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dependencynode.py
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dependencynode.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# Copyright (C) 2009-2012:
# Gabes Jean, naparuba@gmail.com
# Gerhard Lausser, Gerhard.Lausser@consol.de
# Gregory Starck, g.starck@gmail.com
# Hartmut Goebel, h.goebel@goebel-consult.de
#
# This file is part of Shinken.
#
# Shinken is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Shinken is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with Shinken. If not, see <http://www.gnu.org/licenses/>.
import re
"""
Here is a node class for dependency_node(s) and a factory to create them
"""
class DependencyNode(object):
def __init__(self):
self.operand = None
self.sons = []
# Of: values are a triple OK,WARN,CRIT
self.of_values = (0, 0, 0)
self.is_of_mul = False
self.configuration_errors = []
self.not_value = False
def __str__(self):
return "Op:'%s' Val:'%s' Sons:'[%s]' IsNot:'%s'" % (self.operand, self.of_values, ','.join([str(s) for s in self.sons]), self.not_value)
def get_reverse_state(self, state):
# Warning is still warning
if state == 1:
return 1
if state == 0:
return 2
if state == 2:
return 0
# should not go here...
return state
# We will get the state of this node, by looking at the state of
# our sons, and apply our operand
def get_state(self):
#print "Ask state of me", self
# If we are a host or a service, wee just got the host/service
# hard state
if self.operand in ['host', 'service']:
state = self.sons[0].last_hard_state_id
#print "Get the hard state (%s) for the object %s" % (state, self.sons[0].get_name())
# Make DOWN look as CRITICAL (2 instead of 1)
if self.operand == 'host' and state == 1:
state = 2
# Maybe we are a NOT node, so manage this
if self.not_value:
# We inverse our states
if self.operand == 'host' and state == 1:
return 0
if self.operand == 'host' and state == 0:
return 1
# Critical -> OK
if self.operand == 'service' and state == 2:
return 0
# OK -> CRITICAL (warning is untouched)
if self.operand == 'service' and state == 0:
return 2
return state
# First we get the state of all our sons
states = []
for s in self.sons:
st = s.get_state()
states.append(st)
# We will surely need the worst state
worst_state = max(states)
# Suggestion: What about returning min(states) for the | operand?
# We don't need make a difference between an 0 and another no?
# If you do so, it may be more efficient with lots of services
# or host to return OK, but otherwise I can't see the reason for
# this subcase.
# We look for the better state but not OK/UP
no_ok = [s for s in states if s != 0]
if len(no_ok) != 0:
best_not_good = min(no_ok)
# Now look at the rule. For a or
if self.operand == '|':
if 0 in states:
if self.not_value:
return self.get_reverse_state(0)
#print "We find a OK/UP match in an OR", states
return 0
# no ok/UP-> return worst state
else:
if self.not_value:
return self.get_reverse_state(best_not_good)
#print "I send the best not good state...in an OR", best_not_good, states
return best_not_good
# With an AND, we just send the worst state
if self.operand == '&':
if self.not_value:
return self.get_reverse_state(worst_state)
#print "We raise worst state for a AND", worst_state,states
return worst_state
# Ok we've got a 'of:' rule
# We search for OK, WARN or CRIT applications
# And we will choice between them
nb_search_ok = self.of_values[0]
nb_search_warn = self.of_values[1]
nb_search_crit = self.of_values[2]
# We look for each application
nb_ok = len([s for s in states if s == 0])
nb_warn = len([s for s in states if s == 1])
nb_crit = len([s for s in states if s == 2])
#print "NB:", nb_ok, nb_warn, nb_crit
# Ok and Crit apply with their own values
# Warn can apply with warn or crit values
# so a W C can raise a Warning, but not enough for
# a critical
ok_apply = nb_ok >= nb_search_ok
warn_apply = nb_warn + nb_crit >= nb_search_warn
crit_apply = nb_crit >= nb_search_crit
#print "What apply?", ok_apply, warn_apply, crit_apply
# return the worst state that apply
if crit_apply:
if self.not_value:
return self.get_reverse_state(2)
return 2
if warn_apply:
if self.not_value:
return self.get_reverse_state(1)
return 1
if ok_apply:
if self.not_value:
return self.get_reverse_state(0)
return 0
# Maybe even OK is not possible, if so, it depends if the admin
# ask a simple form Xof: or a multiple one A,B,Cof:
# the simple should give OK, the mult should give the worst state
if self.is_of_mul:
#print "Is mul, send 0"
if self.not_value:
return self.get_reverse_state(0)
return 0
else:
#print "not mul, return worst", worse_state
if self.not_value:
return self.get_reverse_state(worst_state)
return worst_state
# return a list of all host/service in our node and below
def list_all_elements(self):
r = []
# We are a host/service
if self.operand in ['host', 'service']:
return [self.sons[0]]
for s in self.sons:
r.extend(s.list_all_elements())
# and uniq the result
return list(set(r))
# If we are a of: rule, we can get some 0 in of_values,
# if so, change them with NB sons instead
def switch_zeros_of_values(self):
nb_sons = len(self.sons)
# Need a list for assignment
self.of_values = list(self.of_values)
for i in [0, 1, 2]:
if self.of_values[i] == 0:
self.of_values[i] = nb_sons
self.of_values = tuple(self.of_values)
# Check for empty (= not found) leaf nodes
def is_valid(self):
valid = True
if not self.sons:
valid = False
else:
for s in self.sons:
if isinstance(s, DependencyNode) and not s.is_valid():
self.configuration_errors.extend(s.configuration_errors)
valid = False
return valid
""" TODO: Add some comment about this class for the doc"""
class DependencyNodeFactory(object):
def __init__(self):
pass
# the () will be eval in a recursiv way, only one level of ()
def eval_cor_pattern(self, pattern, hosts, services):
pattern = pattern.strip()
#print "***** EVAL ", pattern
complex_node = False
# Look if it's a complex pattern (with rule) or
# if it's a leaf ofit, like a host/service
for m in '()+&|':
if m in pattern:
complex_node = True
is_of_nb = False
node = DependencyNode()
p = "^(\d+),*(\d*),*(\d*) *of: *(.+)"
r = re.compile(p)
m = r.search(pattern)
if m is not None:
#print "Match the of: thing N=", m.groups()
node.operand = 'of:'
g = m.groups()
