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Cache each CablePath on its originating endpoint

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This commit is contained in:
Jeremy Stretch
2020-10-02 17:16:43 -04:00
parent 8cb636bed2
commit 5737f6fca0
6 changed files with 191 additions and 55 deletions
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20
netbox/circuits/migrations/0021_cablepath.py Normal file
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@ -0,0 +1,20 @@
# Generated by Django 3.1 on 2020-10-02 19:43
from django.db import migrations, models
import django.db.models.deletion
class Migration(migrations.Migration):
dependencies = [
('dcim', '0120_cablepath'),
('circuits', '0020_custom_field_data'),
]
operations = [
migrations.AddField(
model_name='circuittermination',
name='_path',
field=models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, to='dcim.cablepath'),
),
]

32
netbox/dcim/migrations/0120_cablepath.py
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@ -1,4 +1,4 @@
# Generated by Django 3.1 on 2020-10-02 15:49 # Generated by Django 3.1 on 2020-10-02 19:43
import dcim.fields import dcim.fields
from django.db import migrations, models from django.db import migrations, models
@ -28,4 +28,34 @@ class Migration(migrations.Migration):
'unique_together': {('origin_type', 'origin_id')}, 'unique_together': {('origin_type', 'origin_id')},
}, },
), ),
migrations.AddField(
model_name='consoleport',
name='_path',
field=models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, to='dcim.cablepath'),
),
migrations.AddField(
model_name='consoleserverport',
name='_path',
field=models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, to='dcim.cablepath'),
),
migrations.AddField(
model_name='interface',
name='_path',
field=models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, to='dcim.cablepath'),
),
migrations.AddField(
model_name='powerfeed',
name='_path',
field=models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, to='dcim.cablepath'),
),
migrations.AddField(
model_name='poweroutlet',
name='_path',
field=models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, to='dcim.cablepath'),
),
migrations.AddField(
model_name='powerport',
name='_path',
field=models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, to='dcim.cablepath'),
),
] ]

26
netbox/dcim/models/device_components.py
View File

@ -126,38 +126,30 @@ class CableTermination(models.Model):
class PathEndpoint(models.Model): class PathEndpoint(models.Model):
""" """
Any object which may serve as either endpoint of a CablePath. Any object which may serve as the originating endpoint of a CablePath.
""" """
_paths = GenericRelation( _path = models.ForeignKey(
to='dcim.CablePath', to='dcim.CablePath',
content_type_field='origin_type', on_delete=models.SET_NULL,
object_id_field='origin_id', null=True,
related_query_name='%(class)s' blank=True
) )
class Meta: class Meta:
abstract = True abstract = True
def trace(self): def trace(self):
if self.path is None: if self._path is None:
return [] return []
# Construct the complete path # Construct the complete path
path = [self, *[path_node_to_object(obj) for obj in self.path.path], self.path.destination] path = [self, *[path_node_to_object(obj) for obj in self._path.path], self._path.destination]
assert not len(path) % 3, f"Invalid path length for CablePath #{self.pk}: {len(self.path)} elements in path" assert not len(path) % 3,\
f"Invalid path length for CablePath #{self.pk}: {len(self._path.path)} elements in path"
# Return the path as a list of three-tuples (A termination, cable, B termination) # Return the path as a list of three-tuples (A termination, cable, B termination)
return list(zip(*[iter(path)] * 3)) return list(zip(*[iter(path)] * 3))
@property
def path(self):
"""
Return the _complete_ CablePath associated with this origin point, if any.
