Commit 03803d8a authored by Romain Courteaud's avatar Romain Courteaud

XXX Revert "slapos_cloud/slapos_erp5: Move SlapOSTestCaseDefaultScenarioMixin to slapos_erp5"

This reverts commit fa078ca0.

Include code to move
parent 524dd582
# -*- coding:utf-8 -*-
##############################################################################
#
# Copyright (c) 2019 Nexedi SA and Contributors. All Rights Reserved.
#
# This program is Free Software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
##############################################################################
import six
import six.moves.urllib.parse
from erp5.component.test.testSlapOSCloudSecurityGroup import TestSlapOSSecurityMixin
from erp5.component.test.testSlapOSJIOAPI import TestSlapOSJIOAPIMixin
from erp5.component.test.SlapOSTestCaseMixin import changeSkin
import re
import xml_marshaller
from AccessControl.SecurityManagement import getSecurityManager, \
setSecurityManager
class DefaultScenarioMixin(TestSlapOSSecurityMixin, TestSlapOSJIOAPIMixin):
def afterSetUp(self):
TestSlapOSSecurityMixin.afterSetUp(self)
preference = self.portal.portal_preferences.slapos_default_system_preference
preference.edit(
preferred_credential_alarm_automatic_call=0,
preferred_credential_recovery_automatic_approval=0,
preferred_credential_request_automatic_approval=1
)
"""
self.web_site = self.portal.web_site_module.hostingjs
self.callUpdateRevision()
# Enable alarms for regularisation request
self.portal.portal_alarms.slapos_crm_create_regularisation_request.setEnabled(True)
self.portal.portal_alarms.slapos_crm_invalidate_suspended_regularisation_request.setEnabled(True)
self.portal.portal_alarms.slapos_crm_trigger_stop_reminder_escalation.setEnabled(True)
self.portal.portal_alarms.slapos_crm_trigger_stop_acknowledgment_escalation.setEnabled(True)
self.portal.portal_alarms.slapos_crm_trigger_delete_reminder_escalation.setEnabled(True)
self.portal.portal_alarms.slapos_crm_trigger_acknowledgment_escalation.setEnabled(True)
"""
# Create akarls steps
self.createAlarmStep()
def createProject(self):
project = self.portal.project_module.newContent(
portal_type='Project',
title='project-%s' % self.generateNewId()
)
project.validate()
return project
def createAdminUser(self, project):
""" Create a Admin user, to manage compute_nodes and instances eventually """
admin_user_login = self.portal.portal_catalog.getResultValue(
portal_type="ERP5 Login",
reference="admin_user",
validation_state="validated"
)
if admin_user_login is None:
admin_user = self.portal.person_module\
.newContent(portal_type="Person")
admin_user.newContent(
portal_type="ERP5 Login",
reference="admin_user").validate()
admin_user.edit(
first_name="Admin User",
reference="Admin_user",
default_email_text="do_not_reply_to_admin@example.org",
)
admin_user.validate()
else:
admin_user = admin_user_login.getParentValue()
admin_user.newContent(
portal_type='Assignment',
destination_project_value=project,
function='production/manager'
).open()
self.admin_user = admin_user
@changeSkin('Hal')
def joinSlapOS(self, web_site, reference):
def findMessage(email, body):
for candidate in reversed(self.portal.MailHost.getMessageList()):
if [q for q in candidate[1] if email in q] and body in candidate[2]:
return candidate[2]
self.portal.portal_skins.changeSkin('RJS')
credential_request_form = self.web_site.slapos_master_panel.hateoas.connection.join_form()
expected_message = 'You will receive a confirmation email to activate your account.'
