Commit dd912205 authored by Łukasz Nowak's avatar Łukasz Nowak

Separate bug related tests.

parent e8a837e4
from Products.ERP5Type.tests.Sequence import SequenceList
import unittest
from testVifibSlapWebService import TestVifibSlapWebServiceMixin
class TestVifibSlapBugs(TestVifibSlapWebServiceMixin):
def test_bug_Person_request_more_then_one_instance(self):
self.computer_partition_amount = 2
sequence_list = SequenceList()
sequence_string = self.prepare_person_requested_software_instance + '\
LoginTestVifibCustomer \
PersonRequestSoftwareInstance \
Tic \
Logout \
'
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_ComputerPartition_request_two_similar(self):
"""
Checks that requesting twice with different arguments from same Computer
Partition will return different objects."""
self.computer_partition_amount = 3
sequence_list = SequenceList()
sequence_string = self.prepare_install_requested_computer_partition_sequence_string + '\
SlapLoginCurrentSoftwareInstance \
RequestTwoAndCheckDifferentResult \
SlapLogout \
'
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_doubleClickOnStart(self):
sequence_list = SequenceList()
sequence_string = self\
.prepare_stopped_computer_partition_sequence_string + """
LoginTestVifibCustomer
RequestSoftwareInstanceStart
RequestSoftwareInstanceStartRaisesValueError
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListConfirmed
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_doubleClickOnStart_serializeIsCalled(self):
sequence_list = SequenceList()
sequence_string = self\
.prepare_stopped_computer_partition_sequence_string + """
LoginTestVifibCustomer
RequestSoftwareInstanceStartCheckSerializeIsCalled
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_doubleClickOnDestroy(self):
sequence_list = SequenceList()
sequence_string = self\
.prepare_installed_computer_partition_sequence_string + """
LoginTestVifibCustomer
RequestSoftwareInstanceDestroy
RequestSoftwareInstanceDestroyRaisesValueError
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_doubleClickOnDestroy_serializeIsCalled(self):
sequence_list = SequenceList()
sequence_string = self\
.prepare_installed_computer_partition_sequence_string + """
LoginTestVifibCustomer
RequestSoftwareInstanceDestroyCheckSerializeIsCalled
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def stepArchiveSoftwareRelease(self, sequence, **kw):
"""
Submit the software release document.
"""
software_release_uid = sequence["software_release_uid"]
software_release = self.portal.portal_catalog.getResultValue(
uid=software_release_uid)
software_release.portal_workflow.doActionFor(software_release,
'archive_action')
def test_bug_archived_software_release_access(self):
"""Checks that Computer has access to archived Software Release"""
sequence_string = self.\
prepare_start_requested_computer_partition_sequence_string + \
"""
LoginTestVifibDeveloper
ArchiveSoftwareRelease
Tic
Logout
SlapLoginCurrentComputer
SoftwareInstanceStarted
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStarted
Logout
"""
sequence_list = SequenceList()
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def stepStoreCurrentSoftwareInstanceUidBufferA(self, sequence, **kw):
sequence['buffer_a_software_instance_uid'] = sequence['software_instance_uid']
def stepStoreCurrentSoftwareInstanceUidBufferB(self, sequence, **kw):
sequence['buffer_b_software_instance_uid'] = sequence['software_instance_uid']
def stepStoreCurrentComputerUidBufferA(self, sequence, **kw):
sequence['buffer_a_computer_uid'] = sequence['computer_uid']
def stepStoreCurrentComputerUidBufferB(self, sequence, **kw):
sequence['buffer_b_computer_uid'] = sequence['computer_uid']
def stepRestoreSoftwareInstanceUidFromBufferA(self, sequence, **kw):
sequence['software_instance_uid'] = sequence['buffer_a_software_instance_uid']
def stepRestoreSoftwareInstanceUidFromBufferB(self, sequence, **kw):
sequence['software_instance_uid'] = sequence['buffer_b_software_instance_uid']
def stepRestoreComputerUidFromBufferA(self, sequence, **kw):
sequence['computer_uid'] = sequence['buffer_a_computer_uid']
def stepRestoreComputerUidFromBufferB(self, sequence, **kw):
sequence['computer_uid'] = sequence['buffer_b_computer_uid']
def stepStoreCurrentComputerReferenceBufferA(self, sequence, **kw):
