#!/usr/bin/env python # -*- coding: utf-8 -*- # kpov_random_helpers should be imported by add_assignment.py # Poglej nek film na nekem določenem URL. # (?md5 vsota filma?) # Nastavi nek računalnik tako, da bo izvajal NAT. #TODO: finish this instructions = { 'si':u""" Postavi dva navidezna računalnika - SimpleArbiter z diskom simpleArbiter ter NATServer. NATServer naj ima dva omrežna vmesnika - z enim naj bo povezan na lokalno omrežje, na katerem naj bo tudi simpleArbiter, z drugim pa na Internet. Na NATServer skonfiguriraj omrežne vmesnike tako, da bo imel dostop do Interneta in da bo imel na lokalnem omrežju {IP_NAT}. Na NATServer ustvarite še uporabnika {IP_NAT_user}. Poskrbi, da bo SimpleArbiter prek DHCP dobil naslov {IP_simple}. Poskrbi, da bo NATServer deloval kot prehod za SimpleArbiter in izvajal NAT. """, 'en':u""" Set up two virtual machines - SimpleArbiter (using the disc simpleArbiter) and NATServer. NATServer should have two network adapters. Connect the first adapter to SimpleArbiter and the second adapter to the Internet. Configure the network in NATServer so that one interface is connected to the Internet while the other is connected to SimpleArbiter and has the address {IP_NAT}. Create a user called {IP_NAT_user} on NATServer. Configure a DHCP server on NATServer so that SimpleArbiter gets the IP {IP_simple}. Also, set up NAT on NATServer and set it as the gateway for SimpleArbiter. """ } computers = { 'NATServer': { 'disks': [ { 'name': 'student-NATServer', # 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 }, 'SimpleArbiter': { 'disks': [ { 'name': 'simpleArbiter', }, #{ 'name': 'CDROM', # 'options':{'readonly': True}, # 'parts': [],# no parts, no mounting. #} ], 'network_interfaces': [{'network': 'net1'}], 'flavor': 'm1.tiny', 'config_drive': False }, } networks = { 'net1': {'public': False}, 'test-net': {'public': True} } #ne potrebujemo dnsjev in ip za malibreznewtork manager? params_meta = { # 'IP_NM': {'descriptions': {'si': 'Naslov maliNetworkManager'}, 'w': False, 'public':True, 'type': 'IP', 'generated': True}, # 'DNS_NM': {'descriptions': {'si': 'DNS za maliNetworkManager'}, 'w': False, 'public':True, 'type': 'IP', 'generated': True}, 'IP_simple': {'descriptions': {'si': 'Naslov SimpleArbiter'}, 'w': False, 'public': True, 'type': 'IP', 'generated': True}, 'IP_NAT': {'descriptions': {'si': 'Naslov NAT'}, 'w': False, 'public': True, 'type': 'IP', 'generated': True }, 'IP_NAT_user': {'descriptions': {'si': 'Username na NATServer'}, 'w': False, 'public' : True, 'type' : 'username', 'generated' : True}, 'IP_NAT_passwd': {'descriptions': {'si': 'Password na NATServer'}, 'w': True,'public' : True, 'type' : 'passwd', 'generated' : False}, # 'DNS_static': {'descriptions': {'si': 'DNS za maliBrezNetworkManager'}, 'w': False, 'public': True, 'type': 'IP', 'generated': True}, } def task(IP_simple, IP_NAT, IP_NAT_user, IP_NAT_passwd): import pxssh import pexpect results = dict() # Connect to NAT povezava = pxssh.pxssh() povezava.login(IP_NAT,IP_NAT_user,IP_NAT_passwd) # Check if If IP_simple is connected to NAT results['IP_simple ping to NAT'] = run('ping -c 5 IP_NAT') # Check routing table on IP_simple results['IP_simple routing table'] = run('route -n') # Tracert Check if IP_simple is connected to internet results['IP_simple to internet'] = run('traceroute 8.8.8.8') # Check DNS results['IP_simple dns'] = run('nslookup www.google.com') # Check if IP_NAT ip forward is not 0 povezava.prompt() povezava.sendline('cat /proc/sys/net/ipv4/ip_forward') povezava.prompt() results['IP_NAT ip forward'] = povezava.before povezava.logout(); return results def gen_params(user_id, params_meta): params = dict() r = random.Random(user_id) # IP_NM, DNS_NM, IP_static, DNS_static) # dns_servers = ['193.2.1.66', '193.2.1.72', '8.8.8.8', '8.8.4.4', '208.67.222.222', '208.67.220.220'] net = kpov_random_helpers.IPv4_net_gen(r, 253, True, False) # params['DNS_NM'] = r.choice(dns_servers) params['IP_NAT'], params['IP_simple'] = kpov_random_helpers.IPv4_addr_gen(r, net, 2) # params['IP_NM'] # params['IP_simple'] = kpov_random_helpers.IPv4_addr_gen(r, net, 1) # params['DNS_static'] = r.choice(dns_servers) return params def task_check(results, params): import re score = 0 hints = [] if re.search(r'0% packet loss',results['IP_simple ping to NAT']): score += 2 if results['IP_NAT ip forward']=='1': score += 2 if not re.search(r'Network is unreachable',results['IP_simple to internet']): score += 2 if re.search(r'94.140.66.250',results['IP_simple dns']): score += 2 gateway='0.0.0.0\t'+params['IP_NAT'] if re.search(gateway,results['IP_simple routing table']): score += 2 return score, hints def prepare_disks(templates, params): # d = templates['simpleArbiterDhcp'] pass