self.assertTrue(expected_message in credential_request_form,
'%s not in %s' % (expected_message, credential_request_form))
email = '%s@example.com' % reference
redirect_url = self.web_site.slapos_master_panel.hateoas.connection.WebSection_newCredentialRequest(
reference=reference,
default_email_text=email,
first_name="Joe",
last_name=reference,
password="demo_functional_user",
default_telephone_text="12345678",
corporate_name="Nexedi",
default_address_city="Campos",
default_address_street_address="Av Pelinca",
default_address_zip_code="28480",
default_address_region='europe/west/france',
)
parsed_url = six.moves.urllib.parse.urlparse(redirect_url)
self.assertEqual(parsed_url.path.split('/')[-1], 'login_form')
self.assertEqual(
sorted(six.iteritems(dict(six.moves.urllib.parse.parse_qsl(parsed_url.query)))), [
('portal_status_message', 'Thank you for your registration. You will receive an email to activate your account.'),
])
self.tic()
to_click_message = findMessage(email, 'You have requested one user')
self.assertNotEqual(None, to_click_message)
to_click_url = re.search('href="(.+?)"', to_click_message).group(1)
self.assertIn('%s/hateoas/connection/ERP5Site_activeLogin' % self.web_site.getId(), to_click_url)
join_key = to_click_url.split('=')[-1]
self.assertNotEqual(join_key, None)
self.portal.portal_skins.changeSkin('RJS')
web_site.slapos_master_panel.hateoas.connection.ERP5Site_activeLogin(key=join_key)
self.assertEqual(self.portal.REQUEST.RESPONSE.getStatus(), 303)
self.assertIn(self.web_site.getId() + "/%23%21login%3Fp.page%3Dslapos%7B%26n.me%7D",
self.portal.REQUEST.RESPONSE.getHeader("Location"))
self.tic()
welcome_message = findMessage(email, "the creation of you new")
self.assertNotEqual(None, welcome_message)
def _getCurrentInstanceTreeList(self):
person = self.portal.portal_membership.getAuthenticatedMember().getUserValue()
if person is not None:
return self.portal.portal_catalog(
portal_type="Instance Tree",
default_destination_section_uid=person.getUid(),
validation_state='validated')
return []
def setAccessToMemcached(self, agent):
agent.setAccessStatus("#access ")
def requestComputeNode(self, title, project_reference):
#requestXml = self.portal.portal_slap.requestComputer(title, project_reference)
request_data = self.postToApi({
"portal_type": "Compute Node",
"title": title
})
self.tic()
self.callUpdateRevisionAndTic()
return request_data["compute_node_id"]
def supplySoftware(self, server, url, state='available'):
self.postToApi({
"portal_type": "Software Installation",
"compute_node_id": server.getReference(),
"software_release_uri": url,
"state": state,
})
self.tic()
self.callUpdateRevisionAndTic()
software_installation = self.portal.portal_catalog.getResultValue(
portal_type='Software Installation',
url_string=url,
default_aggregate_uid=server.getUid())
self.assertNotEqual(None, software_installation)
if state=='available':
self.assertEqual('start_requested', software_installation.getSlapState())
else:
self.assertEqual('destroy_requested', software_installation.getSlapState())
@changeSkin('RJS')
def setServerOpenPublic(self, server):
server.edit(
allocation_scope='open')
self.assertEqual('open', server.getAllocationScope())
self.assertEqual('close', server.getCapacityScope())
server.edit(capacity_scope='open')
self.tic()
def formatComputeNode(self, compute_node, partition_count=10):
compute_node_dict = dict(
compute_node_id=compute_node.getReference(),
portal_type="Compute Node",
)
compute_node_dict['compute_partition_list'] = []
a = compute_node_dict['compute_partition_list'].append
for i in range(1, partition_count+1):
a(dict(
partition_id='part%s' % i,
ip_list=[
{
"ip-address":'p%sa1' % i,
"network-interface": 'tap%s' % i,
},
{
"ip-address":'p%sa2' % i,
"network-interface": 'tap%s' % i,
},
{
"ip-address":'p%sa1' % i,
"gateway-ip-address":'p%sn1' % i,
"network-interface": 'tap%s' % i,
"netmask": '255.255.255.0',
"network-address": '128.0.0.1',
},
{
"ip-address":'p%sa2' % i,
"gateway-ip-address":'p%sn2' % i,
"network-interface": 'tap%s' % i,
"netmask": '255.255.255.0',
"network-address": '128.0.0.1',
}
]
))
sm = getSecurityManager()
try:
self.login(compute_node.getUserId())
self.putToApi(compute_node_dict)
self.tic()
self.assertEqual(partition_count,
len(compute_node.contentValues(portal_type='Compute Partition')))
finally:
setSecurityManager(sm)
def simulateSlapgridSR(self, compute_node):
sm = getSecurityManager()
compute_node_user_id = compute_node.getUserId()
try:
self.login(compute_node_user_id)
software_release_list = self.allDocsToApi({
"portal_type": "Software Installation",
"compute_node_id": compute_node.getReference()
