class CNAMEStaticRegTests(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="10")
self.r1.save()
self.n = System()
self.n.clean()
self.n.save()
def do_add_intr(self, mac, label, domain, ip_str, ip_type='4'):
r = StaticInterface(mac=mac, label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=self.n)
r.clean()
r.save()
repr(r)
return r
def test1_delete_cname(self):
mac = "11:22:33:44:55:66"
label = "foo4"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
i = self.do_add_intr(**kwargs)
cn, _ = CNAME.objects.get_or_create(label='foo', domain=domain,
target=label + "." + domain.name)
self.assertRaises(ValidationError, i.delete)
def test1_delete_override(self):
mac = "12:22:33:44:55:66"
label = "foo6"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
i = self.do_add_intr(**kwargs)
cn, _ = CNAME.objects.get_or_create(label='food', domain=domain,
target=label + "." + domain.name)
i.delete(check_cname=False)
class StaticIntrV6APITests(MozdnsAPITests, ResourceTestCase):
test_type = StaticInterface
def setUp(self):
create_fake_zone('2.ip6.arpa', suffix="")
super(StaticIntrV6APITests, self).setUp()
self.s = System(hostname="foobar")
self.s.save()
def compare_data(self, old_data, new_obj_data):
for key in old_data.keys():
if key == 'iname' or key == 'system':
continue # StaticInterface needs this done. Too lazy to factor
# a comparison function out
self.assertEqual(old_data[key], new_obj_data[key])
def post_data(self):
return {
'description': random_label(),
'ttl': random_byte(),
'fqdn': 'p' + random_label() + "." + self.domain.name,
'iname': 'mgmt4',
'dhcp_enabled': True,
'dns_enabled': True,
'mac': '11:22:33:44:55:00',
'system': '/tasty/v3/system/{0}/'.format(self.s.pk),
'ip_str': "2000:a{0}:a{1}:a{2}::".format(
random_byte(), random_byte(), random_byte()),
'ip_type': '6'
}
class DeleteStaticInterTests(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="10")
self.r1.save()
self.n = System()
self.n.clean()
self.n.save()
View.objects.get_or_create(name="private")
def do_add(self, mac, label, domain, ip_str, system, ip_type='4'):
r = StaticInterface(mac=mac, label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=system)
r.clean()
r.save()
return r
def do_delete(self, r):
ip_str = r.ip_str
fqdn = r.fqdn
r.delete()
self.assertFalse(
AddressRecord.objects.filter(ip_str=ip_str, fqdn=fqdn))
def test1_delete_basic(self):
# Does deleting a system delete it's interfaces?
mac = "11:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
system = System(hostname="foo")
system.save()
kwargs = {
'mac': mac, 'label': label, 'domain': domain, 'ip_str': ip_str,
'system': system}
self.do_add(**kwargs)
self.assertTrue(StaticInterface.objects.filter(**kwargs))
system.delete()
self.assertFalse(StaticInterface.objects.filter(**kwargs))
def create(self, request, system_id=None):
s = System()
s.hostname = system_id
try:
s.save()
resp = rc.CREATED
resp.write('json = {"id":%i, "hostname":"%s"}' % (s.id, s.hostname))
except:
resp = rc.BAD_REQUEST
resp.write("Unable to Create Host")
return resp
def create(self, request, system_id=None):
s = System()
s.hostname = system_id
try:
s.save()
resp = rc.CREATED
resp.write('json = {"id":%i, "hostname":"%s"}' % (s.id, s.hostname))
except:
resp = rc.BAD_REQUEST
resp.write('Unable to Create Host')
return resp
def test1_delete_basic(self):
# Does deleting a system delete it's interfaces?
mac = "11:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
system = System(hostname="foo")
system.save()
kwargs = {
'mac': mac, 'label': label, 'domain': domain, 'ip_str': ip_str,
'system': system}
self.do_add(**kwargs)
self.assertTrue(StaticInterface.objects.filter(**kwargs))
system.delete()
self.assertFalse(StaticInterface.objects.filter(**kwargs))
class StaticIntrV4APITests(MozdnsAPITests, ResourceTestCase):
test_type = StaticInterface
def setUp(self):
create_fake_zone('11.in-addr.arpa', suffix="")
super(StaticIntrV4APITests, self).setUp()
self.s = System(hostname="foobar")
self.s.save()
def compare_data(self, old_data, new_obj_data):
for key in old_data.keys():
if key == 'system_hostname':
self.assertEqual(
old_data[key], new_obj_data['system']['hostname'])
continue
if key in ('iname', 'system'):
continue # StaticInterface needs this done. Too lazy to factor
# a comparison function out
self.assertEqual(old_data[key], new_obj_data[key])
def test_create_hostname(self):
post_data = self.post_data()
del post_data['system']
post_data['system_hostname'] = self.s.hostname
resp, post_data = self.generic_create(post_data)
new_object_url = resp['Location']
new_resp = self.api_client.get(
new_object_url, format='json', follow=True
)
self.assertValidJSONResponse(new_resp)
new_obj_data = json.loads(new_resp.content)
self.compare_data(post_data, new_obj_data)
def post_data(self):
return {
'description': 'm' + random_label(),
'ttl': random_byte(),
'mac': '11:22:33:44:55:00',
'system': '/tasty/v3/system/{0}/'.format(self.s.pk),
'fqdn': 'a' + random_label() + "." + self.domain.name,
'iname': 'eth2.4',
'dhcp_enabled': False,
'dns_enabled': True,
'ip_str': "11.255.{0}.{1}".format(random_byte(), random_byte()),
'ip_type': '4'
}
def do_add(self, mac, label, domain, ip_str, ip_type='4'):
self.n = System()
r = StaticInterface(mac=mac, label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=self.n)
r.clean()
r.save()
repr(r)
return r
def create_fake_host(**kwargs):
"""
This is a factory for building valid Systems. This factory should be used
instead of calling System methods directly for making new systems made for
testing.
If a new field ever becomes required we can make sure it is filled in here
instead of updating every test that creates a new System.
"""
if 'system_type' in kwargs:
system_type = kwargs.pop('system_type')
else:
type_name = random_str()
while SystemType.objects.filter(type_name=type_name).exists():
type_name = random_str()
system_type, _ = SystemType.objects.get_or_create(type_name=type_name)
if 'allocation' in kwargs:
allocation = kwargs.pop('allocation')
else:
allocation_name = random_str()
while Allocation.objects.filter(name=allocation_name).exists():
allocation_name = random_str()
allocation, _ = Allocation.objects.get_or_create(name=allocation_name)
if 'serial' in kwargs:
serial = kwargs.pop('serial')
else:
serial = random_str()
while System.objects.filter(serial=serial).exists():
type_name = random_str()
save = kwargs.pop('save', True)
s = System(
allocation=allocation,
serial=serial,
system_type=system_type,
warranty_start=datetime.datetime.now(),
warranty_end=datetime.datetime.now(),
**kwargs
)
if save:
s.save()
return s
def create_fake_host(**kwargs):
"""
This is a factory for building valid Systems. This factory should be used
instead of calling System methods directly for making new systems made for
testing.
If a new field ever becomes required we can make sure it is filled in here
instead of updating every test that creates a new System.