sequence['buffer_a_computer_reference'] = sequence['computer_reference']
def stepStoreCurrentComputerReferenceBufferB(self, sequence, **kw):
sequence['buffer_b_computer_reference'] = sequence['computer_reference']
def stepStoreCurrentComputerPartitionUidBufferA(self, sequence, **kw):
sequence['buffer_a_computer_partition_uid'] = sequence['computer_partition_uid']
def stepStoreCurrentComputerPartitionUidBufferB(self, sequence, **kw):
sequence['buffer_b_computer_partition_uid'] = sequence['computer_partition_uid']
def stepStoreCurrentComputerPartitionReferenceBufferA(self, sequence, **kw):
sequence['buffer_a_computer_partition_reference'] = sequence['computer_partition_reference']
def stepStoreCurrentComputerPartitionReferenceBufferB(self, sequence, **kw):
sequence['buffer_b_computer_partition_reference'] = sequence['computer_partition_reference']
def stepRestoreComputerReferenceFromBufferA(self, sequence, **kw):
sequence['computer_reference'] = sequence['buffer_a_computer_reference']
def stepRestoreComputerReferenceFromBufferB(self, sequence, **kw):
sequence['computer_reference'] = sequence['buffer_b_computer_reference']
def stepRestoreComputerPartitionUidFromBufferA(self, sequence, **kw):
sequence['computer_partition_uid'] = sequence['buffer_a_computer_partition_uid']
def stepRestoreComputerPartitionUidFromBufferB(self, sequence, **kw):
sequence['computer_partition_uid'] = sequence['buffer_b_computer_partition_uid']
def stepRestoreComputerPartitionReferenceFromBufferA(self, sequence, **kw):
sequence['computer_partition_reference'] = sequence['buffer_a_computer_partition_reference']
def stepRestoreComputerPartitionReferenceFromBufferB(self, sequence, **kw):
sequence['computer_partition_reference'] = sequence['buffer_b_computer_partition_reference']
def stepCheckHostingSubscriptionMultipleComputerAuditor(self, sequence, **kw):
hosting_subscription = self.portal.portal_catalog.getResultValue(
uid=sequence['hosting_subscription_uid'])
role_list = hosting_subscription.get_local_roles()
setup_packing_list_line_list = [q for q in
hosting_subscription.getAggregateRelatedValueList(
portal_type='Sale Packing List Line') if q.getResource() ==
self.portal.portal_preferences.getPreferredInstanceSetupResource()]
computer_list = [q.getAggregateValue(
portal_type='Computer Partition').getParentValue() for q in
setup_packing_list_line_list]
for computer in computer_list:
self.assertTrue((computer.getReference(), ('Auditor',))) in role_list
def test_bug_destruction_of_partition_originated_from_another_computer(self):
"""Checks that computer is capable to destroy own Software Instance
If software instance originated on computer comes from another computer it
shall be possible to sucesfully destroy it.
Test is done in a way to trigger unstable Assignor role calculation
on Hosting Subscription which leads to unavailability of Software Instances
from one computer to another.
"""
sequence_list = SequenceList()
sequence_string = """
# Prepare software release shared by both Computers
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create first computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install software on first computer
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Now request and instantiate this software release on first computer
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
StoreCurrentComputerPartitionReferenceBufferA
StoreCurrentComputerPartitionUidBufferA
StoreCurrentSoftwareInstanceUidBufferA
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# Start it..
SlapLoginCurrentComputer
SoftwareInstanceAvailable
Tic
SlapLogout
LoginDefaultUser
SetSelectedComputerPartition
CheckComputerPartitionInstanceSetupSalePackingListStopped
CheckComputerPartitionInstanceHostingSalePackingListConfirmed
Logout
SlapLoginCurrentComputer
SoftwareInstanceStarted
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStarted
Logout
# ...stop it...
LoginDefaultUser
RequestSoftwareInstanceStop
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStopped
Logout
SlapLoginCurrentComputer
SoftwareInstanceStopped
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListDelivered
Logout
# ...and request destruction
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# Now prepare second computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferB
StoreCurrentComputerUidBufferB
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
StoreCurrentComputerReferenceBufferB
StoreCurrentComputerUidBufferB
# Now request self software release from one computer to another
RestoreComputerReferenceFromBufferA
RestoreComputerUidFromBufferA
RestoreSoftwareInstanceUidFromBufferA
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
StoreCurrentComputerPartitionReferenceBufferB
StoreCurrentComputerPartitionUidBufferB
StoreCurrentSoftwareInstanceUidBufferB
RestoreComputerReferenceFromBufferB
RestoreComputerUidFromBufferB
# Start the requested software instance...
SlapLoginCurrentComputer
SoftwareInstanceAvailable
Tic
SlapLogout
LoginDefaultUser
SetSelectedComputerPartition
CheckComputerPartitionInstanceSetupSalePackingListStopped
CheckComputerPartitionInstanceHostingSalePackingListConfirmed
Logout
SlapLoginCurrentComputer
SoftwareInstanceStarted
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStarted
Logout
# ...and stop it
LoginDefaultUser
RequestSoftwareInstanceStop
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStopped
Logout
SlapLoginCurrentComputer
SoftwareInstanceStopped
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListDelivered
Logout
# Now request destruction of second software instance...
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# ...and destroy it
SlapLoginCurrentComputer
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
Logout
# Time to switch back to first software instance and destroy it
RestoreComputerPartitionReferenceFromBufferA
RestoreComputerPartitionUidFromBufferA
RestoreSoftwareInstanceUidFromBufferA
RestoreComputerReferenceFromBufferA
RestoreComputerUidFromBufferA
SlapLoginCurrentComputer
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
Logout
LoginDefaultUser
CheckHostingSubscriptionMultipleComputerAuditor
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_destruction_confirmed_instance_setup(self):
"""Proves that all is correctly handled in case of confirmed instance
setup packing list existence"""
sequence_list = SequenceList()
sequence_string = self.prepare_install_requested_computer_partition_sequence_string + \
"""
LoginTestVifibCustomer
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# Now there are two packing lists in confirmed state:
# * one for instance setup
# * one for instance destruction
# Simulate typical scenario:
# * stopped
# * commit
# * destroyed
# * commit
# * tic
SlapLoginCurrentComputer
SoftwareInstanceStopped
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListDelivered
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
CheckComputerPartitionNoInstanceHostingSalePackingList
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_destruction_with_cancelled_packing_list(self):
"""Proves that even if some packing lists are in cancelled state
it is possible to destroy software instance"""
sequence_list = SequenceList()
sequence_string = self.prepare_stopped_computer_partition_sequence_string + """
# Request destruction...
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# and cancel current destruction.
LoginDefaultUser
SelectCurrentlyUsedSalePackingListUid
CancelSalePackingList
Tic
CheckComputerPartitionInstanceCleanupSalePackingListCancelled
Logout
# So all packing lists are finished, but one is cancelled,
# time to request destruction...
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# ...and destroy it
SlapLoginCurrentComputer
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_destruction_with_unfinished_packing_list(self):
"""Proves that even if some packing lists are not fully delivered
it is possible to destroy software instance"""
sequence_list = SequenceList()
sequence_string = """
# Prepare software release
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create first computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install software on first computer
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Now request and instantiate this software release on first computer
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# Request destruction...
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# ...and destroy it
SlapLoginCurrentComputer
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def stepDirectRequestComputerPartitionRaisesDisconnectedSoftwareTree(self,
sequence, **kw):
software_instance = self.portal.portal_catalog.getResultValue(
uid = sequence['software_instance_uid'])
from erp5.document.SoftwareInstance import DisconnectedSoftwareTree
self.assertRaises(DisconnectedSoftwareTree,
software_instance.requestSoftwareInstance,
software_release=sequence['software_release_uri'],
software_type=sequence['requested_reference'],
partition_reference=sequence['requested_reference'],
shared=False,
instance_xml=self.minimal_correct_xml,
sla_xml=self.minimal_correct_xml,
state='started'
)
def test_bug_orhpaned_software_instance(self):
"""Check that no orphaned Software Instances would be created
In below scenario system shall behave like mentioned:
OpenOrder.request(SR, A) | SR(A)
A.request(SR, B) | SR(A) <- SR(B)
B.request(SR, C) | SR(A) <- SR(B) <- SR(C)
C.request(SR, B) raises immediately, because the result would be:
SR(A)
SR(B) <- SR(C)
do B would become root of orphaned tree.