})["result_list"]
for software_release in software_release_list:
if software_release["state"] == 'destroyed':
self.putToApi({
"portal_type": "Software Installation",
"compute_noode_id": compute_node.getReference(),
"software_release_uri": software_release["software_release_uri"],
"reported_state": "destroyed",
})
else:
self.putToApi({
"portal_type": "Software Installation",
"compute_noode_id": compute_node.getReference(),
"software_release_uri": software_release["software_release_uri"],
"reported_state": "available",
})
finally:
setSecurityManager(sm)
self.tic()
def simulateSlapgridUR(self, compute_node):
sm = getSecurityManager()
compute_node_user_id = compute_node.getUserId()
try:
self.callUpdateRevisionAndTic()
self.login(compute_node_user_id)
instance_list = self.allDocsToApi({
"portal_type": "Software Instance",
"compute_node_id": compute_node.getReference()
})["result_list"]
destroyed_partition_id_list = []
for partition in instance_list:
if partition["state"] == 'destroyed':
self.putToApi({
"portal_type": "Software Instance",
"reference": partition["reference"],
"reported_state": "destroyed"
})
destroyed_partition_id_list.append(partition["compute_partition_id"])
finally:
setSecurityManager(sm)
self.tic()
self.stepCallSlaposFreeComputePartitionAlarm()
self.tic()
self.callUpdateRevisionAndTic()
free_partition_id_list = []
for partition in compute_node.contentValues(portal_type='Compute Partition'):
if partition.getReference() in destroyed_partition_id_list \
and partition.getSlapState() == 'free':
free_partition_id_list.append(partition.getReference())
self.assertSameSet(destroyed_partition_id_list, free_partition_id_list)
def simulateSlapgridCP(self, compute_node):
sm = getSecurityManager()
compute_node_user_id = compute_node.getUserId()
try:
self.login(compute_node_user_id)
instance_list = self.allDocsToApi({
"portal_type": "Software Instance",
"compute_node_id": compute_node.getReference()
})["result_list"]
for partition in instance_list:
if partition["state"] in ('started', 'stopped'):
partition = self.getToApi({
"portal_type": "Software Instance",
"reference": partition["reference"],
})
instance_reference = partition["reference"]
ip_list = partition['ip_list']
connection_dict = dict(
url_1 = 'http://%s/' % ip_list[0][1],
url_2 = 'http://%s/' % ip_list[1][1],
)
self.login()
instance_user_id = self.portal.portal_catalog.getResultValue(
reference=instance_reference, portal_type="Software Instance").getUserId()
oldsm = getSecurityManager()
try:
self.login(instance_user_id)
self.putToApi({
"portal_type": "Software Instance",
"reference": partition["reference"],
"connection_parameters": connection_dict,
})
hosted_instance_list = self.allDocsToApi({
"portal_type": "Shared Instance",
"host_instance_reference": partition["reference"],
"state": "started"
})["result_list"]
for hosted_instance in hosted_instance_list:
hosted_reference = hosted_instance['reference']
connection_dict = dict(
url_1 = 'http://%s/%s' % (ip_list[0][1], hosted_reference),
url_2 = 'http://%s/%s' % (ip_list[1][1], hosted_reference)
)
self.putToApi({
"portal_type": "Software Instance",
"reference": hosted_reference,
"connection_parameters": connection_dict,
})
finally:
setSecurityManager(oldsm)
finally:
setSecurityManager(sm)
self.tic()
def personRequestInstanceNotReady(self, **kw):
kw["portal_type"] = "Software Instance"
response = self.postToApi(kw)
response.pop("$schema")
response.pop("debug_id", None)
expected_dict = {
"message": "Software Instance Not Ready",
"name": "SoftwareInstanceNotReady",
"status": 102,
}
if response != expected_dict:
self.assertIsNone(response['compute_node_id'])
self.assertIsNone(response['compute_partition_id'])
self.tic()
def personRequestInstance(self, **kw):
kw["portal_type"] = "Software Instance"
software_instance = self.postToApi(kw)
self.assertTrue(software_instance.get("portal_type", "") in ("Slave Instance", "Software Instance"))
self.tic()
return software_instance
def checkSlaveInstanceAllocation(self, person_user_id, person_reference,
instance_title, software_release, software_type, server,
project_reference):
self.tic()
self.login(person_user_id)
self.personRequestInstanceNotReady(
software_release_uri=software_release,
software_type=software_type,
partition_reference=instance_title,
shared_xml='<marshal><bool>1</bool></marshal>',
project_reference=project_reference
title=instance_title,
shared=True
)
# XXX search only for this user
instance_tree = self.portal.portal_catalog.getResultValue(
portal_type="Instance Tree",
title=instance_title,
follow_up__reference=project_reference
)
self.checkServiceSubscriptionRequest(instance_tree)
self.tic()