"""
if 'system_type' in kwargs:
system_type = kwargs.pop('system_type')
else:
type_name = random_str()
while SystemType.objects.filter(type_name=type_name).exists():
type_name = random_str()
system_type, _ = SystemType.objects.get_or_create(type_name=type_name)
if 'allocation' in kwargs:
allocation = kwargs.pop('allocation')
else:
allocation_name = random_str()
while Allocation.objects.filter(name=allocation_name).exists():
allocation_name = random_str()
allocation, _ = Allocation.objects.get_or_create(name=allocation_name)
if 'serial' in kwargs:
serial = kwargs.pop('serial')
else:
serial = random_str()
while System.objects.filter(serial=serial).exists():
type_name = random_str()
save = kwargs.pop('save', True)
s = System(allocation=allocation,
serial=serial,
system_type=system_type,
warranty_start=datetime.datetime.now(),
warranty_end=datetime.datetime.now(),
**kwargs)
if save:
s.save()
return s
def setUp(self):
self.g = create_fake_zone("gz", suffix="")
self.c_g = create_fake_zone("coo.gz", suffix="")
self.d = create_fake_zone("dz", suffix="")
self.r1 = create_fake_zone("10.in-addr.arpa", suffix="")
self.r1.save()
self.s = System()
self.s.save()
def service_import_set_systems(self, hostnames):
# Note: Make sure to call save() after calling this function
self.systems.clear()
for hostname in hostnames:
try:
system = System.objects.get(hostname=hostname)
except System.DoesNotExist:
raise System.DoesNotExist(
"The system with hostname '{0}' does not "
"exist".format(hostname))
self.systems.add(system)
def service_import_set_site(self, site_name):
try:
if not site_name or site_name.title() == 'None':
site = None
else:
site = Site.objects.get(full_name=site_name)
except Site.DoesNotExist:
raise System.DoesNotExist(
"The site with name '{0}' does not exist".format(site_name))
self.site = site
def set_kv(self, key, value):
key_str = "nic.{0}.{1}.{2}".format(self.primary, key, self.alias)
kv = self.obj.keyvalue_set.filter(key=key_str)
if kv:
kv = kv[0]
kv.value = value
kv.save()
else:
kv = System.KeyValue(key=key_str, value=str(value))
kv.save()
setattr(self, key, value)
return
def system_import(blob):
if 'pk' in blob:
try:
system = System.objects.get(pk=blob['pk'])
return system_update(system, blob)
except System.DoesNotExist:
raise BadImportData(
bad_blob=blob,
msg='Could not find the System with primary key '
'{0}.'.format(blob['pk']))
else:
recurse_confirm_no_pk(blob)
system = System()
return system_update(system, blob)
def test2(self):
ip_start = "10.0.1.0"
ip_end = "10.0.1.99"
ptr = PTR(name="foo.mz", ip_str="10.0.1.3", ip_type='4')
ptr.full_clean()
ptr.save()
a = AddressRecord(label="foo", domain=self.domain, ip_str="10.0.1.3",
ip_type='4')
a.full_clean()
a.save()
s = System()
s.save()
intr = StaticInterface(
label="foo", domain=self.domain, ip_str="10.0.1.4",
ip_type='4', system=s, mac="00:11:22:33:44:55")
intr.full_clean()
intr.save()
istart, iend, ipf_q = start_end_filter(ip_start, ip_end, '4')
addrs = list(AddressRecord.objects.filter(ipf_q).
order_by('ip_lower').order_by('ip_upper'))
ptrs = list(PTR.objects.filter(ipf_q).
order_by('ip_lower').order_by('ip_upper'))
intrs = list(StaticInterface.objects.filter(ipf_q).
order_by('ip_lower').order_by('ip_upper'))
self.assertEqual(a.pk, addrs[0].pk)
self.assertEqual(ptr.pk, ptrs[0].pk)
self.assertEqual(intr.pk, intrs[0].pk)
range_details = range_usage(ip_start, ip_end, '4')
self.assertEqual(98, range_details['unused'])
self.assertEqual(2, range_details['used'])
self.assertEqual([(int(istart) + 0, int(istart) + 2),
(int(istart) + 5, int(istart) + 99)],
range_details['free_ranges'])
def bulk_action_export(request):
search = request.GET.get('q', '')
if not search:
return HttpResponse(dumps({'errors': 'what do you want?'}))
q_map, errors = compile_to_q(search)
if errors:
return HttpResponse(dumps({'errors': errors}))
try: # We might have to catch shitty regular expressions
bundles = System.get_bulk_action_list(q_map['SYS'])
except OperationalError as why:
return HttpResponse(dumps({'error_messages': str(why)}))
pprint.pprint(bundles)
return HttpResponse(dumps({'systems': bundles}))
def bulk_action_export(request):
search = request.GET.get('q', '')
if not search:
return HttpResponse(dumps({'errors': 'what do you want?'}))
q_map, errors = compile_to_q(search)
if errors:
return HttpResponse(dumps({'errors': errors}))
try: # We might have to catch shitty regular expressions
bundles = System.get_bulk_action_list(q_map['SYS'])
except OperationalError as why:
return HttpResponse(dumps({'error_messages': str(why)}))
pprint.pprint(bundles)
return HttpResponse(dumps({'systems': bundles}))
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="10")
self.r1.save()
self.n = System()
self.n.clean()
self.n.save()
def import_services(cls, services):
"""
Import a json blob that has the same format generated by the
Service.export_services function. This function may raise a
System.DoesNotExist, Service.DoesNotExist, ValueError, or
Site.DoesNotExist excpetion. The caller should handle these accordingly
This function does not manage transactions itself but should probably
be ran in a transaction
"""
for service_blob in services:
try:
site = service_blob.get('site', None)
if site:
site = Site.objects.get(full_name=site)
if 'pk' in service_blob:
service = Service.objects.get(pk=service_blob['pk'])
else:
service, created = Service.objects.get_or_create(
name=service_blob.get('name', ''), site=site)
except Service.DoesNotExist:
raise Service.DoesNotExist(
"The service with pk '{0}' does not "
"exist".format(service_blob['pk']))
except Site.DoesNotExist:
raise System.DoesNotExist(
"The service with name '{0}' is asking for a site '{1}' "
"that does not exist".format(
service_blob.get('name', 'None'),
service_blob.get('site', 'None')))
# set all the fields on the service we are importing
for field, value in service_blob.iteritems():
if field == 'systems':
service.service_import_set_systems(value)
elif field == 'parent_service':
service.service_import_set_parent_service(value)
elif field == 'site':
service.service_import_set_site(value)
elif field == 'pk':
# lets not let the user shoot themselves in the foot
continue
elif field == 'depends_on':
service.service_import_set_depends_on(value)
else:
service.service_import_set_field(field, value)
service.save()
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="10")
self.r1.save()
self.n = System()
self.n.clean()
self.n.save()
View.objects.get_or_create(name="private")
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='ip6.arpa', ip_type='6')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="0", ip_type='6')
self.r1.save()
self.r2 = self.create_domain(name="1", ip_type='6')
self.r2.save()
self.n = System()
self.n.clean()
self.n.save()
def setUp(self):
self.r1 = create_fake_zone("10.in-addr.arpa", suffix="")
self.sr = self.r1.soa
self.sr.dirty = False
self.sr.save()
self.dom = create_fake_zone("bgaz", suffix="")
self.soa = self.dom.soa
self.soa.dirty = False
self.soa.save()
self.rdom = create_fake_zone("123.in-addr.arpa", suffix="")
self.rsoa = self.r1.soa
self.rsoa.dirty = False
self.rsoa.save()
self.s = System()
self.s.save()
def setUp(self):
self.factory = RequestFactory()
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.i6_arpa = self.create_domain(name='ip6.arpa')
self.i6_arpa.save()
self.r = Domain(name="ru")
self.r.save()
self.f_r = Domain(name="foo.ru")
self.f_r.save()
self.b_f_r = Domain(name="bar.foo.ru")
self.b_f_r.save()
self.f = Domain(name="fam")
self.f.save()
self._128 = self.create_domain(name='128', ip_type='4')
self._128.save()
self.s = System()
self.s.save()
class AuxAttrTests(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="10")
self.r1.save()
self.n = System()
self.n.clean()
self.n.save()
def do_add(self, mac, label, domain, ip_str, ip_type='4'):
self.n = System()