"""
# Setup sufficient amount of CP
self.computer_partition_amount = 3
sequence_list = SequenceList()
sequence_string = """
# Prepare software release
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create the computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install the software release
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Create Software Instance A (originates from Open Order)
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# From root request B
SelectRequestedReferenceB
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# From B request C
SelectRequestedReferenceC
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# Try to: from C request B and prove that it raises
SelectRequestedReferenceB
LoginDefaultUser # login as superuser in order to work in erp5
DirectRequestComputerPartitionRaisesDisconnectedSoftwareTree
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def stepDirectRequestComputerPartitionRaisesCyclicSoftwareTree(self,
sequence, **kw):
software_instance = self.portal.portal_catalog.getResultValue(
uid = sequence['software_instance_uid'])
from erp5.document.SoftwareInstance import CyclicSoftwareTree
self.assertRaises(CyclicSoftwareTree,
software_instance.requestSoftwareInstance,
software_release=sequence['software_release_uri'],
software_type=sequence['requested_reference'],
partition_reference=sequence['requested_reference'],
shared=False,
instance_xml=self.minimal_correct_xml,
sla_xml=self.minimal_correct_xml,
state='started'
)
def test_bug_cyclic_software_instance(self):
"""Check that no cyclic Software Instance trees would be created
In below scenario system shall behave like mentioned:
OpenOrder.request(SR, A) | SR(A)
A.request(SR, B) | SR(A) <- SR(B)
B.request(SR, A) | SR(A) <- SR(B) <- SR(C)
C.request(SR, B) raises immediately, because the result would be:
SR(A)
SR(B) <-> SR(C)
so B and C would be cyclic
"""
# Setup sufficient amount of CP
self.computer_partition_amount = 3
sequence_list = SequenceList()
sequence_string = """
# Prepare software release
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create the computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install the software release
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Create Software Instance A (originates from Open Order)
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# From root request B
SelectRequestedReferenceB
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# From B request C
SelectRequestedReferenceC
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# Try to: from C request B and prove that it raises
SelectRequestedReferenceB
LoginDefaultUser # login as superuser in order to work in erp5
DirectRequestComputerPartitionRaisesCyclicSoftwareTree
"""
sequence_list.addSequenceString(sequence_string)
import erp5.document.SoftwareInstance
def makeTrue(*args, **kwargs):
return True
# Disable temporialy checkConnected in order to have only
# checkCyclic called
erp5.document.SoftwareInstance.original_checkConnected = \
erp5.document.SoftwareInstance.checkConnected
erp5.document.SoftwareInstance.checkConnected = makeTrue
try:
sequence_list.play(self)
finally:
erp5.document.SoftwareInstance.checkConnected = \
erp5.document.SoftwareInstance.original_checkConnected
del(erp5.document.SoftwareInstance.original_checkConnected)
def stepDirectRequestComputerPartitionRaisesValueError(self,
sequence, **kw):
software_instance = self.portal.portal_catalog.getResultValue(
uid = sequence['software_instance_uid'])
self.assertRaises(ValueError,
software_instance.requestSoftwareInstance,
software_release=sequence['software_release_uri'],
software_type=sequence['requested_reference'],
partition_reference=sequence['requested_reference'],
shared=False,
instance_xml=self.minimal_correct_xml,
sla_xml=self.minimal_correct_xml,
state='started'
)
def test_bug_cyclic_software_instance_small_tree(self):
"""Check that no cyclic Software Instance trees would be created
In below scenario system shall behave like mentioned:
OpenOrder.request(SR, A) | SR(A)
A.request(SR, B) | SR(A) <- SR(B)
B.request(SR, A) raises immediately, because the result would be:
SR(A) <-> SR(B)
so B and A would be cyclic
"""
# Setup sufficient amount of CP
self.computer_partition_amount = 2
sequence_list = SequenceList()
sequence_string = """
# Prepare software release
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create the computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install the software release
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Create Software Instance A (originates from Open Order)
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# From root request B
SelectRequestedReferenceB
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# Try to: From B request root
SelectRequestedReferenceRootSoftwareInstanceTitle
LoginDefaultUser # login as superuser in order to work in erp5
DirectRequestComputerPartitionRaisesValueError
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_suite():
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(TestVifibSlapBugs))
return suite
...@@ -4714,1041 +4714,6 @@ class TestVifibSlapWebService(TestVifibSlapWebServiceMixin): ...@@ -4714,1041 +4714,6 @@ class TestVifibSlapWebService(TestVifibSlapWebServiceMixin):
sequence_list.addSequenceString(sequence_string) sequence_list.addSequenceString(sequence_string)
sequence_list.play(self) sequence_list.play(self)
########################################
# Bug related tests
########################################
def test_bug_Person_request_more_then_one_instance(self):
self.computer_partition_amount = 2
sequence_list = SequenceList()
sequence_string = self.prepare_person_requested_software_instance + '\
LoginTestVifibCustomer \
PersonRequestSoftwareInstance \
Tic \
Logout \
'
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_ComputerPartition_request_two_similar(self):
"""
Checks that requesting twice with different arguments from same Computer
Partition will return different objects."""
self.computer_partition_amount = 3
sequence_list = SequenceList()
sequence_string = self.prepare_install_requested_computer_partition_sequence_string + '\
SlapLoginCurrentSoftwareInstance \
RequestTwoAndCheckDifferentResult \
SlapLogout \
'
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_doubleClickOnStart(self):
sequence_list = SequenceList()
sequence_string = self\
.prepare_stopped_computer_partition_sequence_string + """
LoginTestVifibCustomer
RequestSoftwareInstanceStart
RequestSoftwareInstanceStartRaisesValueError
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListConfirmed
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_doubleClickOnStart_serializeIsCalled(self):
sequence_list = SequenceList()
sequence_string = self\
.prepare_stopped_computer_partition_sequence_string + """
LoginTestVifibCustomer
RequestSoftwareInstanceStartCheckSerializeIsCalled
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_doubleClickOnDestroy(self):
sequence_list = SequenceList()
sequence_string = self\
.prepare_installed_computer_partition_sequence_string + """
LoginTestVifibCustomer
RequestSoftwareInstanceDestroy
RequestSoftwareInstanceDestroyRaisesValueError
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_doubleClickOnDestroy_serializeIsCalled(self):
sequence_list = SequenceList()
sequence_string = self\
.prepare_installed_computer_partition_sequence_string + """
LoginTestVifibCustomer
RequestSoftwareInstanceDestroyCheckSerializeIsCalled
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def stepArchiveSoftwareRelease(self, sequence, **kw):
"""
Submit the software release document.
"""
software_release_uid = sequence["software_release_uid"]
software_release = self.portal.portal_catalog.getResultValue(
uid=software_release_uid)
software_release.portal_workflow.doActionFor(software_release,
'archive_action')
def test_bug_archived_software_release_access(self):
"""Checks that Computer has access to archived Software Release"""
sequence_string = self.\
prepare_start_requested_computer_partition_sequence_string + \
"""
LoginTestVifibDeveloper
ArchiveSoftwareRelease
Tic
Logout
SlapLoginCurrentComputer
SoftwareInstanceStarted
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStarted
Logout
"""
sequence_list = SequenceList()
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def stepStoreCurrentSoftwareInstanceUidBufferA(self, sequence, **kw):
sequence['buffer_a_software_instance_uid'] = sequence['software_instance_uid']
def stepStoreCurrentSoftwareInstanceUidBufferB(self, sequence, **kw):
sequence['buffer_b_software_instance_uid'] = sequence['software_instance_uid']
def stepStoreCurrentComputerUidBufferA(self, sequence, **kw):
sequence['buffer_a_computer_uid'] = sequence['computer_uid']
def stepStoreCurrentComputerUidBufferB(self, sequence, **kw):
sequence['buffer_b_computer_uid'] = sequence['computer_uid']
def stepRestoreSoftwareInstanceUidFromBufferA(self, sequence, **kw):
sequence['software_instance_uid'] = sequence['buffer_a_software_instance_uid']
def stepRestoreSoftwareInstanceUidFromBufferB(self, sequence, **kw):
sequence['software_instance_uid'] = sequence['buffer_b_software_instance_uid']
def stepRestoreComputerUidFromBufferA(self, sequence, **kw):
sequence['computer_uid'] = sequence['buffer_a_computer_uid']
def stepRestoreComputerUidFromBufferB(self, sequence, **kw):
sequence['computer_uid'] = sequence['buffer_b_computer_uid']
def stepStoreCurrentComputerReferenceBufferA(self, sequence, **kw):
sequence['buffer_a_computer_reference'] = sequence['computer_reference']
def stepStoreCurrentComputerReferenceBufferB(self, sequence, **kw):
sequence['buffer_b_computer_reference'] = sequence['computer_reference']
def stepStoreCurrentComputerPartitionUidBufferA(self, sequence, **kw):
sequence['buffer_a_computer_partition_uid'] = sequence['computer_partition_uid']
def stepStoreCurrentComputerPartitionUidBufferB(self, sequence, **kw):
sequence['buffer_b_computer_partition_uid'] = sequence['computer_partition_uid']
def stepStoreCurrentComputerPartitionReferenceBufferA(self, sequence, **kw):
sequence['buffer_a_computer_partition_reference'] = sequence['computer_partition_reference']
def stepStoreCurrentComputerPartitionReferenceBufferB(self, sequence, **kw):
sequence['buffer_b_computer_partition_reference'] = sequence['computer_partition_reference']
def stepRestoreComputerReferenceFromBufferA(self, sequence, **kw):
sequence['computer_reference'] = sequence['buffer_a_computer_reference']
def stepRestoreComputerReferenceFromBufferB(self, sequence, **kw):
sequence['computer_reference'] = sequence['buffer_b_computer_reference']
def stepRestoreComputerPartitionUidFromBufferA(self, sequence, **kw):
sequence['computer_partition_uid'] = sequence['buffer_a_computer_partition_uid']
def stepRestoreComputerPartitionUidFromBufferB(self, sequence, **kw):
sequence['computer_partition_uid'] = sequence['buffer_b_computer_partition_uid']
def stepRestoreComputerPartitionReferenceFromBufferA(self, sequence, **kw):
sequence['computer_partition_reference'] = sequence['buffer_a_computer_partition_reference']
def stepRestoreComputerPartitionReferenceFromBufferB(self, sequence, **kw):
sequence['computer_partition_reference'] = sequence['buffer_b_computer_partition_reference']
def stepCheckHostingSubscriptionMultipleComputerAuditor(self, sequence, **kw):
hosting_subscription = self.portal.portal_catalog.getResultValue(
uid=sequence['hosting_subscription_uid'])
role_list = hosting_subscription.get_local_roles()
setup_packing_list_line_list = [q for q in
hosting_subscription.getAggregateRelatedValueList(
portal_type='Sale Packing List Line') if q.getResource() ==
self.portal.portal_preferences.getPreferredInstanceSetupResource()]
computer_list = [q.getAggregateValue(
portal_type='Computer Partition').getParentValue() for q in
setup_packing_list_line_list]
for computer in computer_list:
self.assertTrue((computer.getReference(), ('Auditor',))) in role_list
def test_bug_destruction_of_partition_originated_from_another_computer(self):
"""Checks that computer is capable to destroy own Software Instance
If software instance originated on computer comes from another computer it
shall be possible to sucesfully destroy it.
Test is done in a way to trigger unstable Assignor role calculation
on Hosting Subscription which leads to unavailability of Software Instances
from one computer to another.
"""
sequence_list = SequenceList()
sequence_string = """
# Prepare software release shared by both Computers
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create first computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install software on first computer
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Now request and instantiate this software release on first computer
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
StoreCurrentComputerPartitionReferenceBufferA
StoreCurrentComputerPartitionUidBufferA
StoreCurrentSoftwareInstanceUidBufferA
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# Start it..
SlapLoginCurrentComputer
SoftwareInstanceAvailable
Tic
SlapLogout
LoginDefaultUser
SetSelectedComputerPartition
CheckComputerPartitionInstanceSetupSalePackingListStopped
CheckComputerPartitionInstanceHostingSalePackingListConfirmed
Logout
SlapLoginCurrentComputer
SoftwareInstanceStarted
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStarted
Logout
# ...stop it...
LoginDefaultUser
RequestSoftwareInstanceStop
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStopped
Logout
SlapLoginCurrentComputer
SoftwareInstanceStopped
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListDelivered
Logout
# ...and request destruction
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# Now prepare second computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferB
StoreCurrentComputerUidBufferB
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
StoreCurrentComputerReferenceBufferB
StoreCurrentComputerUidBufferB
# Now request self software release from one computer to another
RestoreComputerReferenceFromBufferA
RestoreComputerUidFromBufferA
RestoreSoftwareInstanceUidFromBufferA
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
StoreCurrentComputerPartitionReferenceBufferB
StoreCurrentComputerPartitionUidBufferB
StoreCurrentSoftwareInstanceUidBufferB
RestoreComputerReferenceFromBufferB
RestoreComputerUidFromBufferB
# Start the requested software instance...
SlapLoginCurrentComputer
SoftwareInstanceAvailable
Tic
SlapLogout
LoginDefaultUser
SetSelectedComputerPartition
CheckComputerPartitionInstanceSetupSalePackingListStopped
CheckComputerPartitionInstanceHostingSalePackingListConfirmed
Logout
SlapLoginCurrentComputer
SoftwareInstanceStarted
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStarted
Logout
# ...and stop it
LoginDefaultUser
RequestSoftwareInstanceStop
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListStopped
Logout
SlapLoginCurrentComputer
SoftwareInstanceStopped
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceHostingSalePackingListDelivered
Logout
# Now request destruction of second software instance...
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# ...and destroy it
SlapLoginCurrentComputer
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
Logout
# Time to switch back to first software instance and destroy it
RestoreComputerPartitionReferenceFromBufferA
RestoreComputerPartitionUidFromBufferA
RestoreSoftwareInstanceUidFromBufferA
RestoreComputerReferenceFromBufferA
RestoreComputerUidFromBufferA
SlapLoginCurrentComputer
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
Logout
LoginDefaultUser
CheckHostingSubscriptionMultipleComputerAuditor
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_destruction_confirmed_instance_setup(self):
"""Proves that all is correctly handled in case of confirmed instance
setup packing list existence"""
sequence_list = SequenceList()
sequence_string = self.prepare_install_requested_computer_partition_sequence_string + \
"""
LoginTestVifibCustomer
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# Now there are two packing lists in confirmed state:
# * one for instance setup
# * one for instance destruction
# Simulate typical scenario:
# * stopped
# * commit
# * destroyed
# * commit
# * tic
SlapLoginCurrentComputer
SoftwareInstanceStopped
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListDelivered
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
CheckComputerPartitionNoInstanceHostingSalePackingList
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_destruction_with_cancelled_packing_list(self):
"""Proves that even if some packing lists are in cancelled state
it is possible to destroy software instance"""
sequence_list = SequenceList()
sequence_string = self.prepare_stopped_computer_partition_sequence_string + """
# Request destruction...
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# and cancel current destruction.
LoginDefaultUser
SelectCurrentlyUsedSalePackingListUid
CancelSalePackingList
Tic
CheckComputerPartitionInstanceCleanupSalePackingListCancelled
Logout
# So all packing lists are finished, but one is cancelled,
# time to request destruction...
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# ...and destroy it
SlapLoginCurrentComputer
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def test_bug_destruction_with_unfinished_packing_list(self):
"""Proves that even if some packing lists are not fully delivered
it is possible to destroy software instance"""
sequence_list = SequenceList()
sequence_string = """
# Prepare software release
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create first computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install software on first computer
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Now request and instantiate this software release on first computer
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# Request destruction...
LoginDefaultUser
RequestSoftwareInstanceDestroy
Tic
Logout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListConfirmed
Logout
# ...and destroy it
SlapLoginCurrentComputer
SoftwareInstanceDestroyed
Tic
SlapLogout
LoginDefaultUser
CheckComputerPartitionInstanceCleanupSalePackingListDelivered
CheckComputerPartitionIsFree
Logout
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def stepDirectRequestComputerPartitionRaisesDisconnectedSoftwareTree(self,
sequence, **kw):
software_instance = self.portal.portal_catalog.getResultValue(
uid = sequence['software_instance_uid'])
from erp5.document.SoftwareInstance import DisconnectedSoftwareTree
self.assertRaises(DisconnectedSoftwareTree,
software_instance.requestSoftwareInstance,
software_release=sequence['software_release_uri'],
software_type=sequence['requested_reference'],
partition_reference=sequence['requested_reference'],
shared=False,
instance_xml=self.minimal_correct_xml,
sla_xml=self.minimal_correct_xml,
state='started'
)
def test_bug_orhpaned_software_instance(self):
"""Check that no orphaned Software Instances would be created
In below scenario system shall behave like mentioned:
OpenOrder.request(SR, A) | SR(A)
A.request(SR, B) | SR(A) <- SR(B)
B.request(SR, C) | SR(A) <- SR(B) <- SR(C)
C.request(SR, B) raises immediately, because the result would be:
SR(A)
SR(B) <- SR(C)
do B would become root of orphaned tree.
"""
# Setup sufficient amount of CP
self.computer_partition_amount = 3
sequence_list = SequenceList()
sequence_string = """
# Prepare software release
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create the computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install the software release
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Create Software Instance A (originates from Open Order)
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# From root request B
SelectRequestedReferenceB
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# From B request C
SelectRequestedReferenceC
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# Try to: from C request B and prove that it raises
SelectRequestedReferenceB
LoginDefaultUser # login as superuser in order to work in erp5
DirectRequestComputerPartitionRaisesDisconnectedSoftwareTree
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
def stepDirectRequestComputerPartitionRaisesCyclicSoftwareTree(self,
sequence, **kw):
