import bisect
from os import access, R_OK
from os.path import getsize
-from collections import defaultdict, namedtuple
+from collections import namedtuple
from copy import deepcopy
try:
from itertools import zip_longest
priority = 60000
retries = 60
-ORDER = ['response_codes', 'bandwidth', 'response_time', 'requests_per_url', 'http_method', 'requests_per_ipproto', 'clients', 'clients_all']
+ORDER = ['response_codes', 'bandwidth', 'response_time', 'requests_per_url', 'http_method', 'requests_per_ipproto',
+ 'clients', 'clients_all']
CHARTS = {
'response_codes': {
'options': [None, 'Response Codes', 'requests/s', 'responses', 'web_log.response_codes', 'stacked'],
'lines': [
- ['2xx', '2xx', 'absolute'],
- ['5xx', '5xx', 'absolute'],
- ['3xx', '3xx', 'absolute'],
- ['4xx', '4xx', 'absolute'],
- ['1xx', '1xx', 'absolute'],
- ['0xx', 'other', 'absolute'],
- ['unmatched', 'unmatched', 'absolute']
+ ['2xx', '2xx', 'incremental'],
+ ['5xx', '5xx', 'incremental'],
+ ['3xx', '3xx', 'incremental'],
+ ['4xx', '4xx', 'incremental'],
+ ['1xx', '1xx', 'incremental'],
+ ['0xx', 'other', 'incremental'],
+ ['unmatched', 'unmatched', 'incremental']
]},
'bandwidth': {
'options': [None, 'Bandwidth', 'KB/s', 'bandwidth', 'web_log.bandwidth', 'area'],
'lines': [
- ['resp_length', 'received', 'absolute', 1, 1024],
- ['bytes_sent', 'sent', 'absolute', -1, 1024]
+ ['resp_length', 'received', 'incremental', 1, 1024],
+ ['bytes_sent', 'sent', 'incremental', -1, 1024]
]},
'response_time': {
'options': [None, 'Processing Time', 'milliseconds', 'timings', 'web_log.response_time', 'area'],
'lines': [
- ['resp_time_min', 'min', 'absolute', 1, 1000],
- ['resp_time_max', 'max', 'absolute', 1, 1000],
- ['resp_time_avg', 'avg', 'absolute', 1, 1000]
+ ['resp_time_min', 'min', 'incremental', 1, 1000],
+ ['resp_time_max', 'max', 'incremental', 1, 1000],
+ ['resp_time_avg', 'avg', 'incremental', 1, 1000]
]},
'clients': {
'options': [None, 'Current Poll Unique Client IPs', 'unique ips', 'clients', 'web_log.clients', 'stacked'],
'lines': [
- ['unique_cur_ipv4', 'ipv4', 'absolute', 1, 1],
- ['unique_cur_ipv6', 'ipv6', 'absolute', 1, 1]
+ ['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': [
]},
'requests_per_ipproto': {
- 'options': [None, 'Requests Per IP Protocol', 'requests/s', 'ip protocols', 'web_log.requests_per_ipproto', 'stacked'],
+ 'options': [None, 'Requests Per IP Protocol', 'requests/s', 'ip protocols', 'web_log.requests_per_ipproto',
+ 'stacked'],
'lines': [
- ['req_ipv4', 'ipv4', 'absolute', 1, 1],
- ['req_ipv6', 'ipv6', 'absolute', 1, 1]
+ ['req_ipv4', 'ipv4', 'incremental', 1, 1],
+ ['req_ipv6', 'ipv6', 'incremental', 1, 1]
]}
}
self.http_method_chart = None # will be assigned in 'create_*_method' method.