self.callUpdateRevisionAndTic()
self.login(person_user_id)
self.personRequestInstance(
software_release_uri=software_release,
software_type=software_type,
partition_reference=instance_title,
shared_xml='<marshal><bool>1</bool></marshal>',
project_reference=project_reference
title=instance_title,
shared=True
)
# now instantiate it on compute_node and set some nice connection dict
self.simulateSlapgridCP(server)
# let's find instances of user and check connection strings
instance_tree_list = [q.getObject() for q in
self._getCurrentInstanceTreeList()
if q.getTitle() == instance_title]
self.assertEqual(1, len(instance_tree_list))
instance_tree = instance_tree_list[0]
software_instance = instance_tree.getSuccessorValue()
self.assertEqual(software_instance.getTitle(),
instance_tree.getTitle())
connection_dict = software_instance.getConnectionXmlAsDict()
self.assertSameSet(('url_1', 'url_2'), connection_dict.keys())
self.login()
partition = software_instance.getAggregateValue()
self.assertSameSet(
['http://%s/%s' % (q.getIpAddress(), software_instance.getReference())
for q in partition.contentValues(
portal_type='Internet Protocol Address')],
connection_dict.values())
def checkInstanceTreeSlaveInstanceAllocation(
self,
person_user_id,
person_reference,
instance_tree_title, instance_title, software_release, software_type,
server,
project_reference
):
self.login(person_user_id)
# let's find instance of user
instance_tree_list = [q.getObject() for q in
self._getCurrentInstanceTreeList()
if q.getTitle() == instance_tree_title]
self.assertEqual(1, len(instance_tree_list))
instance_tree = instance_tree_list[0]
software_instance = instance_tree.getSuccessorValue()
self.login()
instance_user_id = software_instance.getUserId()
compute_partition = software_instance.getAggregateValue()
computer_id = compute_partition.getParentValue().getReference()
computer_partition_id = compute_partition.getTitle()
self.login(instance_user_id)
response = self.portal.portal_slap.requestComputerPartition(
computer_id=computer_id,
computer_partition_id=computer_partition_id,
software_release=software_release,
software_type=software_type,
partition_reference=instance_title,
shared_xml='<marshal><bool>2</bool></marshal>',
project_reference=project_reference
)
status = getattr(response, 'status', None)
self.assertEqual(408, status)
self.tic()
# now instantiate it on compute_node and set some nice connection dict
self.simulateSlapgridCP(server)
# let's find instances of user and check connection strings
slave_instance = software_instance.getSuccessorValue()
connection_dict = slave_instance.getConnectionXmlAsDict()
self.assertSameSet(('url_1', 'url_2'), connection_dict.keys())
self.login()
partition = slave_instance.getAggregateValue()
self.assertSameSet(
['http://%s/%s' % (q.getIpAddress(), slave_instance.getReference())
for q in partition.contentValues(
portal_type='Internet Protocol Address')],
connection_dict.values())
def checkRemoteInstanceAllocation(self, person_user_id, person_reference,
instance_title, software_release, software_type, server,
project_reference, connection_dict_to_check=None,
slave=False):
shared_xml = '<marshal><bool>%i</bool></marshal>' % int(slave)
self.login(person_user_id)
if connection_dict_to_check is None:
self.personRequestInstanceNotReady(
software_release=software_release,
software_type=software_type,
partition_reference=instance_title,
project_reference=project_reference,
shared_xml=shared_xml,
)
# XXX search only for this user
instance_tree = self.portal.portal_catalog.getResultValue(
portal_type="Instance Tree",
title=instance_title,
follow_up__reference=project_reference
)
self.checkServiceSubscriptionRequest(instance_tree)
self.tic()
self.login(person_user_id)
self.personRequestInstance(
software_release=software_release,
software_type=software_type,
partition_reference=instance_title,
project_reference=project_reference,
shared_xml=shared_xml,
)
# now instantiate it on compute_node and set some nice connection dict
# XXX XXX self.simulateSlapgridCP(server)
# let's find instances of user and check connection strings
instance_tree_list = [q.getObject() for q in
self._getCurrentInstanceTreeList()
if q.getTitle() == instance_title]
self.assertEqual(1, len(instance_tree_list))
instance_tree = instance_tree_list[0]
software_instance = instance_tree.getSuccessorValue()
self.assertEqual(software_instance.getTitle(),
instance_tree.getTitle())
connection_dict = software_instance.getConnectionXmlAsDict()
if connection_dict_to_check is None:
connection_dict_to_check = {}
self.assertSameSet(connection_dict_to_check.keys(), connection_dict.keys())
self.assertSameSet(