software_instance = self.portal.portal_catalog.getResultValue(
uid = sequence['software_instance_uid'])
from erp5.document.SoftwareInstance import CyclicSoftwareTree
self.assertRaises(CyclicSoftwareTree,
software_instance.requestSoftwareInstance,
software_release=sequence['software_release_uri'],
software_type=sequence['requested_reference'],
partition_reference=sequence['requested_reference'],
shared=False,
instance_xml=self.minimal_correct_xml,
sla_xml=self.minimal_correct_xml,
state='started'
)
def test_bug_cyclic_software_instance(self):
"""Check that no cyclic Software Instance trees would be created
In below scenario system shall behave like mentioned:
OpenOrder.request(SR, A) | SR(A)
A.request(SR, B) | SR(A) <- SR(B)
B.request(SR, A) | SR(A) <- SR(B) <- SR(C)
C.request(SR, B) raises immediately, because the result would be:
SR(A)
SR(B) <-> SR(C)
so B and C would be cyclic
"""
# Setup sufficient amount of CP
self.computer_partition_amount = 3
sequence_list = SequenceList()
sequence_string = """
# Prepare software release
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create the computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install the software release
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Create Software Instance A (originates from Open Order)
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# From root request B
SelectRequestedReferenceB
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# From B request C
SelectRequestedReferenceC
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# Try to: from C request B and prove that it raises
SelectRequestedReferenceB
LoginDefaultUser # login as superuser in order to work in erp5
DirectRequestComputerPartitionRaisesCyclicSoftwareTree
"""
sequence_list.addSequenceString(sequence_string)
import erp5.document.SoftwareInstance
def makeTrue(*args, **kwargs):
return True
# Disable temporialy checkConnected in order to have only
# checkCyclic called
erp5.document.SoftwareInstance.original_checkConnected = \
erp5.document.SoftwareInstance.checkConnected
erp5.document.SoftwareInstance.checkConnected = makeTrue
try:
sequence_list.play(self)
finally:
erp5.document.SoftwareInstance.checkConnected = \
erp5.document.SoftwareInstance.original_checkConnected
del(erp5.document.SoftwareInstance.original_checkConnected)
def stepDirectRequestComputerPartitionRaisesValueError(self,
sequence, **kw):
software_instance = self.portal.portal_catalog.getResultValue(
uid = sequence['software_instance_uid'])
self.assertRaises(ValueError,
software_instance.requestSoftwareInstance,
software_release=sequence['software_release_uri'],
software_type=sequence['requested_reference'],
partition_reference=sequence['requested_reference'],
shared=False,
instance_xml=self.minimal_correct_xml,
sla_xml=self.minimal_correct_xml,
state='started'
)
def test_bug_cyclic_software_instance_small_tree(self):
"""Check that no cyclic Software Instance trees would be created
In below scenario system shall behave like mentioned:
OpenOrder.request(SR, A) | SR(A)
A.request(SR, B) | SR(A) <- SR(B)
B.request(SR, A) raises immediately, because the result would be:
SR(A) <-> SR(B)
so B and A would be cyclic
"""
# Setup sufficient amount of CP
self.computer_partition_amount = 2
sequence_list = SequenceList()
sequence_string = """
# Prepare software release
LoginTestVifibDeveloper
SelectNewSoftwareReleaseUri
CreateSoftwareRelease
Tic
SubmitSoftwareRelease
Tic
CreateSoftwareProduct
Tic
ValidateSoftwareProduct
Tic
SetSoftwareProductToSoftwareRelease
PublishByActionSoftwareRelease
Logout
# Create the computer
LoginTestVifibAdmin
CreateComputer
Tic
Logout
SlapLoginCurrentComputer
FormatComputer
Tic
SlapLogout
StoreCurrentComputerReferenceBufferA
StoreCurrentComputerUidBufferA
# Install the software release
LoginTestVifibAdmin
RequestSoftwareInstallation
Tic
Logout
SlapLoginCurrentComputer
ComputerSoftwareReleaseAvailable
Tic
SlapLogout
# Create Software Instance A (originates from Open Order)
LoginTestVifibCustomer
PersonRequestSoftwareInstance
Tic
Logout
LoginDefaultUser
ConfirmOrderedSaleOrderActiveSense
Tic
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
LoginDefaultUser
CheckComputerPartitionInstanceSetupSalePackingListConfirmed
Logout
# From root request B
SelectRequestedReferenceB
SlapLoginCurrentSoftwareInstance
RequestComputerPartition
Tic
SlapLogout
LoginDefaultUser
CheckSoftwareInstanceAndRelatedComputerPartitionNoPackingListCheck
CheckRequestedSoftwareInstanceAndRelatedComputerPartition
Logout
LoginDefaultUser
SetCurrentSoftwareInstanceRequested
SetSelectedComputerPartition
SelectCurrentlyUsedSalePackingListUid
Logout
SlapLoginCurrentSoftwareInstance
CheckRequestedComputerPartitionCleanParameterList
Logout
# Try to: From B request root
SelectRequestedReferenceRootSoftwareInstanceTitle
LoginDefaultUser # login as superuser in order to work in erp5
DirectRequestComputerPartitionRaisesValueError
"""
sequence_list.addSequenceString(sequence_string)
sequence_list.play(self)
######################################## ########################################
# Software Instance graph helpers # Software Instance graph helpers
######################################## ########################################
......
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