"""
if not hasattr(self, '_path'):
self._path = self._paths.filter(destination_id__isnull=False).first()
return self._path
# #
# Console ports # Console ports

7
netbox/dcim/models/devices.py
View File

@ -1204,6 +1204,13 @@ class CablePath(models.Model):
path = ', '.join([str(path_node_to_object(node)) for node in self.path]) path = ', '.join([str(path_node_to_object(node)) for node in self.path])
return f"Path #{self.pk}: {self.origin} to {self.destination} via ({path})" return f"Path #{self.pk}: {self.origin} to {self.destination} via ({path})"
def save(self, *args, **kwargs):
super().save(*args, **kwargs)
# Record a direct reference to this CablePath on its originating object
model = self.origin._meta.model
model.objects.filter(pk=self.origin.pk).update(_path=self.pk)
# #
# Virtual chassis # Virtual chassis

31
netbox/dcim/signals.py
View File

@ -1,7 +1,7 @@
import logging import logging
from django.contrib.contenttypes.models import ContentType from django.contrib.contenttypes.models import ContentType
from django.db.models.signals import post_save, pre_delete from django.db.models.signals import post_save, post_delete, pre_delete
from django.db import transaction from django.db import transaction
from django.dispatch import receiver from django.dispatch import receiver
@ -91,7 +91,7 @@ def update_connected_endpoints(instance, created, **kwargs):
rebuild_paths(instance) rebuild_paths(instance)
@receiver(pre_delete, sender=Cable) @receiver(post_delete, sender=Cable)
def nullify_connected_endpoints(instance, **kwargs): def nullify_connected_endpoints(instance, **kwargs):
""" """
When a Cable is deleted, check for and update its two connected endpoints When a Cable is deleted, check for and update its two connected endpoints
@ -108,18 +108,15 @@ def nullify_connected_endpoints(instance, **kwargs):
instance.termination_b.cable = None instance.termination_b.cable = None
instance.termination_b.save() instance.termination_b.save()
# Delete any dependent cable paths # Delete and retrace any dependent cable paths
cable_paths = CablePath.objects.filter(path__contains=[object_to_path_node(instance)]) for cablepath in CablePath.objects.filter(path__contains=[object_to_path_node(instance)]):
retrace_queue = [cp.origin for cp in cable_paths] path, destination, is_connected = trace_path(cablepath.origin)
deleted, _ = cable_paths.delete() if path:
logger.info(f'Deleted {deleted} cable paths') CablePath.objects.filter(pk=cablepath.pk).update(
path=path,
# Retrace cable paths from the origins of deleted paths destination_type=ContentType.objects.get_for_model(destination) if destination else None,
for origin in retrace_queue: destination_id=destination.pk if destination else None,
# Delete and recreate all CablePaths for this origin point is_connected=is_connected
# TODO: We can probably be smarter about skipping unchanged paths )
CablePath.objects.filter( else:
origin_type=ContentType.objects.get_for_model(origin), cablepath.delete()
origin_id=origin.pk
).delete()
create_cablepath(origin)

130
netbox/dcim/tests/test_cablepaths.py
View File

@ -132,6 +132,8 @@ class CablePathTestCase(TestCase):
:param path: Sequence of objects comprising the intermediate path (optional) :param path: Sequence of objects comprising the intermediate path (optional)
:param is_connected: Boolean indicating whether the end-to-end path is complete and active (optional) :param is_connected: Boolean indicating whether the end-to-end path is complete and active (optional)
:param msg: Custom failure message (optional) :param msg: Custom failure message (optional)
:return: The matching CablePath (if any)
""" """
kwargs = { kwargs = {
'origin_type': ContentType.objects.get_for_model(origin), 'origin_type': ContentType.objects.get_for_model(origin),
@ -152,7 +154,34 @@ class CablePathTestCase(TestCase):
msg = f"Missing path from {origin} to {destination}" msg = f"Missing path from {origin} to {destination}"
else: else:
msg = f"Missing partial path originating from {origin}" msg = f"Missing partial path originating from {origin}"
self.assertEqual(CablePath.objects.filter(**kwargs).count(), 1, msg=msg)
cablepath = CablePath.objects.filter(**kwargs).first()
self.assertIsNotNone(cablepath, msg=msg)
return cablepath
def assertPathIsSet(self, origin, cablepath, msg=None):
"""
Assert that a specific CablePath instance is set as the path on the origin.
:param origin: The originating path endpoint
:param cablepath: The CablePath instance originating from this endpoint
:param msg: Custom failure message (optional)
"""
if msg is None:
msg = f"Path #{cablepath.pk} not set on originating endpoint {origin}"
self.assertEqual(origin._path_id, cablepath.pk, msg=msg)
def assertPathIsNotSet(self, origin, msg=None):
"""
Assert that a specific CablePath instance is set as the path on the origin.
:param origin: The originating path endpoint
:param msg: Custom failure message (optional)
"""
if msg is None:
msg = f"Path #{origin._path_id} set as origin on {origin}; should be None!"
self.assertIsNone(origin._path_id, msg=msg)
def test_101_interface_to_interface(self): def test_101_interface_to_interface(self):
""" """
@ -161,19 +190,23 @@ class CablePathTestCase(TestCase):
# Create cable 1 # Create cable 1
cable1 = Cable(termination_a=self.interface1, termination_b=self.interface2) cable1 = Cable(termination_a=self.interface1, termination_b=self.interface2)
cable1.save() cable1.save()
self.assertPathExists( path1 = self.assertPathExists(
origin=self.interface1, origin=self.interface1,
destination=self.interface2, destination=self.interface2,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertPathExists( path2 = self.assertPathExists(
origin=self.interface2, origin=self.interface2,
destination=self.interface1, destination=self.interface1,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertEqual(CablePath.objects.count(), 2) self.assertEqual(CablePath.objects.count(), 2)
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
self.assertPathIsSet(self.interface1, path1)
self.assertPathIsSet(self.interface2, path2)
# Delete cable 1 # Delete cable 1
cable1.delete() cable1.delete()
@ -181,26 +214,30 @@ class CablePathTestCase(TestCase):
# Check that all CablePaths have been deleted # Check that all CablePaths have been deleted
self.assertEqual(CablePath.objects.count(), 0) self.assertEqual(CablePath.objects.count(), 0)
def test_103_consoleport_to_consoleserverport(self): def test_102_consoleport_to_consoleserverport(self):
""" """
[CP1] --C1-- [CSP1] [CP1] --C1-- [CSP1]
""" """
# Create cable 1 # Create cable 1
cable1 = Cable(termination_a=self.consoleport1, termination_b=self.consoleserverport1) cable1 = Cable(termination_a=self.consoleport1, termination_b=self.consoleserverport1)
cable1.save() cable1.save()
self.assertPathExists( path1 = self.assertPathExists(
origin=self.consoleport1, origin=self.consoleport1,
destination=self.consoleserverport1, destination=self.consoleserverport1,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertPathExists( path2 = self.assertPathExists(
origin=self.consoleserverport1, origin=self.consoleserverport1,
destination=self.consoleport1, destination=self.consoleport1,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertEqual(CablePath.objects.count(), 2) self.assertEqual(CablePath.objects.count(), 2)
self.consoleport1.refresh_from_db()
self.consoleserverport1.refresh_from_db()
self.assertPathIsSet(self.consoleport1, path1)
self.assertPathIsSet(self.consoleserverport1, path2)
# Delete cable 1 # Delete cable 1
cable1.delete() cable1.delete()
@ -208,26 +245,30 @@ class CablePathTestCase(TestCase):
# Check that all CablePaths have been deleted # Check that all CablePaths have been deleted
self.assertEqual(CablePath.objects.count(), 0) self.assertEqual(CablePath.objects.count(), 0)
def test_104_powerport_to_poweroutlet(self): def test_103_powerport_to_poweroutlet(self):
""" """
[PP1] --C1-- [PO1] [PP1] --C1-- [PO1]
""" """
# Create cable 1 # Create cable 1
cable1 = Cable(termination_a=self.powerport1, termination_b=self.poweroutlet1) cable1 = Cable(termination_a=self.powerport1, termination_b=self.poweroutlet1)
cable1.save() cable1.save()
self.assertPathExists( path1 = self.assertPathExists(
origin=self.powerport1, origin=self.powerport1,
destination=self.poweroutlet1, destination=self.poweroutlet1,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertPathExists( path2 = self.assertPathExists(
origin=self.poweroutlet1, origin=self.poweroutlet1,
destination=self.powerport1, destination=self.powerport1,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertEqual(CablePath.objects.count(), 2) self.assertEqual(CablePath.objects.count(), 2)
self.powerport1.refresh_from_db()
self.poweroutlet1.refresh_from_db()
self.assertPathIsSet(self.powerport1, path1)
self.assertPathIsSet(self.poweroutlet1, path2)
# Delete cable 1 # Delete cable 1
cable1.delete() cable1.delete()
@ -235,26 +276,30 @@ class CablePathTestCase(TestCase):
# Check that all CablePaths have been deleted # Check that all CablePaths have been deleted
self.assertEqual(CablePath.objects.count(), 0) self.assertEqual(CablePath.objects.count(), 0)
def test_105_powerport_to_powerfeed(self): def test_104_powerport_to_powerfeed(self):
""" """
[PP1] --C1-- [PF1] [PP1] --C1-- [PF1]
""" """
# Create cable 1 # Create cable 1
cable1 = Cable(termination_a=self.powerport1, termination_b=self.powerfeed1) cable1 = Cable(termination_a=self.powerport1, termination_b=self.powerfeed1)
cable1.save() cable1.save()
self.assertPathExists( path1 = self.assertPathExists(
origin=self.powerport1, origin=self.powerport1,
destination=self.powerfeed1, destination=self.powerfeed1,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertPathExists( path2 = self.assertPathExists(
origin=self.powerfeed1, origin=self.powerfeed1,
destination=self.powerport1, destination=self.powerport1,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertEqual(CablePath.objects.count(), 2) self.assertEqual(CablePath.objects.count(), 2)
self.powerport1.refresh_from_db()
self.powerfeed1.refresh_from_db()
self.assertPathIsSet(self.powerport1, path1)
self.assertPathIsSet(self.powerfeed1, path2)
# Delete cable 1 # Delete cable 1
cable1.delete() cable1.delete()
@ -262,26 +307,30 @@ class CablePathTestCase(TestCase):
# Check that all CablePaths have been deleted # Check that all CablePaths have been deleted
self.assertEqual(CablePath.objects.count(), 0) self.assertEqual(CablePath.objects.count(), 0)
def test_106_interface_to_circuittermination(self): def test_105_interface_to_circuittermination(self):
""" """
[PP1] --C1-- [CT1A] [PP1] --C1-- [CT1A]
""" """
# Create cable 1 # Create cable 1
cable1 = Cable(termination_a=self.interface1, termination_b=self.circuittermination1_A) cable1 = Cable(termination_a=self.interface1, termination_b=self.circuittermination1_A)
cable1.save() cable1.save()
self.assertPathExists( path1 = self.assertPathExists(
origin=self.interface1, origin=self.interface1,
destination=self.circuittermination1_A, destination=self.circuittermination1_A,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertPathExists( path2 = self.assertPathExists(
origin=self.circuittermination1_A, origin=self.circuittermination1_A,
destination=self.interface1, destination=self.interface1,
path=(cable1,), path=(cable1,),
is_connected=True is_connected=True
) )
self.assertEqual(CablePath.objects.count(), 2) self.assertEqual(CablePath.objects.count(), 2)
self.interface1.refresh_from_db()
self.circuittermination1_A.refresh_from_db()
self.assertPathIsSet(self.interface1, path1)
self.assertPathIsSet(self.circuittermination1_A, path2)
# Delete cable 1 # Delete cable 1
cable1.delete() cable1.delete()
@ -293,6 +342,9 @@ class CablePathTestCase(TestCase):
""" """
[IF1] --C1-- [FP5] [RP5] --C2-- [IF2] [IF1] --C1-- [FP5] [RP5] --C2-- [IF2]
""" """
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
# Create cable 1 # Create cable 1
cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port5_1) cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port5_1)
cable1.save() cable1.save()
@ -323,19 +375,28 @@ class CablePathTestCase(TestCase):
# Delete cable 2 # Delete cable 2
cable2.delete() cable2.delete()
self.assertPathExists( path1 = self.assertPathExists(
origin=self.interface1, origin=self.interface1,
destination=None, destination=None,
path=(cable1, self.front_port5_1, self.rear_port5), path=(cable1, self.front_port5_1, self.rear_port5),
is_connected=False is_connected=False
) )
self.assertEqual(CablePath.objects.count(), 1) self.assertEqual(CablePath.objects.count(), 1)
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
self.assertPathIsSet(self.interface1, path1)
self.assertPathIsNotSet(self.interface2)
def test_202_multiple_paths_via_pass_through(self): def test_202_multiple_paths_via_pass_through(self):
""" """
[IF1] --C1-- [FP1:1] [RP1] --C3-- [RP2] [FP2:1] --C4-- [IF3] [IF1] --C1-- [FP1:1] [RP1] --C3-- [RP2] [FP2:1] --C4-- [IF3]
[IF2] --C2-- [FP1:2] [FP2:2] --C5-- [IF4] [IF2] --C2-- [FP1:2] [FP2:2] --C5-- [IF4]
""" """
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
self.interface3.refresh_from_db()
self.interface4.refresh_from_db()
# Create cables 1-2 # Create cables 1-2
cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port1_1) cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port1_1)
cable1.save() cable1.save()
@ -377,7 +438,7 @@ class CablePathTestCase(TestCase):
cable4.save() cable4.save()
cable5 = Cable(termination_a=self.front_port2_2, termination_b=self.interface4) cable5 = Cable(termination_a=self.front_port2_2, termination_b=self.interface4)
cable5.save() cable5.save()
self.assertPathExists( path1 = self.assertPathExists(
origin=self.interface1, origin=self.interface1,
destination=self.interface3, destination=self.interface3,
path=( path=(
@ -386,7 +447,7 @@ class CablePathTestCase(TestCase):
), ),
is_connected=True is_connected=True
) )
self.assertPathExists( path2 = self.assertPathExists(
origin=self.interface2, origin=self.interface2,
destination=self.interface4, destination=self.interface4,
path=( path=(
@ -395,7 +456,7 @@ class CablePathTestCase(TestCase):
), ),
is_connected=True is_connected=True
) )
self.assertPathExists( path3 = self.assertPathExists(
origin=self.interface3, origin=self.interface3,
destination=self.interface1, destination=self.interface1,
path=( path=(
@ -404,7 +465,7 @@ class CablePathTestCase(TestCase):
), ),
is_connected=True is_connected=True
) )
self.assertPathExists( path4 = self.assertPathExists(
origin=self.interface4, origin=self.interface4,
destination=self.interface2, destination=self.interface2,
path=( path=(
@ -421,12 +482,25 @@ class CablePathTestCase(TestCase):
# Check for four partial paths; one from each interface # Check for four partial paths; one from each interface
self.assertEqual(CablePath.objects.filter(destination_id__isnull=True).count(), 4) self.assertEqual(CablePath.objects.filter(destination_id__isnull=True).count(), 4)