r = StaticInterface(mac=mac, label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=self.n)
r.clean()
r.save()
repr(r)
return r
def do_delete(self, r):
ip_str = r.ip_str
fqdn = r.fqdn
r.delete()
self.assertFalse(
AddressRecord.objects.filter(ip_str=ip_str, fqdn=fqdn))
def test1_create(self):
mac = "11:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
intr = self.do_add(**kwargs)
intr.update_attrs()
def bad_get():
intr.attrs.primary
self.assertRaises(AttributeError, bad_get)
x = StaticIntrKeyValue.objects.filter(key='primary', obj=intr)
self.assertFalse(x)
intr.attrs.primary = '1'
self.assertEqual(intr.attrs.cache['primary'], '1')
self.assertEqual(intr.attrs.primary, '1')
x = StaticIntrKeyValue.objects.filter(key='primary', obj=intr)
self.assertEqual(x[0].value, '1')
def test6_create(self):
mac = "24:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
intr = self.do_add(**kwargs)
intr.update_attrs()
intr.update_attrs()
intr.update_attrs()
def bad_get():
intr.attrs.primary
self.assertRaises(AttributeError, bad_get)
intr.attrs.primary = '1'
self.assertEqual(intr.attrs.primary, '1')
self.assertEqual(intr.attrs.cache['primary'], '1')
def test2_create(self):
mac = "13:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
intr = self.do_add(**kwargs)
intr.update_attrs()
intr.attrs.primary = '2'
self.assertEqual(intr.attrs.primary, '2')
self.assertEqual(intr.attrs.cache['primary'], '2')
del intr.attrs.primary
def bad_get():
intr.attrs.primary
self.assertRaises(AttributeError, bad_get)
intr.attrs.primary = '3'
self.assertEqual(intr.attrs.primary, '3')
self.assertEqual(intr.attrs.cache['primary'], '3')
def test1_del(self):
mac = "12:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
intr = self.do_add(**kwargs)
intr.update_attrs()
intr.attrs.primary = '88'
self.assertEqual(intr.attrs.primary, '88')
del intr.attrs.primary
def bad_get():
intr.attrs.primary
self.assertRaises(AttributeError, bad_get)
def test3_create(self):
mac = "19:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
intr = self.do_add(**kwargs)
intr.update_attrs()
def bad_assign():
intr.attrs.primary = 'a'
self.assertRaises(ValidationError, bad_assign)
def test1_existing_attrs(self):
mac = "19:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
intr = self.do_add(**kwargs)
StaticIntrKeyValue(key="foo", value="bar", obj=intr).save()
StaticIntrKeyValue(
key="interface_type", value="eth0", obj=intr).save()
StaticIntrKeyValue(key="alias", value="5", obj=intr).save()
intr.update_attrs()
self.assertEqual(intr.attrs.alias, '5')
self.assertEqual(intr.attrs.cache['alias'], '5')
self.assertEqual(intr.attrs.interface_type, 'eth0')
self.assertEqual(intr.attrs.cache['interface_type'], 'eth0')
self.assertEqual(intr.attrs.foo, 'bar')
self.assertEqual(intr.attrs.cache['foo'], 'bar')
class DirtySOATests(TestCase):
def setUp(self):
self.r1 = create_fake_zone("10.in-addr.arpa", suffix="")
self.sr = self.r1.soa
self.sr.dirty = False
self.sr.save()
self.dom = create_fake_zone("bgaz", suffix="")
self.soa = self.dom.soa
self.soa.dirty = False
self.soa.save()
self.rdom = create_fake_zone("123.in-addr.arpa", suffix="")
self.rsoa = self.r1.soa
self.rsoa.dirty = False
self.rsoa.save()
self.s = System()
self.s.save()
def test_print_soa(self):
self.assertTrue(self.soa.bind_render_record() not in ('', None))
self.assertTrue(self.rsoa.bind_render_record() not in ('', None))
def generic_dirty(self, Klass, create_data, update_data, local_soa):
Task.dns.all().delete() # Delete all tasks
local_soa.dirty = False
local_soa.save()
rec = Klass(**create_data)
rec.full_clean()
rec.save()
self.assertTrue(rec.bind_render_record() not in ('', None))
local_soa = SOA.objects.get(pk=local_soa.pk)
self.assertTrue(local_soa.dirty)
self.assertEqual(1, Task.dns.all().count())
# Now try updating
Task.dns.all().delete() # Delete all tasks
local_soa.dirty = False
local_soa.save()
local_soa = SOA.objects.get(pk=local_soa.pk)
self.assertFalse(local_soa.dirty)
for k, v in update_data.iteritems():
setattr(rec, k, v)
rec.save()
local_soa = SOA.objects.get(pk=local_soa.pk)
self.assertTrue(local_soa.dirty)
self.assertEqual(1, Task.dns.all().count())
# Now delete
Task.dns.all().delete() # Delete all tasks
local_soa.dirty = False
local_soa.save()
local_soa = SOA.objects.get(pk=local_soa.pk)
self.assertFalse(local_soa.dirty)
rec.delete()
local_soa = SOA.objects.get(pk=local_soa.pk)
self.assertTrue(local_soa.dirty)
self.assertEqual(1, Task.dns.all().count())
def test_dirty_a(self):
create_data = {
'label': 'asdf',
'domain': self.dom,
'ip_str': '10.2.3.1',
'ip_type': '4'
}
update_data = {
'label': 'asdfx',
}
self.generic_dirty(AddressRecord, create_data, update_data, self.soa)
def test_dirty_intr(self):
create_data = {
'label': 'asdf1',
'domain': self.dom,
'ip_str': '10.2.3.1',
'ip_type': '4',
'system': self.s,
'mac': '11:22:33:44:55:66'
}
update_data = {
'label': 'asdfx1',
}
self.generic_dirty(StaticInterface, create_data, update_data, self.soa)
def test_dirty_cname(self):
create_data = {
'label': 'asdf2',
'domain': self.dom,
'target': 'foo.bar.com',
}
update_data = {
'label': 'asdfx2',
}
self.generic_dirty(CNAME, create_data, update_data, self.soa)
def test_dirty_ptr(self):
create_data = {
'ip_str': '10.2.3.4',
'ip_type': '4',
'name': 'foo.bar.com',
}
update_data = {
'label': 'asdfx2',
}
self.generic_dirty(PTR, create_data, update_data, local_soa=self.sr)
def test_dirty_mx(self):
create_data = {
'label': '',
'domain': self.dom,
'priority': 10,
'server': 'foo.bar.com',
}
update_data = {
'label': 'asdfx3',
}
self.generic_dirty(MX, create_data, update_data, self.soa)
def test_dirty_ns(self):
create_data = {
'domain': self.dom,
'server': 'foo.bar.com',
}
update_data = {
'label': 'asdfx4',
}
self.generic_dirty(Nameserver, create_data, update_data, self.soa)
def test_dirty_soa(self):
self.soa.dirty = False
self.soa.refresh = 123
self.soa.save()
self.assertTrue(self.soa.dirty)
def test_dirty_srv(self):
create_data = {
'label': '_asdf7',
'domain': self.dom,
'priority': 10,
'port': 10,
'weight': 10,
'target': 'foo.bar.com',
}
update_data = {
'label': '_asdfx4',
}
self.generic_dirty(SRV, create_data, update_data, self.soa)
def test_dirty_txt(self):
create_data = {
'label': 'asdf8',
'domain': self.dom,
'txt_data': 'some shit',
}
update_data = {
'label': 'asdfx5',
}
self.generic_dirty(TXT, create_data, update_data, self.soa)
class Meta:
queryset = System.objects.all()
fields = System.get_api_fields()
always_return_data = True
authorization = Authorization()
allowed_methods = allowed_methods
class CNAMETests(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.g = create_fake_zone("gz", suffix="")
self.c_g = create_fake_zone("coo.gz", suffix="")
self.d = create_fake_zone("dz", suffix="")
self.r1 = create_fake_zone("10.in-addr.arpa", suffix="")
self.r1.save()
self.s = System()
self.s.save()
def do_add(self, label, domain, data):
cn = CNAME(label=label, domain=domain, target=data)
cn.full_clean()
cn.save()
cn.save()
self.assertTrue(cn.get_absolute_url())
self.assertTrue(cn.get_edit_url())
self.assertTrue(cn.get_delete_url())
self.assertTrue(cn.details())
cs = CNAME.objects.filter(
label=label, domain=domain, target=data)
self.assertEqual(len(cs), 1)
return cn
def test_add(self):
label = "foo"
domain = self.g
data = "foo.com"
self.do_add(label, domain, data)
label = "boo"
domain = self.c_g
data = "foo.foo.com"
self.do_add(label, domain, data)
label = "fo1"
domain = self.g
data = "foo.com"
self.do_add(label, domain, data)
self.assertRaises(ValidationError, self.do_add, *(label, domain, data))
label = "adsf"
domain = self.c_g
data = "foo.com"
self.do_add(label, domain, data)
def test1_add_glob(self):
label = "*foo"
domain = self.g
data = "foo.com"
self.do_add(label, domain, data)
label = "*"
domain = self.c_g
data = "foo.foo.com"
self.do_add(label, domain, data)
label = "*.fo1"
domain = self.g
data = "foo.com"
