#!/usr/bin/env python # -*- coding: utf-8 -*- # kpov_random_helpers should be imported by add_assignment.py # TODO: finish this. instructions = { 'si':u""" Naloga: Postavi tri navidezne racunalnike: - SimpleArbiter s sliko diska simpleArbiterDhcp, - SNMPServer in -SNMPClient. Napiši program upminutes, ki bo izpisal v minutah koliko casa je racunalnik vklopljen. Postavi ga na SNMPClient v domaci imenik uporabnika test z geslom test. Poskrbi, da bo SNMP strežnik prek SNMP pod NET-SNMP-EXTEND-MIB::nsExtendOutput2Table sporocal, koliko casa je vklopljen v sekundah. Napiši skripto, poimenovano beri.sh, ki prek SNMP prebere vrednost s strežnika SNMPServer na OID 1.3.6.1.4.1.8072.1.3.2.4.1.4. Postavi jo na SNMP klienta, v domaci imenik uporabnika test z geslom test. Napiši skripto gen_params(), ki uporabnikom generira razlicne parametre in sicer razlicno število med 1 in 254 s pomocjo katerih bomo preverjali ali je prislo do prepisovanja. Navodila za ostale metode pa so obarvana rdece oz. komentirana z # """, 'en':u""" Set up three virtual computers, SimpleArbiter with the disk image simpleArbiterDhcp, SNMPServer and SNMPClient. Write a program called upminutes. This program should output the uptime of the computer in minutes. Set it up on SNMPClient in the home directory of the user test with the password test. Make sure that the SNMP server reports it's uptime in seconds over SNMP under NET-SNMP-EXTEND-MIB::nsExtendOutput2Table . Write a script called beri.sh that reads the value from the OID 1.3.6.1.4.1.8072.1.3.2.4.1.4. on SNMPServer. Set it up on SNMPClient in the home directory of the user test. """ } computers = { 'SNMPClient': { 'disks': [ { 'name': 'SNMPClient', }, #{ 'name': 'CDROM', # 'options':{'readonly': True}, # 'parts': [],# no parts, no mounting. #} ], 'network_interfaces': [{'network': 'net1'}], 'flavor': 'm1.tiny', 'config_drive': False }, 'SNMPServer': { 'disks': [ { 'name': 'SNMPServer', }, #{ 'name': 'CDROM', # 'options':{'readonly': True}, # 'parts': [],# no parts, no mounting. #} ], 'network_interfaces': [{'network': 'net1'}], 'flavor': 'm1.tiny', 'config_drive': False }, 'SimpleArbiter': { 'disks': [ { 'name': 'simpleArbiterDhcp', # attempt automount }, #{ 'name': 'CDROM', # 'options': {'readonly': True}, # 'parts': [{'dev': 'b1', 'path': '/cdrom'}], #}, ], 'network_interfaces': [{'network': 'net1'}, {'network': 'test-net'}], 'flavor': 'm1.tiny', 'config_drive': False } } networks = { 'net1': {'public': False}, 'test-net': {'public': True} } params_meta = { 'SNMP_VALUE': {'descriptions': {'si': 'Vrednost, dostopna prek SNMP'}, 'w': False, 'public':True, 'type': 'number', 'generated': True}, 'SNMP_OID_ON_SERVER': {'descriptions': {'si': 'OID, na katerem je vrednost dostopna'}, 'w': False, 'public':True, 'type': 'OID', 'generated': True}, 'SNMP_OID_ON_CLIENT': {'descriptions': {'si': 'OID, ki naj ga klient bere'}, 'w': False, 'public':True, 'type': 'OID', 'generated': True}, } def task(SNMP_VALUE, SNMP_OID_ON_SERVER, SNMP_OID_ON_CLIENT): # run cpu temp script on client # run SNMP read SNMP_OID_ON_CLIENT script on client # read data on SNMP_OID_ON_CLIENT # read data from SNMP server import netsnmp session = netsnmp.Session(DestHost=SNMP_VALUE['type'],Version=2,Community='public') #Dobimo vrednost casa vars=netsnmp.Varbind(SNMP_OID_ON_SERVER['type']) #Shranimo vrednost casa v imenik od SNMP_OID_ON_SERVER var=netsnmp.Varbind(SNMP_OID_ON_SERVER['descriptions'['si'],'0',session.get(vars),SNMP_OID_ON_SERVER['type']) netsnmp.snmpset(var,Version=2,DestHost=SNMP_VALUE['type'],Community='public') return session.get(vars) def gen_params(user_id, params_meta): params = dict() r = random.Random(user_id) return params def task_check(results, params): import re score = -9 if results['NM_nslookup'].find('Server:\t\t{0}\r'.format(params['DNS_NM'])) > -1: score += 3 if results['static_nslookup'].find('Server:\t\t{0}\r'.format(params['DNS_static'])) > -1: score += 3 if re.search(r'eth0 +802-.*connected', results['NM_nmcli']): score += 2 if not re.search(r'eth0 +802-.*connected', results['static_nmcli']): score += 2 score = 0 return score def prepare_disks(templates, params): # d = templates['simpleArbiterDhcp'] pass