# We can have a Aof: rule, or a multiple A,B,Cof: rule.
mul_of = (g[1] != u'' and g[2] != u'')
# If multi got (A,B,C)
if mul_of:
node.is_of_mul = True
node.of_values = (int(g[0]), int(g[1]), int(g[2]))
else: # if not, use A,0,0, we will change 0 after to put MAX
node.of_values = (int(g[0]), 0, 0)
pattern = m.groups()[3]
#print "Is so complex?", pattern, complex_node
# if it's a single host/service
if not complex_node:
#print "Try to find?", pattern
# If it's a not value, tag the node and find
# the name without this ! operator
if pattern.startswith('!'):
node.not_value = True
pattern = pattern[1:]
node.operand = 'object'
obj, error = self.find_object(pattern, hosts, services)
if obj is not None:
# Set host or service
node.operand = obj.__class__.my_type
node.sons.append(obj)
else:
node.configuration_errors.append(error)
return node
#else:
# print "Is complex"
in_par = False
tmp = ''
son_is_not = False # We keep is the next son will ne not or not
stacked_par = 0
for c in pattern:
#print "MATCHING", c, pattern
if c == '&' or c == '|':
# Maybe we are in a par, if so, just stack it
if in_par:
#print " & in a par, just staking it"
tmp += c
else:
# Oh we got a real cut in an expression, if so, cut it
#print "REAL & for cutting"
tmp = tmp.strip()
# Look at the rule viability
current_rule = node.operand
if current_rule is not None and current_rule != 'of:' and c != current_rule:
# Should be logged as a warning / info? :)
return None
if current_rule != 'of:':
node.operand = c
if tmp != '':
#print "Will analyse the current str", tmp
o = self.eval_cor_pattern(tmp, hosts, services)
# Maybe our son was notted
if son_is_not:
o.not_value = True
son_is_not = False
node.sons.append(o)
tmp = ''
continue
elif c == '(':
stacked_par += 1
#print "INCREASING STACK TO", stacked_par
in_par = True
tmp = tmp.strip()
# Maybe we just start a par, but we got some things in tmp
# that should not be good in fact !
if stacked_par == 1 and tmp != '':
#TODO : real error
print "ERROR : bad expression near", tmp
continue
# If we are already in a par, add this (
# but not if it's the first one so
if stacked_par > 1:
tmp += c
#o = self.eval_cor_pattern(tmp)
#print "1( I've %s got new sons" % pattern , o
#node.sons.append(o)
elif c == ')':
#print "Need closeing a sub expression?", tmp
stacked_par -= 1
if stacked_par < 0:
# TODO : real error
print "Error : bad expression near", tmp, "too much ')'"
continue
if stacked_par == 0:
#print "THIS is closing a sub compress expression", tmp
tmp = tmp.strip()
o = self.eval_cor_pattern(tmp, hosts, services)
# Maybe our son was notted
if son_is_not:
o.not_value = True
son_is_not = False
node.sons.append(o)
in_par = False
# OK now clean the tmp so we start clean
tmp = ''
continue
# ok here we are still in a huge par, we just close one sub one
tmp += c
# Manage the NOT for an expression. If we are in a starting bloc, put as
# a NOT node, but if inside a bloc, don't
elif c == '!':
if stacked_par == 0:
son_is_not = True
# DO NOT keep the c in tmp, we consumed it
else:
tmp += c
# Maybe it's a classic character, if so, continue
else:
tmp += c
# Be sure to manage the trainling part when the line is done
tmp = tmp.strip()
if tmp != '':
#print "Managing trainling part", tmp
o = self.eval_cor_pattern(tmp, hosts, services)
# Maybe our son was notted
if son_is_not:
o.not_value = True
son_is_not = False
#print "4end I've %s got new sons" % pattern , o
node.sons.append(o)
# We got our nodes, so we can update 0 values of of_values
# with the number of sons
node.switch_zeros_of_values()
#print "End, tmp", tmp
#print "R %s:" % pattern
#print "Node:", node
return node
# We've got an object, like h1,db1 that mean the
# db1 service of the host db1, or just h1, that mean
# the host h1.
def find_object(self, pattern, hosts, services):
#print "Finding object", pattern
obj = None
error = None
is_service = False
# h_name, service_desc are , separated
elts = pattern.split(',')
host_name = elts[0].strip()
# Look if we have a service
if len(elts) > 1:
is_service = True
service_description = elts[1].strip()
if is_service:
obj = services.find_srv_by_name_and_hostname(host_name, service_description)
if not obj:
error = "Business rule uses unknown service %s/%s" % (host_name, service_description)
else:
obj = hosts.find_by_name(host_name)
if not obj:
error = "Business rule uses unknown host %s" % (host_name,)
return obj, error