# sorted list of unique IPs
self.unique_all_time = list()
- # dict for values that should not be zeroed every poll
- self.storage = {'unique_tot_ipv4': 0, 'unique_tot_ipv6': 0}
- # if there is no new logs this dict + self.storage returned to netdata
+ # if there is no new logs this dict returned to netdata
self.data = {'bytes_sent': 0, 'resp_length': 0, 'resp_time_min': 0,
'resp_time_max': 0, 'resp_time_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}
+ '1xx': 0, '0xx': 0, 'unmatched': 0, 'req_ipv4': 0, 'req_ipv6': 0,
+ 'unique_tot_ipv4': 0, 'unique_tot_ipv6': 0}
def check(self):
if not self.log_path:
:return:
Create additional charts depending on the 'find_regex' result (parsed_line) and configuration file
1. 'time_response' chart is removed if there is no 'time_response' in logs.
- 2. We need to change divisor for 'response_time' chart for apache (time in microseconds in logs)
- 3. Other stuff is just remove/add chart depending on yes/no in conf
+ 2. Other stuff is just remove/add chart depending on yes/no in conf
"""
def find_job_name(override_name, name):
"""
if self.detailed_response_codes:
self.order.append('detailed_response_codes')
self.definitions['detailed_response_codes'] = {'options': [None, 'Detailed Response Codes', 'requests/s',
- 'responses', 'web_log.detailed_response_codes', 'stacked'],
+ 'responses', 'web_log.detailed_response_codes',
+ 'stacked'],
'lines': []}
# Add 'requests_per_url' chart if specified in the configuration
if self.url_pattern:
- self.url_pattern = [NAMED_URL_PATTERN(description=k, pattern=re.compile(v)) for k, v in self.url_pattern.items()]
+ self.url_pattern = [NAMED_URL_PATTERN(description=k, pattern=re.compile(v)) for k, v
+ in self.url_pattern.items()]
self.definitions['requests_per_url'] = {'options': [None, 'Requests Per Url', 'requests/s',
'urls', 'web_log.requests_per_url', 'stacked'],
- 'lines': [['other_url', 'other', 'absolute']]}
+ 'lines': [['other_url', 'other', 'incremental']]}
for elem in self.url_pattern:
- self.definitions['requests_per_url']['lines'].append([elem.description, elem.description, 'absolute'])
+ self.definitions['requests_per_url']['lines'].append([elem.description, elem.description,
+ 'incremental'])
self.data.update({elem.description: 0})
self.data.update({'other_url': 0})
else:
def add_new_dimension(self, dimension, line_list, chart_string, key):
"""
:param dimension: str: response status code. Ex.: '202', '499'
- :param line_list: list: Ex.: ['202', '202', 'Absolute']
+ :param line_list: list: Ex.: ['202', '202', 'incremental']
:param chart_string: Current string we need to pass to netdata to rebuild the chart
:param key: str: CHARTS dict key (chart name). Ex.: 'response_time'
:return: str: new chart string = previous + new dimensions
request_time, unique_current = list(), list()
request_counter = {'count': 0, 'sum': 0}
- to_netdata = dict()
- to_netdata.update(self.data)
- default_dict = defaultdict(lambda: 0)
-
+ ip_address_counter = {'unique_cur_ip': 0}
for line in raw:
match = self.regex.search(line)
if match:
match.groups()))
try:
code = ''.join([match_dict['code'][0], 'xx'])
- to_netdata[code] += 1
+ self.data[code] += 1
except KeyError:
- to_netdata['0xx'] += 1
+ self.data['0xx'] += 1
# detailed response code
if self.detailed_response_codes:
- self._get_data_detailed_response_codes(match_dict['code'], default_dict)
+ self._get_data_detailed_response_codes(match_dict['code'])
# requests per url
if self.url_pattern:
- self._get_data_per_url(match_dict['url'], default_dict)
+ self._get_data_per_url(match_dict['url'])
# requests per http method
- self._get_data_http_method(match_dict['method'], default_dict)
+ self._get_data_http_method(match_dict['method'])
# bandwidth sent
- to_netdata['bytes_sent'] += int(match_dict['sent'])
+ self.data['bytes_sent'] += int(match_dict['sent'])
# request processing time and bandwidth received
if match_dict['resp_length'] and match_dict['resp_time']:
- to_netdata['resp_length'] += int(match_dict['resp_length'])
+ self.data['resp_length'] += int(match_dict['resp_length'])
resp_time = self.resp_time_func(float(match_dict['resp_time']))
bisect.insort_left(request_time, resp_time)
request_counter['count'] += 1
request_counter['sum'] += resp_time
# requests per ip proto
proto = 'ipv4' if '.' in match_dict['address'] else 'ipv6'
- to_netdata['req_' + proto] += 1
+ self.data['req_' + proto] += 1
# unique clients ips
if address_not_in_pool(self.unique_all_time, match_dict['address'],
- self.storage['unique_tot_ipv4'] + self.storage['unique_tot_ipv6']):
- self.storage['unique_tot_' + proto] += 1
- if address_not_in_pool(unique_current, match_dict['address'],
- to_netdata['unique_cur_ipv4'] + to_netdata['unique_cur_ipv6']):
- to_netdata['unique_cur_' + proto] += 1
+ self.data['unique_tot_ipv4'] + self.data['unique_tot_ipv6']):
+ self.data['unique_tot_' + proto] += 1
+ if address_not_in_pool(unique_current, match_dict['address'], ip_address_counter['unique_cur_ip']):
+ self.data['unique_cur_' + proto] += 1
+ ip_address_counter['unique_cur_ip'] += 1
else:
- to_netdata['unmatched'] += 1
+ self.data['unmatched'] += 1
# timings
if request_time:
- to_netdata['resp_time_min'] = request_time[0]
- to_netdata['resp_time_avg'] = round(float(request_counter['sum']) / request_counter['count'])
- to_netdata['resp_time_max'] = request_time[-1]
-
- to_netdata.update(self.storage)
- to_netdata.update(default_dict)
- return to_netdata
+ self.data['resp_time_min'] += int(request_time[0])
+ self.data['resp_time_avg'] += int(round(float(request_counter['sum']) / request_counter['count']))
+ self.data['resp_time_max'] += int(request_time[-1])
+ return self.data
- def _get_data_detailed_response_codes(self, code, default_dict):
+ def _get_data_detailed_response_codes(self, code):
"""
:param code: str: CODE from parsed line. Ex.: '202, '499'
- :param default_dict: defaultdict
:return:
Calls add_new_dimension method If the value is found for the first time
"""
if code not in self.data:
chart_string_copy = self.detailed_chart
- self.detailed_chart = self.add_new_dimension(code, [code, code, 'absolute'],
+ self.detailed_chart = self.add_new_dimension(code, [code, code, 'incremental'],
chart_string_copy, 'detailed_response_codes')
- default_dict[code] += 1
+ self.data[code] += 1
- def _get_data_http_method(self, method, default_dict):
+ def _get_data_http_method(self, method):
"""
:param method: str: METHOD from parsed line. Ex.: 'GET', 'POST'
- :param default_dict: defaultdict
:return:
Calls add_new_dimension method If the value is found for the first time
"""
if method not in self.data:
chart_string_copy = self.http_method_chart
- self.http_method_chart = self.add_new_dimension(method, [method, method, 'absolute'],
+ self.http_method_chart = self.add_new_dimension(method, [method, method, 'incremental'],
chart_string_copy, 'http_method')
- default_dict[method] += 1
+ self.data[method] += 1
- def _get_data_per_url(self, url, default_dict):
+ def _get_data_per_url(self, url):
"""
:param url: str: URL from parsed line
- :param default_dict: defaultdict
:return:
Scan through string looking for the first location where patterns produce a match for all user
defined patterns
match = None
for elem in self.url_pattern:
if elem.pattern.search(url):
- default_dict[elem.description] += 1
+ self.data[elem.description] += 1
match = True
break
if not match:
- default_dict['other_url'] += 1
+ self.data['other_url'] += 1
def address_not_in_pool(pool, address, pool_size):
:param pool: list of ip addresses
:param address: ip address
:param pool_size: current size of pool
- :return: True if address not pool and False address in pool
- If address not in pool function add address to pool.
+ :return: True if address not in pool. False if address in pool
"""
index = bisect.bisect_left(pool, address)
if index < pool_size: