def test_ipv6_4(self):
net = Network('2001:dead:beef:1:c01d:c01a::', 'ffff:ffff:ffff::')
self.assertTrue(
str(net) == '2001:dead:beef:0001:c01d:c01a:0000:0000/48')
self.assertTrue(
str(net.to_compressed()) == '2001:dead:beef:1:c01d:c01a::')
self.assertTrue(
str(net.to_ipv6().to_compressed()) ==
'2001:dead:beef:1:c01d:c01a::')
self.assertTrue(net.info() == 'UNKNOWN')
self.assertTrue(net.subnet() == 48)
self.assertTrue(net.size() == 1 << (128 - 48))
self.assertTrue(int(net) == 0x2001deadbeef0001c01dc01a00000000)
self.assertTrue(
net.hex().lower() == '2001deadbeef0001c01dc01a00000000')
self.assertTrue(
str(net.netmask()) == 'ffff:ffff:ffff:0000:0000:0000:0000:0000')
self.assertTrue(net.version() == 6)
self.assertTrue(
str(net.network()) == '2001:dead:beef:0000:0000:0000:0000:0000')
self.assertTrue(
str(net.broadcast()) == '2001:dead:beef:ffff:ffff:ffff:ffff:ffff')
self.assertFalse('123:456::' in net)
self.assertFalse('::aaaa:bbbb:cccc:dddd' in net)
self.assertFalse('::dddd' in net)
self.assertFalse('::1' in net)
self.assertFalse('123::456' in net)
self.assertTrue('2001:dead:beef:babe::1234' in net)
def test_ipv6_1(self):
net = Network('123::', 128)
self.assertTrue(
str(net) == '0123:0000:0000:0000:0000:0000:0000:0000/128')
self.assertTrue(str(net.to_compressed()) == '123::')
self.assertTrue(str(net.to_ipv6().to_compressed()) == '123::')
self.assertTrue(net.info() == 'UNKNOWN')
self.assertTrue(net.subnet() == 128)
self.assertTrue(net.size() == 1 << (128 - 128))
self.assertTrue(int(net) == (0x123 << 112))
self.assertTrue(
net.hex().lower() == '01230000000000000000000000000000')
self.assertTrue(
str(net.netmask()) == 'ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff')
self.assertTrue(net.version() == 6)
self.assertTrue(
str(net.network()) == '0123:0000:0000:0000:0000:0000:0000:0000')
self.assertTrue(
str(net.broadcast()) == '0123:0000:0000:0000:0000:0000:0000:0000')
self.assertFalse('123:456::' in net)
self.assertTrue('123::' in net)
self.assertFalse('::1' in net)
self.assertFalse('123::456' in net)
self.assertTrue(str((net + 6).to_compressed()).lower() == '123::6')
self.assertFalse((net + 6) in net)
self.assertTrue(
str((net - 6).to_compressed()).lower() ==
'122:ffff:ffff:ffff:ffff:ffff:ffff:fffa')
self.assertFalse((net - 6) in net)
def test_ipv6_2(self):
net = Network('::42', 64)
self.assertTrue(
str(net) == '0000:0000:0000:0000:0000:0000:0000:0042/64')
self.assertTrue(str(net.to_compressed()) == '::42')
self.assertTrue(str(net.to_ipv6().to_compressed()) == '::42')
self.assertTrue(net.info() == 'IPV4COMP')
self.assertTrue(net.subnet() == 64)
self.assertTrue(net.size() == 1 << (128 - 64))
self.assertTrue(int(net) == 0x42)
self.assertTrue(
net.hex().lower() == '00000000000000000000000000000042')
self.assertTrue(
str(net.netmask()) == 'ffff:ffff:ffff:ffff:0000:0000:0000:0000')
self.assertTrue(net.version() == 6)
self.assertTrue(
str(net.network()) == '0000:0000:0000:0000:0000:0000:0000:0000')
self.assertTrue(
str(net.broadcast()) == '0000:0000:0000:0000:ffff:ffff:ffff:ffff')
self.assertFalse('123:456::' in net)
self.assertTrue('::aaaa:bbbb:cccc:dddd' in net)
self.assertTrue('::dddd' in net)
self.assertTrue('::1' in net)
self.assertFalse('123::456' in net)
self.assertTrue(str((net + 6).to_compressed()).lower() == '::48')
self.assertTrue((net + 6) in net)
self.assertTrue(str((net - 6).to_compressed()).lower() == '::3c')
self.assertTrue((net - 6) in net)
def get_network(ip_range):
"""
Get network from provided IP
:param ip_range:
:return:
"""
try:
ip = Network(ip_range)
network = "{}/{}".format(str(ip.network()), str(ip.subnet()))
except ValueError as e:
current_app.logger.debug(e)
return
return network
def get_context_data(self, **kwargs):
from django.db.models import Sum
from ipam.models import BLOCK_STATUSES
def search_free(vrf, network, statuses):
"""
Free blocks recursive search
:param vrf: VRF
:type vrf: Vrf
:param network: Network
:type network: Network
"""
f_ip = network.ip
l_ip = network.broadcast_long()
size = network.size()
blocked_size = \
vrf.prefixes().filter(status__in=statuses, first_ip_dec__gte=f_ip, last_ip_dec__lte=l_ip).aggregate(
sum_size=Sum('size'))['sum_size']
if not blocked_size:
blocked_size = 0
if size == blocked_size:
return []
elif blocked_size == 0:
if vrf.prefixes().filter(first_ip_dec__lte=f_ip, last_ip_dec__gte=l_ip):
parent = vrf.prefixes().filter(first_ip_dec__lte=f_ip, last_ip_dec__gte=l_ip).last()
else:
parent = None
if size == 1:
create_url = '{0}?prefix={1}'.format(reverse_lazy('ipam.host4_add', kwargs={'vrf': vrf.name}),
network.dq)
else:
create_url = '{0}?prefix={1}'.format(reverse_lazy('ipam.prefix4_add', kwargs={'vrf': vrf.name}),
network)
return [{'prefix': str(network), 'parent': parent, 'create_url': create_url}]
else:
net_1 = Network('{0}/{1}'.format(network.to_tuple()[0], network.to_tuple()[1] + 1))
net_2 = Network('{0}/{1}'.format(IP(net_1.broadcast_long() + 1).dq, network.subnet() + 1))
return search_free(vrf, net_1, statuses) + search_free(vrf, net_2, statuses)
context = super(FreeBlocks4ReportView, self).get_context_data(**kwargs)
context['page_title'] = u'Free IPv4 Blocks'
if 'vrf' in self.request.GET and 'prefix' in self.request.GET:
if Vrf.objects.filter(name=self.request.GET['vrf']):
net = Network(self.request.GET['prefix'])
if net.dq != net.network():
net = Network('{0}/{1}'.format(net.network(), net.subnet()))
context['report'] = search_free(Vrf.objects.get(name=self.request.GET['vrf']), net, BLOCK_STATUSES)
context['total'] = len(context['report'])
return context
def test_ipv4_3(self):
net = Network("10.10.0.0/255.255.255.0")
self.assertTrue(str(net) == "10.10.0.0/24")
self.assertTrue(str(net.to_ipv6().to_compressed()) == "2002:a0a::")
self.assertTrue(net.info() == "PRIVATE")
self.assertTrue(net.subnet() == 24)
self.assertTrue(net.size() == 1 << (32 - 24))
self.assertTrue(int(net) == 0x0A0A0000)
self.assertTrue(net.hex().lower() == "0a0a0000")
self.assertTrue(str(net.netmask()) == "255.255.255.0")
self.assertTrue(net.version() == 4)
self.assertTrue(str(net.network()) == "10.10.0.0")
self.assertTrue(str(net.broadcast()) == "10.10.0.255")
self.assertFalse("192.168.0.1" in net)
self.assertFalse("192.168.114.128" in net)
self.assertFalse("10.0.0.1" in net)
self.assertTrue("10.10.0.254" in net)
self.assertTrue("10.10.0.100" in net)
def test_ipv4_3(self):
net = Network('10.10.0.0/255.255.255.0')
self.assertTrue(str(net) == '10.10.0.0/24')
self.assertTrue(str(net.to_ipv6().to_compressed()) == '2002:a0a::')
self.assertTrue(net.info() == 'PRIVATE')
self.assertTrue(net.subnet() == 24)
self.assertTrue(net.size() == 1 << (32 - 24))
self.assertTrue(int(net) == 0x0a0a0000)
self.assertTrue(net.hex().lower() == '0a0a0000')
self.assertTrue(str(net.netmask()) == '255.255.255.0')
self.assertTrue(net.version() == 4)
self.assertTrue(str(net.network()) == '10.10.0.0')
self.assertTrue(str(net.broadcast()) == '10.10.0.255')
self.assertFalse('192.168.0.1' in net)
self.assertFalse('192.168.114.128' in net)
self.assertFalse('10.0.0.1' in net)
self.assertTrue('10.10.0.254' in net)
self.assertTrue('10.10.0.100' in net)
def test_ipv4_3(self):
net = Network('10.10.0.0/255.255.255.0')
self.assertTrue(str(net) == '10.10.0.0/24')
self.assertTrue(str(net.to_ipv6().to_compressed()) == '2002:a0a::')
self.assertTrue(net.info() == 'PRIVATE')
self.assertTrue(net.subnet() == 24)
self.assertTrue(net.size() == 1 << (32 - 24))
self.assertTrue(int(net) == 0x0a0a0000)
self.assertTrue(net.hex().lower() == '0a0a0000')
self.assertTrue(str(net.netmask()) == '255.255.255.0')
self.assertTrue(net.version() == 4)
self.assertTrue(str(net.network()) == '10.10.0.0')
self.assertTrue(str(net.broadcast()) == '10.10.0.255')
self.assertFalse('192.168.0.1' in net)
self.assertFalse('192.168.114.128' in net)
self.assertFalse('10.0.0.1' in net)
self.assertTrue('10.10.0.254' in net)
self.assertTrue('10.10.0.100' in net)
def test_ipv4_1(self):
net = Network("192.168.114.42", 23)
self.assertTrue(str(net) == "192.168.114.42/23")
self.assertTrue(str(net.to_ipv6().to_compressed()) == "2002:c0a8:722a::")
self.assertTrue(net.info() == "PRIVATE")
self.assertTrue(net.subnet() == 23)
self.assertTrue(net.size() == 1 << (32 - 23))
self.assertTrue(int(net) == 0xC0A8722A)
self.assertTrue(net.hex().lower() == "c0a8722a")
self.assertTrue(str(net.netmask()) == "255.255.254.0")
self.assertTrue(net.version() == 4)
self.assertTrue(str(net.network()) == "192.168.114.0")
self.assertTrue(str(net.broadcast()) == "192.168.115.255")
self.assertFalse("192.168.0.1" in net)
self.assertTrue("192.168.114.128" in net)
self.assertFalse("10.0.0.1" in net)
self.assertTrue(str(net + 6) == "192.168.114.48/23")
self.assertTrue((net + 6) in net)
self.assertTrue(str(net - 6) == "192.168.114.36/23")
self.assertTrue((net - 6) in net)
def test_ipv6_4(self):
net = Network("2001:dead:beef:1:c01d:c01a::", "ffff:ffff:ffff::")
self.assertTrue(str(net) == "2001:dead:beef:0001:c01d:c01a:0000:0000/48")
self.assertTrue(str(net.to_compressed()) == "2001:dead:beef:1:c01d:c01a::")
self.assertTrue(str(net.to_ipv6().to_compressed()) == "2001:dead:beef:1:c01d:c01a::")
self.assertTrue(net.info() == "UNKNOWN")
self.assertTrue(net.subnet() == 48)
self.assertTrue(net.size() == 1 << (128 - 48))
self.assertTrue(int(net) == 0x2001DEADBEEF0001C01DC01A00000000)
self.assertTrue(net.hex().lower() == "2001deadbeef0001c01dc01a00000000")
self.assertTrue(str(net.netmask()) == "ffff:ffff:ffff:0000:0000:0000:0000:0000")
self.assertTrue(net.version() == 6)
self.assertTrue(str(net.network()) == "2001:dead:beef:0000:0000:0000:0000:0000")
self.assertTrue(str(net.broadcast()) == "2001:dead:beef:ffff:ffff:ffff:ffff:ffff")
self.assertFalse("123:456::" in net)
self.assertFalse("::aaaa:bbbb:cccc:dddd" in net)
self.assertFalse("::dddd" in net)
self.assertFalse("::1" in net)
self.assertFalse("123::456" in net)
self.assertTrue("2001:dead:beef:babe::1234" in net)
def test_ipv4_1(self):
net = Network('192.168.114.42', 23)
self.assertTrue(str(net) == '192.168.114.42/23')
self.assertTrue(str(net.to_ipv6().to_compressed()) == '2002:c0a8:722a::')
self.assertTrue(net.info() == 'PRIVATE')
self.assertTrue(net.subnet() == 23)
self.assertTrue(net.size() == 1 << (32 - 23))
self.assertTrue(int(net) == 0xc0a8722a)
self.assertTrue(net.hex().lower() == 'c0a8722a')
self.assertTrue(str(net.netmask()) == '255.255.254.0')
self.assertTrue(net.version() == 4)
self.assertTrue(str(net.network()) == '192.168.114.0')
self.assertTrue(str(net.broadcast()) == '192.168.115.255')
self.assertFalse('192.168.0.1' in net)
self.assertTrue('192.168.114.128' in net)
self.assertFalse('10.0.0.1' in net)
self.assertTrue(str(net + 6) == '192.168.114.48/23')
self.assertTrue((net + 6) in net)
self.assertTrue(str(net - 6) == '192.168.114.36/23')
self.assertTrue((net - 6) in net)
def test_ipv6_4(self):
net = Network('2001:dead:beef:1:c01d:c01a::', 'ffff:ffff:ffff::')
self.assertTrue(str(net) == '2001:dead:beef:0001:c01d:c01a:0000:0000/48')
self.assertTrue(str(net.to_compressed()) == '2001:dead:beef:1:c01d:c01a::')
self.assertTrue(str(net.to_ipv6().to_compressed()) == '2001:dead:beef:1:c01d:c01a::')
self.assertTrue(net.info() == 'UNKNOWN')
self.assertTrue(net.subnet() == 48)
self.assertTrue(net.size() == 1 << (128 - 48))
self.assertTrue(int(net) == 0x2001deadbeef0001c01dc01a00000000)
self.assertTrue(net.hex().lower() == '2001deadbeef0001c01dc01a00000000')
self.assertTrue(str(net.netmask()) == 'ffff:ffff:ffff:0000:0000:0000:0000:0000')
self.assertTrue(net.version() == 6)
self.assertTrue(str(net.network()) == '2001:dead:beef:0000:0000:0000:0000:0000')
self.assertTrue(str(net.broadcast()) == '2001:dead:beef:ffff:ffff:ffff:ffff:ffff')
self.assertFalse('123:456::' in net)
self.assertFalse('::aaaa:bbbb:cccc:dddd' in net)
self.assertFalse('::dddd' in net)
self.assertFalse('::1' in net)
self.assertFalse('123::456' in net)
self.assertTrue('2001:dead:beef:babe::1234' in net)
def test_ipv4_1(self):
net = Network('192.168.114.42', 23)
self.assertTrue(str(net) == '192.168.114.42/23')
self.assertTrue(
str(net.to_ipv6().to_compressed()) == '2002:c0a8:722a::')
self.assertTrue(net.info() == 'PRIVATE')
self.assertTrue(net.subnet() == 23)
self.assertTrue(net.size() == 1 << (32 - 23))
self.assertTrue(int(net) == 0xc0a8722a)
self.assertTrue(net.hex().lower() == 'c0a8722a')
self.assertTrue(str(net.netmask()) == '255.255.254.0')
self.assertTrue(net.version() == 4)
self.assertTrue(str(net.network()) == '192.168.114.0')
self.assertTrue(str(net.broadcast()) == '192.168.115.255')
self.assertFalse('192.168.0.1' in net)
self.assertTrue('192.168.114.128' in net)
self.assertFalse('10.0.0.1' in net)
self.assertTrue(str(net + 6) == '192.168.114.48/23')
self.assertTrue((net + 6) in net)
self.assertTrue(str(net - 6) == '192.168.114.36/23')
self.assertTrue((net - 6) in net)
def test_ipv6_1(self):
net = Network('123::', 128)
self.assertTrue(str(net) == '0123:0000:0000:0000:0000:0000:0000:0000/128')
self.assertTrue(str(net.to_compressed()) == '123::')
self.assertTrue(str(net.to_ipv6().to_compressed()) == '123::')
self.assertTrue(net.info() == 'UNKNOWN')
self.assertTrue(net.subnet() == 128)
self.assertTrue(net.size() == 1 << (128 - 128))
self.assertTrue(int(net) == (0x123<<112))
self.assertTrue(net.hex().lower() == '01230000000000000000000000000000')
self.assertTrue(str(net.netmask()) == 'ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff')
self.assertTrue(net.version() == 6)
self.assertTrue(str(net.network()) == '0123:0000:0000:0000:0000:0000:0000:0000')
self.assertTrue(str(net.broadcast()) == '0123:0000:0000:0000:0000:0000:0000:0000')
self.assertFalse('123:456::' in net)
self.assertTrue('123::' in net)
self.assertFalse('::1' in net)
self.assertFalse('123::456' in net)
self.assertTrue(str((net + 6).to_compressed()).lower() == '123::6')
self.assertFalse((net + 6) in net)
self.assertTrue(str((net - 6).to_compressed()).lower() == '122:ffff:ffff:ffff:ffff:ffff:ffff:fffa')
self.assertFalse((net - 6) in net)
def test_ipv6_1(self):
net = Network("123::", 128)
self.assertTrue(str(net) == "0123:0000:0000:0000:0000:0000:0000:0000/128")
self.assertTrue(str(net.to_compressed()) == "123::")
self.assertTrue(str(net.to_ipv6().to_compressed()) == "123::")
self.assertTrue(net.info() == "UNKNOWN")
self.assertTrue(net.subnet() == 128)
self.assertTrue(net.size() == 1 << (128 - 128))
self.assertTrue(int(net) == (0x123 << 112))
self.assertTrue(net.hex().lower() == "01230000000000000000000000000000")
self.assertTrue(str(net.netmask()) == "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff")
self.assertTrue(net.version() == 6)
self.assertTrue(str(net.network()) == "0123:0000:0000:0000:0000:0000:0000:0000")
self.assertTrue(str(net.broadcast()) == "0123:0000:0000:0000:0000:0000:0000:0000")
self.assertFalse("123:456::" in net)
self.assertTrue("123::" in net)
self.assertFalse("::1" in net)
self.assertFalse("123::456" in net)
self.assertTrue(str((net + 6).to_compressed()).lower() == "123::6")
self.assertFalse((net + 6) in net)
self.assertTrue(str((net - 6).to_compressed()).lower() == "122:ffff:ffff:ffff:ffff:ffff:ffff:fffa")
self.assertFalse((net - 6) in net)
def test_ipv6_2(self):
net = Network('::42', 64)
self.assertTrue(str(net) == '0000:0000:0000:0000:0000:0000:0000:0042/64')
self.assertTrue(str(net.to_compressed()) == '::42')
self.assertTrue(str(net.to_ipv6().to_compressed()) == '::42')
self.assertTrue(net.info() == 'IPV4COMP')
self.assertTrue(net.subnet() == 64)
self.assertTrue(net.size() == 1 << (128 - 64))
self.assertTrue(int(net) == 0x42)
self.assertTrue(net.hex().lower() == '00000000000000000000000000000042')
self.assertTrue(str(net.netmask()) == 'ffff:ffff:ffff:ffff:0000:0000:0000:0000')
self.assertTrue(net.version() == 6)
self.assertTrue(str(net.network()) == '0000:0000:0000:0000:0000:0000:0000:0000')
self.assertTrue(str(net.broadcast()) == '0000:0000:0000:0000:ffff:ffff:ffff:ffff')
self.assertFalse('123:456::' in net)
self.assertTrue('::aaaa:bbbb:cccc:dddd' in net)
self.assertTrue('::dddd' in net)
self.assertTrue('::1' in net)
self.assertFalse('123::456' in net)
self.assertTrue(str((net + 6).to_compressed()).lower() == '::48')
self.assertTrue((net + 6) in net)
self.assertTrue(str((net - 6).to_compressed()).lower() == '::3c')
self.assertTrue((net - 6) in net)
def test_ipv6_2(self):
net = Network("::42", 64)
self.assertTrue(str(net) == "0000:0000:0000:0000:0000:0000:0000:0042/64")
self.assertTrue(str(net.to_compressed()) == "::42")
self.assertTrue(str(net.to_ipv6().to_compressed()) == "::42")
self.assertTrue(net.info() == "IPV4COMP")
self.assertTrue(net.subnet() == 64)
self.assertTrue(net.size() == 1 << (128 - 64))
self.assertTrue(int(net) == 0x42)
self.assertTrue(net.hex().lower() == "00000000000000000000000000000042")
self.assertTrue(str(net.netmask()) == "ffff:ffff:ffff:ffff:0000:0000:0000:0000")
self.assertTrue(net.version() == 6)
self.assertTrue(str(net.network()) == "0000:0000:0000:0000:0000:0000:0000:0000")
self.assertTrue(str(net.broadcast()) == "0000:0000:0000:0000:ffff:ffff:ffff:ffff")
self.assertFalse("123:456::" in net)
self.assertTrue("::aaaa:bbbb:cccc:dddd" in net)
self.assertTrue("::dddd" in net)
self.assertTrue("::1" in net)
self.assertFalse("123::456" in net)
self.assertTrue(str((net + 6).to_compressed()).lower() == "::48")
self.assertTrue((net + 6) in net)
self.assertTrue(str((net - 6).to_compressed()).lower() == "::3c")
self.assertTrue((net - 6) in net)
