import getpass
import logging
import pkg_resources
+import pprint
import socket
import tempfile
import time
from oslo_serialization import jsonutils
from oslo_utils import encodeutils
-import shade
+from shade._heat import event_utils
-import yardstick.common.openstack_utils as op_utils
+from yardstick.common import constants as consts
from yardstick.common import exceptions
from yardstick.common import template_format
+from yardstick.common import openstack_utils as op_utils
+
log = logging.getLogger(__name__)
class HeatStack(object):
"""Represents a Heat stack (deployed template) """
- def __init__(self, name):
+ def __init__(self, name, os_cloud_config=None):
self.name = name
self.outputs = {}
- self._cloud = shade.openstack_cloud()
+ os_cloud_config = {} if not os_cloud_config else os_cloud_config
+ self._cloud = op_utils.get_shade_client(**os_cloud_config)
self._stack = None
+ def _update_stack_tracking(self):
+ outputs = self._stack.outputs
+ self.outputs = {output['output_key']: output['output_value'] for output
+ in outputs}
+ if self.uuid:
+ _DEPLOYED_STACKS[self.uuid] = self._stack
+
def create(self, template, heat_parameters, wait, timeout):
"""Creates an OpenStack stack from a template"""
with tempfile.NamedTemporaryFile('wb', delete=False) as template_file:
self._stack = self._cloud.create_stack(
self.name, template_file=template_file.name, wait=wait,
timeout=timeout, **heat_parameters)
- outputs = self._stack.outputs
- self.outputs = {output['output_key']: output['output_value'] for output
- in outputs}
- if self.uuid:
- _DEPLOYED_STACKS[self.uuid] = self._stack
+
+ self._update_stack_tracking()
+
+ def get_failures(self):
+ return event_utils.get_events(self._cloud, self._stack.id,
+ event_args={'resource_status': 'FAILED'})
+
+ def get(self):
+ """Retrieves an existing stack from the target cloud
+
+ Returns a bool indicating whether the stack exists in the target cloud
+ If the stack exists, it will be stored as self._stack
+ """
+ self._stack = self._cloud.get_stack(self.name)
+ if not self._stack:
+ return False
+
+ self._update_stack_tracking()
+ return True
@staticmethod
def stacks_exist():
# short hand for resources part of template
self.resources = self._template['resources']
- def __init__(self, name, template_file=None, heat_parameters=None):
+ def __init__(self, name, template_file=None, heat_parameters=None,
+ os_cloud_config=None):
self.name = name
self.keystone_client = None
self.heat_parameters = {}
+ self._os_cloud_config = {} if not os_cloud_config else os_cloud_config
# heat_parameters is passed to heat in stack create, empty dict when
# yardstick creates the template (no get_param in resources part)
}
}
- def add_port(self, name, network_name, subnet_name, vnic_type, sec_group_id=None,
+ def add_port(self, name, network, sec_group_id=None,
provider=None, allowed_address_pairs=None):
"""add to the template a named Neutron Port
"""
- log.debug("adding Neutron::Port '%s', network:'%s', subnet:'%s', vnic_type:'%s', "
- "secgroup:%s", name, network_name, subnet_name, vnic_type, sec_group_id)
+ net_is_existing = network.net_flags.get(consts.IS_EXISTING)
+ depends_on = [] if net_is_existing else [network.subnet_stack_name]
+ fixed_ips = [{'subnet': network.subnet}] if net_is_existing else [
+ {'subnet': {'get_resource': network.subnet_stack_name}}]
+ network_ = network.name if net_is_existing else {
+ 'get_resource': network.stack_name}
self.resources[name] = {
'type': 'OS::Neutron::Port',
- 'depends_on': [subnet_name],
+ 'depends_on': depends_on,
'properties': {
'name': name,
- 'binding:vnic_type': vnic_type,
- 'fixed_ips': [{'subnet': {'get_resource': subnet_name}}],
- 'network_id': {'get_resource': network_name},
- 'replacement_policy': 'AUTO',
+ 'binding:vnic_type': network.vnic_type,
+ 'fixed_ips': fixed_ips,
+ 'network': network_,
}
}
self.resources[name]['properties'][
'allowed_address_pairs'] = allowed_address_pairs
+ log.debug("adding Neutron::Port %s", self.resources[name])
+
self._template['outputs'][name] = {
'description': 'Address for interface %s' % name,
'value': {'get_attr': [name, 'fixed_ips', 0, 'ip_address']}
'port_range_max': '65535'},
{'remote_ip_prefix': '::/0',
'ethertype': 'IPv6',
- 'protocol': 'ipv6-icmp'}
+ 'protocol': 'ipv6-icmp'},
+ {'remote_ip_prefix': '0.0.0.0/0',
+ 'direction': 'egress',
+ 'protocol': 'tcp',
+ 'port_range_min': '1',
+ 'port_range_max': '65535'},
+ {'remote_ip_prefix': '0.0.0.0/0',
+ 'direction': 'egress',
+ 'protocol': 'udp',
+ 'port_range_min': '1',
+ 'port_range_max': '65535'},
+ {'remote_ip_prefix': '0.0.0.0/0',
+ 'direction': 'egress',
+ 'protocol': 'icmp'},
+ {'remote_ip_prefix': '::/0',
+ 'direction': 'egress',
+ 'ethertype': 'IPv6',
+ 'protocol': 'tcp',
+ 'port_range_min': '1',
+ 'port_range_max': '65535'},
+ {'remote_ip_prefix': '::/0',
+ 'direction': 'egress',
+ 'ethertype': 'IPv6',
+ 'protocol': 'udp',
+ 'port_range_min': '1',
+ 'port_range_max': '65535'},
+ {'remote_ip_prefix': '::/0',
+ 'direction': 'egress',
+ 'ethertype': 'IPv6',
+ 'protocol': 'ipv6-icmp'},
]
}
}
log.info("Creating stack '%s' START", self.name)
start_time = time.time()
- stack = HeatStack(self.name)
+ stack = HeatStack(self.name, os_cloud_config=self._os_cloud_config)
stack.create(self._template, self.heat_parameters, block, timeout)
if not block:
return stack
if stack.status != self.HEAT_STATUS_COMPLETE:
+ for event in stack.get_failures():
+ log.error("%s", event.resource_status_reason)
+ log.error(pprint.pformat(self._template))
raise exceptions.HeatTemplateError(stack_name=self.name)
log.info("Creating stack '%s' DONE in %d secs",