['unique_' + proto] += 1 unique_ip.add(match['client_address']) for key, values in self.storage['dynamic'].items(): if match[key] == '-': continue dimension_id = values['func_dim_id'](match[key]) if values['func_dim_id'] else match[key] if dimension_id not in self.data: dimension = values['func_dim'](match[key]) if values['func_dim'] else dimension_id self.charts[values['chart']].add_dimension([dimension_id, dimension, 'incremental']) self.data[dimension_id] = 0 self.data[dimension_id] += 1 else: self.data['unmatched'] += 1 for elem in timings: self.data[elem + '_min'] += timings[elem]['minimum'] self.data[elem + '_avg'] += timings[elem]['summary'] / timings[elem]['count'] self.data[elem + '_max'] += timings[elem]['maximum'] return self.data def get_data_per_statuses(self, code): """ :param code: str: response status code. Ex.: '202', '499' :return: """ code_class = code[0] if code_class == '2' or code == '304' or code_class == '1' or code == '000': self.data['successful_requests'] += 1 elif code_class == '3': self.data['redirects'] += 1 elif code_class == '4': self.data['bad_requests'] += 1 elif code_class == '5' or code_class == '6': self.data['server_errors'] += 1 else: self.data['other_requests'] += 1 def get_data_per_squid_code(self, code): """ :param code: str: squid response code. Ex.: 'TCP_MISS', 'TCP_MISS_ABORTED' :return: """ if code not in self.data: self.charts['squid_code'].add_dimension([code, code, 'incremental']) self.data[code] = 0 self.data[code] += 1 for tag in code.split('_'): try: chart_key = SQUID_CODES[tag] except KeyError: continue dimension_id = '_'.join(['code_detailed', tag]) if dimension_id not in self.data: self.charts[chart_key].add_dimension([dimension_id, tag, 'incremental']) self.data[dimension_id] = 0 self.data[dimension_id] += 1 def get_timings(timings, time): """ :param timings: :param time: :return: """ if timings['minimum'] is None: timings['minimum'] = time if time > timings['maximum']: timings['maximum'] = time elif time < timings['minimum']: timings['minimum'] = time timings['summary'] += time timings['count'] += 1 def get_hist(index, buckets, time): """ :param index: histogram index (Ex. [10, 50, 100, 150, ...]) :param buckets: histogram buckets :param time: time :return: None """ for i in range(len(index)-1, -1, -1): if time <= index[i]: buckets[i] += 1 else: break def address_not_in_pool(pool, address, pool_size): """ :param pool: list of ip addresses :param address: ip address :param pool_size: current pool size :return: True if address not in pool. False otherwise. """ index = bisect.bisect_left(pool, address) if index < pool_size: if pool[index] == address: return False bisect.insort_left(pool, address) return True bisect.insort_left(pool, address) return True def find_regex_return(match_dict=None, msg='Generic error message'): """ :param match_dict: dict: re.search.groupdict() or None :param msg: str: error description :return: tuple: """ return match_dict, msg def check_patterns(string, dimension_regex_dict): """ :param string: str: :param dimension_regex_dict: dict: ex. {'dim1': '', 'dim2': ''} :return: list of named tuples or None: We need to make sure all patterns are valid regular expressions """ if not hasattr(dimension_regex_dict, 'keys'): return None result = list() def valid_pattern(pattern): """ :param pattern: str :return: re.compile(pattern) or None """ if not isinstance(pattern, str): return False try: return re.compile(pattern) except re.error: return False def func_search(pattern): def closure(v): return pattern.search(v) return closure for dimension, regex in dimension_regex_dict.items(): valid = valid_pattern(regex) if isinstance(dimension, str) and valid_pattern: func = func_search(valid) result.append(NAMED_PATTERN(description='_'.join([string, dimension]), func=func)) return result or None def filter_data(raw_data, pre_filter): """ :param raw_data: :param pre_filter: :return: """ if not pre_filter: return raw_data filtered = raw_data for elem in pre_filter: if elem.description == 'filter_include': filtered = filter(elem.func, filtered) elif elem.description == 'filter_exclude': filtered = filterfalse(elem.func, filtered) return filtered