self.assertRaises(ValidationError, self.do_add, *(label, domain, data))
label = "*sadfasfd-asdf"
domain = self.g
data = "foo.com"
self.do_add(label, domain, data)
def test2_add_glob(self):
label = "*coo"
domain = self.g
data = "foo.com"
self.do_add(label, domain, data)
label = "*"
domain = self.c_g
data = "foo.com"
self.do_add(label, domain, data)
def test_soa_condition(self):
label = ""
domain = self.c_g
data = "foo.com"
self.assertRaises(ValidationError, self.do_add, *(label, domain, data))
def test_add_bad(self):
label = ""
domain = self.g
data = "..foo.com"
self.assertRaises(ValidationError, self.do_add, *(label, domain, data))
def test_add_mx_with_cname(self):
label = "cnamederp1"
domain = self.c_g
data = "foo.com"
fqdn = label + '.' + domain.name
mx_data = {'label': '', 'domain': self.c_g, 'server':
fqdn, 'priority': 2, 'ttl': 2222}
mx = MX(**mx_data)
mx.save()
cn = CNAME(label=label, domain=domain, target=data)
self.assertRaises(ValidationError, cn.full_clean)
def test_address_record_exists(self):
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
rec, _ = AddressRecord.objects.get_or_create(
label=label, domain=dom, ip_type='4', ip_str="128.193.1.1")
cn = CNAME(label=label, domain=dom, target=data)
self.assertRaises(ValidationError, cn.full_clean)
def test_address_record_exists_upper_case(self):
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
rec, _ = AddressRecord.objects.get_or_create(
label=label, domain=dom, ip_type='4', ip_str="128.193.1.1")
cn = CNAME(label=label.title(), domain=dom, target=data)
self.assertRaises(ValidationError, cn.full_clean)
def test_address_record_cname_exists(self):
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
CNAME.objects.get_or_create(label=label, domain=dom, target=data)
rec = AddressRecord(label=label, domain=dom, ip_str="128.193.1.1")
self.assertRaises(ValidationError, rec.save)
def test_address_record_cname_exists_upper(self):
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
CNAME.objects.get_or_create(label=label, domain=dom, target=data)
rec = AddressRecord(
label=label.title(), domain=dom, ip_str="128.193.1.1")
self.assertRaises(ValidationError, rec.save)
def test_srv_exists(self):
label = "_testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
rec, _ = SRV.objects.get_or_create(
label=label, domain=dom, target="asdf",
port=2, priority=2, weight=4)
cn = CNAME(label=label, domain=dom, target=data)
self.assertRaises(ValidationError, cn.full_clean)
def test_srv_cname_exists(self):
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
CNAME.objects.get_or_create(
label=label, domain=dom, target=data)
rec = SRV(label=label, domain=dom, target="asdf",
port=2, priority=2, weight=4)
self.assertRaises(ValidationError, rec.save)
def test_txt_exists(self):
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
rec, _ = TXT.objects.get_or_create(
label=label, domain=dom, txt_data="asdf")
cn = CNAME(label=label, domain=dom, target=data)
self.assertRaises(ValidationError, cn.full_clean)
def test_txt_cname_exists(self):
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
cn, _ = CNAME.objects.get_or_create(
label=label, domain=dom, target=data)
cn.full_clean()
cn.save()
rec = TXT(label=label, domain=dom, txt_data="asdf1")
self.assertRaises(ValidationError, rec.save)
def test_mx_exists(self):
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
rec, _ = MX.objects.get_or_create(
label=label, domain=dom, server="asdf",
priority=123, ttl=123)
cn = CNAME(label=label, domain=dom, target=data)
self.assertRaises(ValidationError, cn.full_clean)
def test_mx_cname_exists(self):
# Duplicate test?
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
cn, _ = CNAME.objects.get_or_create(
label=label, domain=dom, target=data)
cn.full_clean()
cn.save()
rec = MX(label=label, domain=dom, server="asdf1",
priority=123, ttl=123)
self.assertRaises(ValidationError, rec.save)
def test_ns_exists(self):
# Duplicate test?
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
rec = Nameserver(domain=dom, server="asdf1")
rec.save()
cn = CNAME(label='', domain=dom, target=data)
self.assertRaises(ValidationError, cn.clean)
def test_ns_cname_exists(self):
# Duplicate test?
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
cn, _ = CNAME.objects.get_or_create(
label='', domain=dom, target=data)
cn.full_clean()
cn.save()
rec = Nameserver(domain=dom, server="asdf1")
self.assertRaises(ValidationError, rec.save)
def test_intr_exists(self):
label = "tdfestyfoo"
data = "waasdft"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
intr = StaticInterface(label=label, domain=dom, ip_str="10.0.0.1",
ip_type='4', system=self.s,
mac="11:22:33:44:55:66")
intr.clean()
intr.save()
cn = CNAME(label=label, domain=dom, target=data)
self.assertRaises(ValidationError, cn.full_clean)
def test_intr_cname_exists(self):
# Duplicate test?
label = "tesafstyfoo"
data = "wadfakt"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
cn, _ = CNAME.objects.get_or_create(
label=label, domain=dom, target=data)
cn.full_clean()
cn.save()
intr = StaticInterface(label=label, domain=dom, ip_str="10.0.0.2",
ip_type='4', system=self.s,
mac="00:11:22:33:44:55")
self.assertRaises(ValidationError, intr.clean)
cn.label = "differentlabel"
cn.save()
intr.clean()
intr.save()
def test_ptr_exists(self):
"""
Failing:
see BUG https://bugzilla.mozilla.org/show_bug.cgi?id=810106
"""
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
rec = PTR(ip_str="10.193.1.1", ip_type='4', name='testyfoo.what.cd')
rec.full_clean()
rec.save()
cn = CNAME(label=label, domain=dom, target=data)
self.assertRaises(ValidationError, cn.full_clean)
def test_ptr_cname_exists(self):
"""
Failing:
see BUG https://bugzilla.mozilla.org/show_bug.cgi?id=810106
"""
label = "testyfoo"
data = "wat"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
CNAME.objects.get_or_create(label=label, domain=dom, target=data)
rec = PTR(ip_str="10.193.1.1", ip_type='4', name='testyfoo.what.cd')
self.assertRaises(ValidationError, rec.clean)
def test_cname_point_to_itself(self):
label = "foopy"
data = "foopy.what.cd"
dom, _ = Domain.objects.get_or_create(name="cd")
dom, _ = Domain.objects.get_or_create(name="what.cd")
cn = CNAME(label=label, domain=dom, target=data)
self.assertRaises(ValidationError, cn.clean)
class NSTestsModels(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.factory = RequestFactory()
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.i6_arpa = self.create_domain(name='ip6.arpa')
self.i6_arpa.save()
self.r = Domain(name="ru")
self.r.save()
self.f_r = Domain(name="foo.ru")
self.f_r.save()
self.b_f_r = Domain(name="bar.foo.ru")
self.b_f_r.save()
self.f = Domain(name="fam")
self.f.save()
self._128 = self.create_domain(name='128', ip_type='4')
self._128.save()
self.s = System()
self.s.save()
def do_add(self, domain, server):
ns = Nameserver(domain=domain, server=server)
ns.save()
self.assertTrue(ns.__repr__())
self.assertTrue(ns.details())
self.assertTrue(ns.get_absolute_url())
self.assertTrue(ns.get_edit_url())
self.assertTrue(ns.get_delete_url())
ret = Nameserver.objects.filter(domain=domain, server=server)
self.assertEqual(len(ret), 1)
return ns
def test_add_ns(self):
data = {'domain': self.r, 'server': 'ns2.moot.ru'}
self.do_add(**data)
data = {'domain': self.r, 'server': 'ns5.moot.ru'}
self.do_add(**data)
data = {'domain': self.r, 'server': u'ns3.moot.ru'}
self.do_add(**data)
data = {'domain': self.b_f_r, 'server': 'n1.moot.ru'}
self.do_add(**data)
data = {'domain': self.b_f_r, 'server': 'ns2.moot.ru'}
self.do_add(**data)
data = {'domain': self.r, 'server': 'asdf.asdf'}
self.do_add(**data)
def test_add_invalid(self):
data = {'domain': self.f_r, 'server': 'ns3.foo.ru'}
self.assertRaises(ValidationError, self.do_add, **data)
data = {'domain': self.f_r, 'server': ''}
self.assertRaises(ValidationError, self.do_add, **data)
def test_add_ns_in_domain(self):