connection_dict_to_check.values(),
connection_dict.values())
def checkSlaveInstanceUnallocation(self, person_user_id,
person_reference, instance_title,
software_release, software_type, server,
project_reference):
self.login(person_user_id)
self.personRequestInstanceNotReady(
software_release_uri=software_release,
software_type=software_type,
partition_reference=instance_title,
shared_xml='<marshal><bool>1</bool></marshal>',
state='<marshal><string>destroyed</string></marshal>',
project_reference=project_reference
title=instance_title,
shared=True,
state='destroyed',
)
# let's find instances of user and check connection strings
instance_tree_list = [q.getObject() for q in
self._getCurrentInstanceTreeList()
if q.getTitle() == instance_title]
self.assertEqual(0, len(instance_tree_list))
def checkRemoteInstanceUnallocation(self, person_user_id,
person_reference, instance_title,
software_release, software_type, server,
project_reference):
self.login(person_user_id)
self.personRequestInstanceNotReady(
software_release=software_release,
software_type=software_type,
partition_reference=instance_title,
state='<marshal><string>destroyed</string></marshal>',
project_reference=project_reference
)
# let's find instances of user and check connection strings
instance_tree_list = [q.getObject() for q in
self._getCurrentInstanceTreeList()
if q.getTitle() == instance_title]
self.assertEqual(0, len(instance_tree_list))
def checkInstanceUnallocation(self, person_user_id,
person_reference, instance_title,
software_release, software_type, server, project_reference):
self.login(person_user_id)
self.personRequestInstanceNotReady(
software_release_uri=software_release,
software_type=software_type,
partition_reference=instance_title,
state='<marshal><string>destroyed</string></marshal>',
project_reference=project_reference
title=instance_title,
state='destroyed'
)
# now instantiate it on compute_node and set some nice connection dict
self.simulateSlapgridUR(server)
# let's find instances of user and check connection strings
instance_tree_list = [q.getObject() for q in
self._getCurrentInstanceTreeList()
if q.getTitle() == instance_title]
self.assertEqual(0, len(instance_tree_list))
def checkServiceSubscriptionRequest(self, service, simulation_state='invalidated'):
self.login()
subscription_request = self.portal.portal_catalog.getResultValue(
portal_type="Subscription Request",
aggregate__uid=service.getUid(),
simulation_state=simulation_state
)
self.assertNotEqual(subscription_request, None,
"Not found subscription request for %s" % service.getRelativeUrl())
return subscription_request
def checkInstanceAllocation(self, person_user_id, person_reference,
instance_title, software_release, software_type, server,
project_reference):
self.login(person_user_id)
self.personRequestInstanceNotReady(
software_release_uri=software_release,
software_type=software_type,
partition_reference=instance_title,
project_reference=project_reference
title=instance_title,
)
self.tic()
self.callUpdateRevisionAndTic()
# XXX search only for this user
instance_tree = self.portal.portal_catalog.getResultValue(
portal_type="Instance Tree",
title=instance_title,
follow_up__reference=project_reference
)
self.checkServiceSubscriptionRequest(instance_tree)
self.tic()
self.login(person_user_id)
self.personRequestInstance(
software_release_uri=software_release,
software_type=software_type,
partition_reference=instance_title,
project_reference=project_reference
title=instance_title,
)
# now instantiate it on compute_node and set some nice connection dict
self.simulateSlapgridCP(server)
# let's find instances of user and check connection strings
instance_tree_list = [q.getObject() for q in
self._getCurrentInstanceTreeList()
if q.getTitle() == instance_title]
self.assertEqual(1, len(instance_tree_list))
instance_tree = instance_tree_list[0]
software_instance = instance_tree.getSuccessorValue()
self.assertEqual(software_instance.getTitle(),
instance_tree.getTitle())
connection_dict = software_instance.getConnectionXmlAsDict()
self.assertSameSet(('url_1', 'url_2'), connection_dict.keys())
self.login()
partition = software_instance.getAggregateValue()
self.assertSameSet(
['http://%s/' % q.getIpAddress() for q in
partition.contentValues(portal_type='Internet Protocol Address')],
connection_dict.values())
def checkInstanceAllocationWithDeposit(self, person_user_id, person_reference,
instance_title, software_release, software_type, server,
project_reference, deposit_amount, currency):
self.login(person_user_id)
self.personRequestInstanceNotReady(
software_release=software_release,
software_type=software_type,
partition_reference=instance_title,
project_reference=project_reference
)
self.tic()
instance_tree = self.portal.portal_catalog.getResultValue(
portal_type="Instance Tree",
title=instance_title,
follow_up__reference=project_reference
)
person = instance_tree.getDestinationSectionValue()
self.assertEqual(person.getUserId(), person_user_id)
subscription_request = self.checkServiceSubscriptionRequest(instance_tree, 'submitted')
self.assertEqual(
subscription_request.getTotalPrice() - person.Entity_getDepositBalanceAmount([subscription_request]),
deposit_amount
)
self.tic()
outstanding_amount_list = person.Entity_getOutstandingDepositAmountList(
currency.getUid(), ledger_uid=subscription_request.getLedgerUid())
self.assertEqual(sum([i.total_price for i in outstanding_amount_list]), deposit_amount)
self.login(person.getUserId())
# Ensure to pay from the website
outstanding_amount = self.web_site.restrictedTraverse(outstanding_amount_list[0].getRelativeUrl())
outstanding_amount.Base_createExternalPaymentTransactionFromOutstandingAmountAndRedirect()
person.REQUEST.set('Entity_addDepositPayment_%s' % person.getUid(), None)
self.tic()
self.logout()
self.login()
payment_transaction = self.portal.portal_catalog.getResultValue(
portal_type="Payment Transaction",
destination_section_uid=person.getUid(),
simulation_state="started"
)
self.assertEqual(payment_transaction.getSpecialiseValue().getTradeConditionType(), "deposit")
# payzen interface will only stop the payment
payment_transaction.stop()
self.tic()
assert payment_transaction.receivable.getGroupingReference(None) is not None
self.login(person_user_id)
self.checkServiceSubscriptionRequest(instance_tree, 'invalidated')
amount = sum([i.total_price for i in person.Entity_getOutstandingDepositAmountList(
currency.getUid(), ledger_uid=subscription_request.getLedgerUid())])
self.assertEqual(0, amount)
self.login(person_user_id)
self.personRequestInstance(
software_release=software_release,
software_type=software_type,
partition_reference=instance_title,
project_reference=project_reference
)
# now instantiate it on compute_node and set some nice connection dict
self.simulateSlapgridCP(server)
# let's find instances of user and check connection strings
instance_tree_list = [q.getObject() for q in
self._getCurrentInstanceTreeList()
if q.getTitle() == instance_title]
self.assertEqual(1, len(instance_tree_list))
instance_tree = instance_tree_list[0]
software_instance = instance_tree.getSuccessorValue()
self.assertEqual(software_instance.getTitle(),
instance_tree.getTitle())
connection_dict = software_instance.getConnectionXmlAsDict()
self.assertSameSet(('url_1', 'url_2'), connection_dict.keys())
self.login()
partition = software_instance.getAggregateValue()
self.assertSameSet(
['http://%s/' % q.getIpAddress() for q in
partition.contentValues(portal_type='Internet Protocol Address')],
connection_dict.values())
def findMessage(self, email, body):
for candidate in reversed(self.portal.MailHost.getMessageList()):
if [q for q in candidate[1] if email in q] and body in candidate[2]:
return candidate[2]
def assertInvoiceNotification(self, person, is_email_expected=True):
if person.getLanguage() == "zh":
expected_message = self.expected_invoice_zh_notification_message
else:
expected_message = self.expected_invoice_en_notification_message
to_click_message = self.findMessage(person.getDefaultEmailText(),
expected_message)
if is_email_expected:
self.assertNotEqual(None, to_click_message)
else:
self.assertEqual(None, to_click_message)
def requestInstance(self, person_user_id, instance_title,
software_release, software_type, project_reference):
self.login(person_user_id)
self.personRequestInstanceNotReady(
software_release_uri=software_release,
software_type=software_type,
partition_reference=instance_title,
project_reference=project_reference
title=instance_title,
)
class DefaultScenarioMixinSlapTool(DefaultScenarioMixin):
"""
Same as default scenario mixin but with SlapTool methods
"""
def requestComputeNode(self, title):
requestXml = self.portal.portal_slap.requestComputer(title)
self.tic()
self.assertTrue('marshal' in requestXml)
compute_node = xml_marshaller.xml_marshaller.loads(requestXml)
compute_node_id = getattr(compute_node, '_computer_id', None)
self.assertNotEqual(None, compute_node_id)
return compute_node_id.encode('UTF-8')
def supplySoftware(self, server, url, state='available'):
self.portal.portal_slap.supplySupply(url, server.getReference(), state)
self.tic()
software_installation = self.portal.portal_catalog.getResultValue(
portal_type='Software Installation',
url_string=url,
default_aggregate_uid=server.getUid())