self.assertEqual(CablePath.objects.filter(destination_id__isnull=False).count(), 0) self.assertEqual(CablePath.objects.filter(destination_id__isnull=False).count(), 0)
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
self.interface3.refresh_from_db()
self.interface4.refresh_from_db()
self.assertPathIsSet(self.interface1, path1)
self.assertPathIsSet(self.interface2, path2)
self.assertPathIsSet(self.interface3, path3)
self.assertPathIsSet(self.interface4, path4)
def test_203_multiple_paths_via_nested_pass_throughs(self): def test_203_multiple_paths_via_nested_pass_throughs(self):
""" """
[IF1] --C1-- [FP1:1] [RP1] --C3-- [FP2:1] [RP2] --C4-- [RP3] [FP3:1] --C5-- [RP4] [FP4:1] --C6-- [IF3] [IF1] --C1-- [FP1:1] [RP1] --C3-- [FP2:1] [RP2] --C4-- [RP3] [FP3:1] --C5-- [RP4] [FP4:1] --C6-- [IF3]
[IF2] --C2-- [FP1:2] [FP4:2] --C7-- [IF4] [IF2] --C2-- [FP1:2] [FP4:2] --C7-- [IF4]
""" """
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
self.interface3.refresh_from_db()
self.interface4.refresh_from_db()
# Create cables 1-2, 6-7 # Create cables 1-2, 6-7
cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port1_1) cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port1_1)
cable1.save() cable1.save()
@ -502,6 +576,11 @@ class CablePathTestCase(TestCase):
[IF1] --C1-- [FP1:1] [RP1] --C3-- [RP2] [FP2:1] --C4-- [FP3:1] [RP3] --C6-- [RP4] [FP4:1] --C7-- [IF3] [IF1] --C1-- [FP1:1] [RP1] --C3-- [RP2] [FP2:1] --C4-- [FP3:1] [RP3] --C6-- [RP4] [FP4:1] --C7-- [IF3]
[IF2] --C2-- [FP1:2] [FP2:1] --C5-- [FP3:1] [FP4:2] --C8-- [IF4] [IF2] --C2-- [FP1:2] [FP2:1] --C5-- [FP3:1] [FP4:2] --C8-- [IF4]
""" """
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
self.interface3.refresh_from_db()
self.interface4.refresh_from_db()
# Create cables 1-3, 6-8 # Create cables 1-3, 6-8
cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port1_1) cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port1_1)
cable1.save() cable1.save()
@ -576,6 +655,11 @@ class CablePathTestCase(TestCase):
[IF1] --C1-- [FP1:1] [RP1] --C3-- [FP5] [RP5] --C4-- [RP2] [FP2:1] --C5-- [IF3] [IF1] --C1-- [FP1:1] [RP1] --C3-- [FP5] [RP5] --C4-- [RP2] [FP2:1] --C5-- [IF3]
[IF2] --C2-- [FP1:2] [FP2:2] --C6-- [IF4] [IF2] --C2-- [FP1:2] [FP2:2] --C6-- [IF4]
""" """
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
self.interface3.refresh_from_db()
self.interface4.refresh_from_db()
# Create cables 1-2, 5-6 # Create cables 1-2, 5-6
cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port1_1) # IF1 -> FP1:1 cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port1_1) # IF1 -> FP1:1
cable1.save() cable1.save()
@ -641,6 +725,9 @@ class CablePathTestCase(TestCase):
""" """
[IF1] --C1-- [FP5] [RP5] --C2-- [RP6] [FP6] --C3-- [IF2] [IF1] --C1-- [FP5] [RP5] --C2-- [RP6] [FP6] --C3-- [IF2]
""" """
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
# Create cable 2 # Create cable 2
cable2 = Cable(termination_a=self.rear_port5, termination_b=self.rear_port6) cable2 = Cable(termination_a=self.rear_port5, termination_b=self.rear_port6)
cable2.save() cable2.save()
@ -684,6 +771,9 @@ class CablePathTestCase(TestCase):
""" """
[IF1] --C1-- [FP5] [RP5] --C2-- [IF2] [IF1] --C1-- [FP5] [RP5] --C2-- [IF2]
""" """
self.interface1.refresh_from_db()
self.interface2.refresh_from_db()
# Create cables 1 and 2 # Create cables 1 and 2
cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port5_1) cable1 = Cable(termination_a=self.interface1, termination_b=self.front_port5_1)
cable1.save() cable1.save()