# Use an A record as a glue record.
glue = AddressRecord(label='ns2', domain=self.r,
ip_str='128.193.1.10', ip_type='4')
glue.clean()
glue.save()
data = {'domain': self.r, 'server': 'ns2.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.server, ns.glue.fqdn)
self.assertRaises(ValidationError, glue.delete)
glue = AddressRecord(label='ns3', domain=self.f_r, ip_str=
'128.193.1.10', ip_type='4')
glue.save()
data = {'domain': self.f_r, 'server': 'ns3.foo.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.server, ns.glue.fqdn)
def test_disallow_name_update_of_glue_A(self):
# Glue records should not be allowed to change their name.
glue = AddressRecord(label='ns39', domain=self.f_r, ip_str=
'128.193.1.77', ip_type='4')
glue.clean()
glue.save()
data = {'domain': self.f_r, 'server': 'ns39.foo.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.glue, glue)
glue.label = "ns22"
self.assertRaises(ValidationError, glue.clean)
def test_disallow_name_update_of_glue_Intr(self):
# Glue records should not be allowed to change their name.
glue = StaticInterface(label='ns24', domain=self.f_r, ip_str=
'128.193.99.10', ip_type='4', system=self.s,
mac="11:22:33:44:55:66")
glue.clean()
glue.save()
data = {'domain': self.f_r, 'server': 'ns24.foo.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.glue, glue)
glue.label = "ns22"
self.assertRaises(ValidationError, glue.clean)
def test_disallow_delete_of_glue_intr(self):
# Interface glue records should not be allowed to be deleted.
glue = StaticInterface(label='ns24', domain=self.f_r, ip_str=
'128.193.99.10', ip_type='4', system=self.s,
mac="11:22:33:44:55:66")
glue.clean()
glue.save()
data = {'domain': self.f_r, 'server': 'ns24.foo.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.glue, glue)
self.assertRaises(ValidationError, glue.delete)
def test_manual_assign_of_glue(self):
# Test that assigning a different glue record doesn't get overriden by
# the auto assinging during the Nameserver's clean function.
glue = StaticInterface(label='ns25', domain=self.f_r, ip_str=
'128.193.99.10', ip_type='4', system=self.s,
mac="11:22:33:44:55:66")
glue.clean()
glue.save()
data = {'domain': self.f_r, 'server': 'ns25.foo.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.glue, glue)
glue2 = AddressRecord(label='ns25', domain=self.f_r, ip_str=
'128.193.1.78', ip_type='4')
glue2.clean()
glue2.save()
ns.clean()
# Make sure things didn't get overriden.
self.assertEqual(ns.glue, glue)
ns.glue = glue2
ns.save()
# Refresh the object
ns = Nameserver.objects.get(pk=ns.pk)
# Again, Make sure things didn't get overriden.
self.assertEqual(ns.glue, glue2)
# Make sure we still can't delete.
self.assertRaises(ValidationError, glue2.delete)
self.assertRaises(ValidationError, ns.glue.delete)
# We shuold be able to delelte the other one.
glue.delete()
def test_add_ns_in_domain_intr(self):
# Use an Interface as a glue record.
glue = StaticInterface(label='ns232', domain=self.r, ip_str=
'128.193.99.10', ip_type='4', system=self.s,
mac="12:23:45:45:45:45")
glue.clean()
glue.save()
data = {'domain': self.r, 'server': 'ns232.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.server, ns.glue.fqdn)
self.assertRaises(ValidationError, glue.delete)
glue = StaticInterface(label='ns332', domain=self.f_r, ip_str=
'128.193.1.10', ip_type='4', system=self.s,
mac="11:22:33:44:55:66")
glue.clean()
glue.save()
data = {'domain': self.f_r, 'server': 'ns332.foo.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.server, ns.glue.fqdn)
def test_add_ns_outside_domain(self):
data = {'domain': self.f_r, 'server': 'ns2.ru'}
ns = self.do_add(**data)
self.assertFalse(ns.glue)
def test_update_glue_to_no_intr(self):
glue = StaticInterface(label='ns34', domain=self.r, ip_str=
'128.193.1.10', ip_type='4', system=self.s,
mac="11:22:33:44:55:66")
glue.save()
data = {'domain': self.r, 'server': 'ns34.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
ns.server = "ns4.wee"
ns.save()
self.assertTrue(ns.glue is None)
def test_update_glue_record_intr(self):
# Glue records can't change their name.
glue = StaticInterface(label='ns788', domain=self.r, ip_str=
'128.193.1.10', ip_type='4', system=self.s,
mac="11:22:33:44:55:66")
glue.save()
data = {'domain': self.r, 'server': 'ns788.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
glue.label = "asdfasdf"
self.assertRaises(ValidationError, glue.clean)
def test_update_glue_to_no_glue(self):
glue = AddressRecord(label='ns3', domain=self.r,
ip_str='128.193.1.10', ip_type='4')
glue.save()
data = {'domain': self.r, 'server': 'ns3.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
ns.server = "ns4.wee"
ns.save()
self.assertTrue(ns.glue is None)
def test_delete_ns(self):
glue = AddressRecord(label='ns4', domain=self.f_r,
ip_str='128.196.1.10', ip_type='4')
glue.save()
data = {'domain': self.f_r, 'server': 'ns4.foo.ru'}
ns = self.do_add(**data)
self.assertTrue(ns.glue)
self.assertEqual(ns.server, ns.glue.fqdn)
ns.delete()
nsret = Nameserver.objects.filter(
server='ns2.foo.ru', domain=self.f_r)
self.assertFalse(nsret)
def test_invalid_create(self):
glue = AddressRecord(label='ns2', domain=self.r,
ip_str='128.193.1.10', ip_type='4')
glue.save()
data = {'domain': self.r, 'server': 'ns2 .ru'}
self.assertRaises(ValidationError, self.do_add, **data)
data = {'domain': self.r, 'server': 'ns2$.ru'}
self.assertRaises(ValidationError, self.do_add, **data)
data = {'domain': self.r, 'server': 'ns2..ru'}
self.assertRaises(ValidationError, self.do_add, **data)
data = {'domain': self.r, 'server': 'ns2.ru '}
self.assertRaises(ValidationError, self.do_add, **data)
data = {'domain': self.r, 'server': ''}
self.assertRaises(ValidationError, self.do_add, **data)
def test_add_dup(self):
data = {'domain': self.r, 'server': 'ns2.moot.ru'}
self.do_add(**data)
self.assertRaises(ValidationError, self.do_add, **data)
def _get_post_data(self, random_str):
"""Return a valid set of data"""
return {
'root_domain': '{0}.mozilla.com'.format(random_str),
'soa_primary': 'ns1.mozilla.com',
'soa_contact': 'noc.mozilla.com',
'nameserver_1': 'ns1.mozilla.com',
'ttl_1': '1234'
}
def test_bad_nameserver_soa_state_case_1_0(self):
# This is Case 1
root_domain = create_fake_zone("asdf10")
for ns in root_domain.nameserver_set.all():
ns.delete()