self.assertNotEqual(None, software_installation)
if state=='available':
self.assertEqual('start_requested', software_installation.getSlapState())
else:
self.assertEqual('destroy_requested', software_installation.getSlapState())
def formatComputeNode(self, compute_node, partition_count=10):
compute_node_dict = dict(
software_root='/opt',
reference=compute_node.getReference(),
netmask='255.255.255.0',
address='128.0.0.1',
instance_root='/srv'
)
compute_node_dict['partition_list'] = []
a = compute_node_dict['partition_list'].append
for i in range(1, partition_count+1):
a(dict(
reference='part%s' % i,
tap=dict(name='tap%s' % i),
address_list=[
dict(addr='p%sa1' % i, netmask='p%sn1' % i),
dict(addr='p%sa2' % i, netmask='p%sn2' % i)
]
))
sm = getSecurityManager()
try:
self.login(compute_node.getUserId())
self.portal.portal_slap.loadComputerConfigurationFromXML(
xml_marshaller.xml_marshaller.dumps(compute_node_dict))
self.tic()
self.assertEqual(partition_count,
len(compute_node.contentValues(portal_type='Compute Partition')))
finally:
setSecurityManager(sm)
def simulateSlapgridSR(self, compute_node):
sm = getSecurityManager()
compute_node_user_id = compute_node.getUserId()
try:
self.login(compute_node_user_id)
compute_node_xml = self.portal.portal_slap.getFullComputerInformation(
computer_id=compute_node.getReference())
if not isinstance(compute_node_xml, str):
compute_node_xml = compute_node_xml.getBody()
slap_compute_node = xml_marshaller.xml_marshaller.loads(compute_node_xml)
self.assertEqual('Computer', slap_compute_node.__class__.__name__)
for software_release in slap_compute_node._software_release_list:
if software_release._requested_state == 'destroyed':
self.portal.portal_slap.destroyedSoftwareRelease(
software_release._software_release,
compute_node.getReference())
else:
self.portal.portal_slap.availableSoftwareRelease(
software_release._software_release,
compute_node.getReference())
finally:
setSecurityManager(sm)
self.tic()
def simulateSlapgridUR(self, compute_node):
sm = getSecurityManager()
compute_node_user_id = compute_node.getUserId()
try:
self.login(compute_node_user_id)
compute_node_xml = self.portal.portal_slap.getFullComputerInformation(
computer_id=compute_node.getReference())
if not isinstance(compute_node_xml, str):
compute_node_xml = compute_node_xml.getBody()
slap_compute_node = xml_marshaller.xml_marshaller.loads(compute_node_xml)
self.assertEqual('Computer', slap_compute_node.__class__.__name__)
destroyed_partition_id_list = []
for partition in slap_compute_node._computer_partition_list:
if partition._requested_state == 'destroyed' \
and partition._need_modification == 1:
self.portal.portal_slap.destroyedComputerPartition(compute_node.getReference(),
partition._partition_id.encode("UTF-8")
)
destroyed_partition_id_list.append(partition._partition_id.encode("UTF-8"))
finally:
setSecurityManager(sm)
self.tic()
self.stepCallSlaposFreeComputePartitionAlarm()
self.tic()
free_partition_id_list = []
for partition in compute_node.contentValues(portal_type='Compute Partition'):
if partition.getReference() in destroyed_partition_id_list \
and partition.getSlapState() == 'free':
free_partition_id_list.append(partition.getReference())
self.assertSameSet(destroyed_partition_id_list, free_partition_id_list)
def simulateSlapgridCP(self, compute_node):
sm = getSecurityManager()
compute_node_reference = compute_node.getReference()
compute_node_user_id = compute_node.getUserId()
try:
self.login(compute_node_user_id)
compute_node_xml = self.portal.portal_slap.getFullComputerInformation(
computer_id=compute_node.getReference())
if not isinstance(compute_node_xml, str):
compute_node_xml = compute_node_xml.getBody()
slap_compute_node = xml_marshaller.xml_marshaller.loads(compute_node_xml)
self.assertEqual('Computer', slap_compute_node.__class__.__name__)
for partition in slap_compute_node._computer_partition_list:
if partition._requested_state in ('started', 'stopped') \
and partition._need_modification == 1:
instance_reference = partition._instance_guid.encode('UTF-8')
ip_list = partition._parameter_dict['ip_list']
connection_xml = xml_marshaller.xml_marshaller.dumps(dict(
url_1 = 'http://%s/' % ip_list[0][1],
url_2 = 'http://%s/' % ip_list[1][1],
))
self.login()
instance_user_id = self.portal.portal_catalog.getResultValue(
reference=instance_reference, portal_type="Software Instance").getUserId()
oldsm = getSecurityManager()
try:
self.login(instance_user_id)
self.portal.portal_slap.setComputerPartitionConnectionXml(
computer_id=compute_node_reference,
computer_partition_id=partition._partition_id,
connection_xml=connection_xml
)
for slave in partition._parameter_dict['slave_instance_list']:
slave_reference = slave['slave_reference']
connection_xml = xml_marshaller.xml_marshaller.dumps(dict(
url_1 = 'http://%s/%s' % (ip_list[0][1], slave_reference),
url_2 = 'http://%s/%s' % (ip_list[1][1], slave_reference)
))
self.portal.portal_slap.setComputerPartitionConnectionXml(
computer_id=compute_node_reference,
computer_partition_id=partition._partition_id,
connection_xml=connection_xml,
slave_reference=slave_reference
)
finally:
setSecurityManager(oldsm)
finally:
setSecurityManager(sm)
self.tic()
def requestParameterBackwardCompatibility(self, request_dict):
request_dict["partition_reference"] = request_dict.pop("title")
if "software_release_uri" in request_dict:
request_dict["software_release"] = request_dict.pop("software_release_uri")
if "shared" in request_dict:
shared = request_dict.pop("shared")
if shared:
request_dict["shared_xml"] = '<marshal><bool>1</bool></marshal>'
if "state" in request_dict:
request_dict["state"] = "<marshal><string>%s</string></marshal>" % request_dict["state"]
return request_dict
def personRequestInstanceNotReady(self, **kw):
response = self.portal.portal_slap.requestComputerPartition(**self.requestParameterBackwardCompatibility(kw))
status = getattr(response, 'status', None)
self.assertEqual(408, status)
self.tic()
def personRequestInstance(self, **kw):
response = self.portal.portal_slap.requestComputerPartition(**self.requestParameterBackwardCompatibility(kw))
self.assertTrue(isinstance(response, str), "response is not a string: %s" % response)
software_instance = xml_marshaller.xml_marshaller.loads(response)
self.assertEqual('SoftwareInstance', software_instance.__class__.__name__)
self.tic()
return software_instance
<?xml version="1.0"?>
<ZopeData>
<record id="1" aka="AAAAAAAAAAE=">
<pickle>
<global name="Test Component" module="erp5.portal_type"/>
</pickle>
<pickle>
<dictionary>
<item>
<key> <string>default_reference</string> </key>
<value> <string>SlapOSTestCaseDefaultScenarioMixin</string> </value>
</item>
<item>
<key> <string>description</string> </key>
<value>
<none/>
</value>
</item>
<item>
<key> <string>id</string> </key>
<value> <string>test.erp5.SlapOSTestCaseDefaultScenarioMixin</string> </value>
</item>
<item>
<key> <string>portal_type</string> </key>
<value> <string>Test Component</string> </value>
</item>
<item>
<key> <string>sid</string> </key>
<value>
<none/>
</value>
</item>
<item>
<key> <string>text_content_error_message</string> </key>
<value>
<tuple/>
</value>
</item>
<item>
<key> <string>text_content_warning_message</string> </key>
<value>
<tuple/>
</value>
</item>
<item>
<key> <string>version</string> </key>
<value> <string>erp5</string> </value>
</item>
<item>
<key> <string>workflow_history</string> </key>
<value>
<persistent> <string encoding="base64">AAAAAAAAAAI=</string> </persistent>
</value>
</item>
</dictionary>
</pickle>
</record>
<record id="2" aka="AAAAAAAAAAI=">
<pickle>
<global name="PersistentMapping" module="Persistence.mapping"/>
</pickle>
<pickle>
<dictionary>
<item>
<key> <string>data</string> </key>
<value>
<dictionary>
<item>
<key> <string>component_validation_workflow</string> </key>
<value>
<persistent> <string encoding="base64">AAAAAAAAAAM=</string> </persistent>
</value>
</item>
</dictionary>
</value>
</item>
</dictionary>
</pickle>
</record>
<record id="3" aka="AAAAAAAAAAM=">
<pickle>
<global name="WorkflowHistoryList" module="Products.ERP5Type.Workflow"/>
</pickle>
<pickle>
<dictionary>
<item>
<key> <string>_log</string> </key>
<value>
<list>
<dictionary>
<item>
<key> <string>action</string> </key>
<value> <string>validate</string> </value>
</item>
<item>
<key> <string>validation_state</string> </key>
<value> <string>validated</string> </value>
</item>
</dictionary>
</list>
</value>
</item>
</dictionary>
</pickle>
</record>
</ZopeData>
......@@ -2,13 +2,15 @@ test.erp5.testSlapOSAuthenticationPolicy
test.erp5.testSlapOSCodingStyle
test.erp5.testSlapOSCoreSkins
test.erp5.testSlapOSERP5Alarm
test.erp5.testSlapOSERP5AllocationScenario
test.erp5.testSlapOSERP5GroupRoleSecurity
test.erp5.testSlapOSERP5InteractionWorkflow
test.erp5.testSlapOSERP5LocalPermissionSlapOSInteractionWorkflow
test.erp5.testSlapOSERP5SiteDump
test.erp5.testSlapOSERP5SkinSelection
test.erp5.testSlapOSERP5SubscriptionChangeRequestScenario
test.erp5.testSlapOSERP5SubscriptionScenario
test.erp5.testSlapOSERP5VirtualMasterScenario
test.erp5.testSlapOSPrecacheManifest
test.erp5.testSlapOSWendelinCoreTwo
test.erp5.testSlapOSXHTML
test.erp5.SlapOSTestCaseDefaultScenarioMixin
test.erp5.testSlapOSXHTML
\ No newline at end of file
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