# At his point we should have a domain at the root of a zone with no
# other records in it.
# Adding a record shouldn't be allowed because there is no NS record on
# the zone's root domain.
a = AddressRecord(
label='', domain=root_domain, ip_type="6", ip_str="1::")
self.assertRaises(ValidationError, a.save)
cn = CNAME(label='', domain=root_domain, target="asdf")
self.assertRaises(ValidationError, cn.save)
def test_bad_nameserver_soa_state_case_1_1(self):
# This is Case 1
root_domain = create_fake_zone("asdf111")
for ns in root_domain.nameserver_set.all():
ns.delete()
# At his point we should have a domain at the root of a zone with no
# other records in it.
# Let's create a child domain and try to add a record there.
cdomain = Domain(name="test." + root_domain.name)
cdomain.soa = root_domain.soa
cdomain.save()
# Adding a record shouldn't be allowed because there is no NS record on
# the zone's root domain.
a = AddressRecord(label='', domain=cdomain, ip_type="6", ip_str="1::")
self.assertRaises(ValidationError, a.save)
cn = CNAME(label='', domain=cdomain, target="asdf")
self.assertRaises(ValidationError, cn.save)
def test_bad_nameserver_soa_state_case_1_2(self):
# This is Case 1 ... with ptr's
root_domain = create_fake_zone("12.in-addr.arpa", suffix="")
for ns in root_domain.nameserver_set.all():
ns.delete()
# At his point we should have a domain at the root of a zone with no
# other records in it.
# Adding a record shouldn't be allowed because there is no NS record on
# the zone's root domain.
ptr = PTR(name="asdf", ip_str="12.10.1.1", ip_type="4")
self.assertRaises(ValidationError, ptr.save)
def test_bad_nameserver_soa_state_case_1_3(self):
# This is Case 1 ... with ptr's
root_domain = create_fake_zone("13.in-addr.arpa", suffix="")
for ns in root_domain.nameserver_set.all():
ns.delete()
# At his point we should have a domain at the root of a zone with no
# other records in it.
# Let's create a child domain and try to add a record there.
cdomain = Domain(name="10.13.in-addr.arpa")
cdomain.soa = root_domain.soa
cdomain.save()
# Adding a record shouldn't be allowed because there is no NS record on
# the zone's root domain.
ptr = PTR(name="asdf", ip_str="13.10.1.1", ip_type="4")
self.assertRaises(ValidationError, ptr.save)
def test_bad_nameserver_soa_state_case_1_4(self):
# This is Case 1 ... with StaticInterfaces's
reverse_root_domain = create_fake_zone("14.in-addr.arpa", suffix="")
root_domain = create_fake_zone("asdf14")
for ns in root_domain.nameserver_set.all():
ns.delete()
# At his point we should have a domain at the root of a zone with no
# other records in it.
# Let's create a child domain and try to add a record there.
cdomain = Domain(name="10.14.in-addr.arpa")
cdomain.soa = reverse_root_domain.soa
cdomain.save()
# Adding a record shouldn't be allowed because there is no NS record on
# the zone's root domain.
intr = StaticInterface(
label="asdf", domain=root_domain, ip_str="14.10.1.1", ip_type="4",
mac="11:22:33:44:55:66", system=self.s)
self.assertRaises(ValidationError, intr.save)
# See record.tests for the case a required view is deleted.
def test_bad_nameserver_soa_state_case_2_0(self):
# This is Case 2
root_domain = create_fake_zone("asdf20")
self.assertEqual(root_domain.nameserver_set.count(), 1)
ns = root_domain.nameserver_set.all()[0]
# At his point we should have a domain at the root of a zone with one
# ns record associated to the domain.
a = AddressRecord(
label='', domain=root_domain, ip_type="6", ip_str="1::")
a.save()
self.assertRaises(ValidationError, ns.delete)
def test_bad_nameserver_soa_state_case_2_1(self):
# This is Case 2
root_domain = create_fake_zone("asdf21")
self.assertEqual(root_domain.nameserver_set.count(), 1)
ns = root_domain.nameserver_set.all()[0]
# At his point we should have a domain at the root of a zone with one
# ns record associated to the domain.
# Let's create a child domain and add a record there, then try to
# delete the NS record
cdomain = Domain(name="test." + root_domain.name)
cdomain.soa = root_domain.soa
cdomain.save()
a = AddressRecord(label='', domain=cdomain, ip_type="6", ip_str="1::")
a.save()
self.assertRaises(ValidationError, ns.delete)
def test_bad_nameserver_soa_state_case_2_2(self):
# This is Case 2 ... with ptrs
root_domain = create_fake_zone("22.in-addr.arpa", suffix="")
self.assertEqual(root_domain.nameserver_set.count(), 1)
ns = root_domain.nameserver_set.all()[0]
# At his point we should have a domain at the root of a zone with one
# ns record associated to the domain.
ptr = PTR(name="asdf", ip_str="22.1.1.1", ip_type="4")
ptr.save()
self.assertRaises(ValidationError, ns.delete)
def test_bad_nameserver_soa_state_case_2_3(self):
# This is Case 2 ... with ptrs
root_domain = create_fake_zone("10.23.in-addr.arpa", suffix="")
self.assertEqual(root_domain.nameserver_set.count(), 1)
ns = root_domain.nameserver_set.all()[0]
# At his point we should have a domain at the root of a zone with one
# ns record associated to the domain.
# Let's create a child domain and add a record there, then try to
# delete the NS record
cdomain = Domain(name="test." + root_domain.name)
cdomain.soa = root_domain.soa
cdomain.save()
ptr = PTR(name="asdf", ip_str="23.10.1.1", ip_type="4")
ptr.save()
self.assertRaises(ValidationError, ns.delete)
def test_bad_nameserver_soa_state_case_3_0(self):
# This is Case 3
root_domain = create_fake_zone("asdf30")
for ns in root_domain.nameserver_set.all():
ns.delete()
soa = ns.domain.soa
ns.domain.soa = None
root_domain.soa = None # Shit's getting cached
ns.domain.save()
soa.delete()
# At his point we should have a domain pointed at no SOA record with no
# records attached to it. It also has no child domains.
# Add a record to the domain.
a = AddressRecord(
label='', domain=root_domain, ip_type="6", ip_str="1::")
a.save()
s = SOA(primary="asdf.asdf", contact="asdf.asdf", description="asdf")
s.save()
root_domain.soa = s
self.assertRaises(ValidationError, root_domain.save)
def test_bad_nameserver_soa_state_case_3_1(self):
# This is Case 3
root_domain = create_fake_zone("asdf31")
for ns in root_domain.nameserver_set.all():
ns.delete()
# At his point we should have a domain pointed at an SOA record with no
# records attached to it (esspecially no ns recods). It also has no
# child domains.
# Try case 3 but add a record to a child domain of root_domain
cdomain = Domain(name="test." + root_domain.name)
cdomain.save()
# Add a record to the domain.
a = AddressRecord(label='', domain=cdomain, ip_type="6", ip_str="1::")
a.save()
# Now try to add the domain to the zone that has no NS records at it's
# root
cdomain.soa = root_domain.soa
self.assertRaises(ValidationError, cdomain.save)
def test_bad_nameserver_soa_state_case_3_2(self):
# This is Case 3 ... with ptrs
root_domain = create_fake_zone("32.in-addr.arpa", suffix="")
for ns in root_domain.nameserver_set.all():
ns.delete()
soa = ns.domain.soa
ns.domain.soa = None
root_domain.soa = None # Shit's getting cached
ns.domain.save()
soa.delete()
# At his point we should have a domain pointed at no SOA record with no
# records attached to it. It also has no child domains.
# Add a record to the domain.
ptr = PTR(name="asdf", ip_str="32.1.1.1", ip_type="4")
ptr.save()
s = SOA(primary="asdf.asdf", contact="asdf.asdf", description="asdf")
s.save()
root_domain.soa = s
self.assertRaises(ValidationError, root_domain.save)
def test_bad_nameserver_soa_state_case_3_3(self):
# This is Case 3 ... with ptrs
root_domain = create_fake_zone("33.in-addr.arpa", suffix="")
for ns in root_domain.nameserver_set.all():
ns.delete()
# At his point we should have a domain pointed at an SOA record with no
# records attached to it (esspecially no ns recods). It also has no
# child domains.
# Try case 3 but add a record to a child domain of root_domain
cdomain = Domain(name="10.33.in-addr.arpa")
cdomain.save()
# Add a record to the domain.
ptr = PTR(name="asdf", ip_str="33.10.1.1", ip_type="4")
ptr.save()
# Now try to add the domain to the zone that has no NS records at it's
# root
cdomain.soa = root_domain.soa
self.assertRaises(ValidationError, cdomain.save)
class AStaticRegTests(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="10")
self.r1.save()
self.n = System()
self.n.clean()
self.n.save()
def do_add_intr(self, mac, label, domain, ip_str, ip_type='4'):
r = StaticInterface(mac=mac, label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=self.n)
r.clean()
r.save()
repr(r)
return r
def do_add_a(self, label, domain, ip_str, ip_type='4'):
a = AddressRecord(label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type)
a.clean()
a.save()
return a
def do_delete(self, r):
ip_str = r.ip_str
fqdn = r.fqdn
r.delete()
self.assertFalse(
AddressRecord.objects.filter(ip_str=ip_str, fqdn=fqdn))
def test1_conflict_add_intr_first(self):
# Add an intr and make sure A can't exist.
mac = "11:22:33:44:55:66"
label = "foo4"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add_intr(**kwargs)
kwargs = {'label': label, 'domain': domain, 'ip_str': ip_str}
self.assertRaises(ValidationError, self.do_add_a, **kwargs)
def test1_conflict_add_A_first(self):
# Add an A and make sure an intr can't exist.
mac = "11:22:33:44:55:66"
label = "foo5"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'label': label, 'domain': domain, 'ip_str': ip_str}
self.do_add_a(**kwargs)
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.assertRaises(ValidationError, self.do_add_intr, **kwargs)
def test2_conflict_add_intr_first(self):
# Add an intr and update an existing A to conflict. Test for exception.
mac = "12:22:33:44:55:66"
label = "fo99"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add_intr(**kwargs)
ip_str = "10.0.0.3"
kwargs = {'label': label, 'domain': domain, 'ip_str': ip_str}
a = self.do_add_a(**kwargs)
a.ip_str = "10.0.0.2"
self.assertRaises(ValidationError, a.save)
def test2_conflict_add_A_first(self):
# Add an A and update and existing intr to conflict. Test for
# exception.
mac = "11:22:33:44:55:66"
label = "foo98"
domain = self.f_c
ip_str = "10.0.0.2"
# Add A
kwargs = {'label': label, 'domain': domain, 'ip_str': ip_str}
self.do_add_a(**kwargs)
# Add Intr with diff IP
ip_str = "10.0.0.3"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
intr = self.do_add_intr(**kwargs)
# Conflict the IP on the intr
intr.ip_str = "10.0.0.2"
self.assertRaises(ValidationError, intr.save)
class StaticInterTests(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="10")
self.r1.save()
self.r2 = self.create_domain(name="128")
self.r2.save()
self.n = System()
self.n.clean()
self.n.save()
View.objects.get_or_create(name="private")
def do_add(self, mac, label, domain, ip_str, ip_type='4'):
r = StaticInterface(mac=mac, label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=self.n)
r.clean()
r.save()
r.details()
r.get_edit_url()
r.get_delete_url()
r.get_absolute_url()
repr(r)
return r
def do_delete(self, r):
ip_str = r.ip_str
fqdn = r.fqdn
r.delete()
self.assertFalse(
AddressRecord.objects.filter(ip_str=ip_str, fqdn=fqdn))
def test1_create_basic(self):
mac = "11:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
i = self.do_add(**kwargs)
i.update_attrs()
self.assertEqual('None', i.interface_name())
i.attrs.interface_type = "eth"
self.assertEqual('None', i.interface_name())
i.attrs.primary = "0"
self.assertEqual('eth0', i.interface_name())
i.attrs.alias = "0"
self.assertEqual('eth0.0', i.interface_name())
i.clean()
def bad_assign():
i.attrs.interface_type = "wee"
self.assertRaises(ValidationError, bad_assign)
def bad_assign1():
i.attrs.primary = "wee"
self.assertRaises(ValidationError, bad_assign1)
def bad_assign2():
i.attrs.alias = "wee"
self.assertRaises(ValidationError, bad_assign2)
def test2_create_basic(self):
mac = "11:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "10.0.0.1"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
i = self.do_add(**kwargs)
self.assertEqual(self.r1, i.reverse_domain)
i.dhcp_enabled = False
i.clean()
i.save()
i2 = StaticInterface.objects.get(pk=i.pk)
self.assertFalse(i2.dhcp_enabled)
self.assertEqual(self.r1, i2.reverse_domain)
i.dhcp_enabled = True
i.clean()
i.save()
i3 = StaticInterface.objects.get(pk=i.pk)
self.assertTrue(i3.dhcp_enabled)
def test3_create_basic(self):
mac = "11:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
def test4_create_basic(self):
mac = "12:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
def test5_create_basic(self):
mac = "00:00:00:00:00:00"
label = "foo1"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
# Change the mac by one.
mac = "00:00:00:00:00:01"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
def test6_create_basic(self):
mac = "11:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "128.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
i = self.do_add(**kwargs)
self.assertEqual(self.r2, i.reverse_domain)
def test1_delete(self):
mac = "12:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
r = self.do_add(**kwargs)
self.do_delete(r)
def test1_dup_create_basic(self):
mac = "11:22:33:44:55:66"
label = "foo3"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
self.assertRaises(ValidationError, self.do_add, **kwargs)
def test1_bad_add_for_a_ptr(self):
# Intr exists, then try ptr and A
mac = "11:22:33:44:55:66"
label = "9988food"
domain = self.c
ip_str = "10.0.0.1"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
ip_type = '4'
i = self.do_add(**kwargs)
i.clean()
i.save()
a = AddressRecord(label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type)
self.assertRaises(ValidationError, a.clean)
ptr = PTR(ip_str=ip_str, ip_type=ip_type, name=i.fqdn)
self.assertRaises(ValidationError, ptr.clean)
def test2_bad_add_for_a_ptr(self):
# PTR and A exist, then try add intr
mac = "11:22:33:44:55:66"
label = "9988fdfood"
domain = self.c
ip_str = "10.0.0.1"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
ip_type = '4'
a = AddressRecord(label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type)
a.clean()
a.save()
ptr = PTR(ip_str=ip_str, ip_type=ip_type, name=a.fqdn)
ptr.clean()
ptr.save()
self.assertRaises(ValidationError, self.do_add, **kwargs)
def test1_bad_reverse_domain(self):
mac = "11:22:33:44:55:66"
label = "8888foo"
domain = self.f_c
ip_str = "10.0.0.1"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
i = self.do_add(**kwargs)
i.ip_str = "9.0.0.1"
self.assertRaises(ValidationError, i.clean)
def test1_no_system(self):
mac = "15:22:33:44:55:66"
label = "8888foo"
domain = self.f_c
ip_str = "10.0.0.1"
ip_type = '4'
r = StaticInterface(label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=None, mac=mac)
self.assertRaises(ValidationError, r.clean)
def setUp(self):
create_fake_zone('2.ip6.arpa', suffix="")
super(StaticIntrV6APITests, self).setUp()
self.s = System(hostname="foobar")
self.s.save()
class PTRStaticRegTests(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='in-addr.arpa')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="10")
self.r1.save()
self.n = System()
self.n.clean()
self.n.save()
def do_add_intr(self, mac, label, domain, ip_str, ip_type='4'):
r = StaticInterface(mac=mac, label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=self.n)
r.clean()
r.save()
repr(r)
return r
def do_add_ptr(self, label, domain, ip_str, ip_type='4'):
ptr = PTR(name=label + '.' + domain.name, ip_str=ip_str,
ip_type=ip_type)
ptr.clean()
ptr.save()
return ptr
def test1_conflict_add_intr_first(self):
# PTRdd an intr and make sure PTR can't exist.
mac = "11:22:33:44:55:66"
label = "foo4"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add_intr(**kwargs)
kwargs = {'label': label, 'domain': domain, 'ip_str': ip_str}
self.assertRaises(ValidationError, self.do_add_ptr, **kwargs)
def test1_conflict_add_PTR_first(self):
# Add an PTR and make sure an intr can't exist.
mac = "11:22:33:44:55:66"
label = "foo5"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'label': label, 'domain': domain, 'ip_str': ip_str}
self.do_add_ptr(**kwargs)
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.assertRaises(ValidationError, self.do_add_intr, **kwargs)
def test2_conflict_add_intr_first(self):
# Add an intr and update an existing PTR to conflict. Test for
# exception.
mac = "12:22:33:44:55:66"
label = "fo99"
domain = self.f_c
ip_str = "10.0.0.2"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add_intr(**kwargs)
ip_str = "10.0.0.3"
kwargs = {'label': label, 'domain': domain, 'ip_str': ip_str}
ptr = self.do_add_ptr(**kwargs)
ptr.ip_str = "10.0.0.2"
self.assertRaises(ValidationError, ptr.clean)
def test2_conflict_add_A_first(self):
# Add an PTR and update and existing intr to conflict. Test for
# exception.
mac = "11:22:33:44:55:66"
label = "foo98"
domain = self.f_c
ip_str = "10.0.0.2"
# Add PTR
kwargs = {'label': label, 'domain': domain, 'ip_str': ip_str}
self.do_add_ptr(**kwargs)
# Add Intr with diff IP
ip_str = "10.0.0.3"
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
intr = self.do_add_intr(**kwargs)
# Conflict the IP on the intr
intr.ip_str = "10.0.0.2"
self.assertRaises(ValidationError, intr.save)
test_role_1 = Role(name="Test Role 1", owner=extra_users[0])
test_role_1.save()
extra_users[0].roles.add(test_role_1)
test_role_1_admin_permission = create_permission(ValidPermissions.ROLE_ADMIN,
test_role_1.id)
test_role_1.permissions.add(test_role_1_admin_permission)
with open("data/systems.json") as f:
systems_data = json.load(f)
for system_data in systems_data:
if not system_data.get("basics", False):
system_data["basics"] = None
system = System(**{
k: v
for k, v in system_data.items() if k not in ["genres", "publisher"]
})
system.save()
if system_data["publisher"]:
publisher, _ = Publisher.objects.get_or_create(
name=system_data["publisher"]["name"],
defaults={"website": system_data["publisher"]["site"]},
)
system.publisher = publisher
if system_data["genres"]:
for genre_data in system_data["genres"]:
genre, _ = Genre.objects.get_or_create(genre=genre_data)
system.genres.add(genre)
print(f"Created system: {system.name}")
print("\n")
class V6StaticInterTests(TestCase):
def create_domain(self, name, ip_type=None, delegated=False):
if ip_type is None:
ip_type = '4'
if name in ('arpa', 'in-addr.arpa', 'ip6.arpa'):
pass
else:
name = ip_to_domain_name(name, ip_type=ip_type)
d = Domain(name=name, delegated=delegated)
d.clean()
self.assertTrue(d.is_reverse)
return d
def setUp(self):
self.arpa = self.create_domain(name='arpa')
self.arpa.save()
self.i_arpa = self.create_domain(name='ip6.arpa', ip_type='6')
self.i_arpa.save()
self.c = Domain(name="ccc")
self.c.save()
self.f_c = Domain(name="foo.ccc")
self.f_c.save()
self.r1 = self.create_domain(name="0", ip_type='6')
self.r1.save()
self.r2 = self.create_domain(name="1", ip_type='6')
self.r2.save()
self.n = System()
self.n.clean()
self.n.save()
def do_add(self, mac, label, domain, ip_str, ip_type='6'):
r = StaticInterface(mac=mac, label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=self.n)
r.clean()
r.save()
repr(r)
return r
def do_delete(self, r):
ip_str = r.ip_str
fqdn = r.fqdn
r.delete()
self.assertFalse(
AddressRecord.objects.filter(ip_str=ip_str, fqdn=fqdn))
def test1_create_basic(self):
mac = "11:22:33:44:55:66"
label = "foo"
domain = self.f_c
ip_str = "12::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
def test2_create_basic(self):
mac = "20:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "123::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
def test3_create_basic(self):
mac = "11:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "1234::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
def test4_create_basic(self):
mac = "12:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "11::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
def test1_delete(self):
mac = "12:22:33:44:55:66"
label = "foo1"
domain = self.f_c
ip_str = "112::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
r = self.do_add(**kwargs)
self.do_delete(r)
def test1_dup_create_basic(self):
mac = "11:22:33:44:55:66"
label = "foo3"
domain = self.f_c
ip_str = "1123::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
self.do_add(**kwargs)
self.assertRaises(ValidationError, self.do_add, **kwargs)
def test1_bad_add_for_a_ptr(self):
# Intr exists, then try ptr and A
mac = "11:22:33:44:55:6e"
label = "9988fooddfdf"
domain = self.c
ip_str = "111::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
ip_type = '6'
i = self.do_add(**kwargs)
i.clean()
i.save()
a = AddressRecord(label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type)
self.assertRaises(ValidationError, a.clean)
ptr = PTR(ip_str=ip_str, ip_type=ip_type, name=i.fqdn)
self.assertRaises(ValidationError, ptr.clean)
def test2_bad_add_for_a_ptr(self):
# PTR and A exist, then try add intr
mac = "11:22:33:44:55:66"
label = "9988fdfood"
domain = self.c
ip_str = "1112::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
ip_type = '6'
a = AddressRecord(label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type)
a.clean()
a.save()
ptr = PTR(ip_str=ip_str, ip_type=ip_type, name=a.fqdn)
ptr.clean()
ptr.save()
self.assertRaises(ValidationError, self.do_add, **kwargs)
def test1_bad_reverse_domain(self):
mac = "11:22:33:44:55:66"
label = "8888foo"
domain = self.f_c
ip_str = "115::" + mac
kwargs = {'mac': mac, 'label': label, 'domain': domain,
'ip_str': ip_str}
i = self.do_add(**kwargs)
i.ip_str = "9111::"
self.assertRaises(ValidationError, i.clean)
def test1_no_system(self):
mac = "15:22:33:44:55:66"
label = "8888foo"
domain = self.f_c
ip_str = "188::" + mac
ip_type = '6'
r = StaticInterface(label=label, domain=domain, ip_str=ip_str,
ip_type=ip_type, system=None)
self.assertRaises(ValidationError, r.clean)
