import logging
import os
import uuid
+import errno
from collections import OrderedDict
import ipaddress
-import paramiko
import pkg_resources
from yardstick.benchmark.contexts.base import Context
from yardstick.benchmark.contexts.model import update_scheduler_hints
from yardstick.common.openstack_utils import get_neutron_client
from yardstick.orchestrator.heat import HeatTemplate, get_short_key_uuid
-from yardstick.common.constants import YARDSTICK_ROOT_PATH
+from yardstick.common import constants as consts
+from yardstick.common.utils import source_env
+from yardstick.ssh import SSH
LOG = logging.getLogger(__name__)
DEFAULT_HEAT_TIMEOUT = 3600
+def join_args(sep, *args):
+ return sep.join(args)
+
+
+def h_join(*args):
+ return '-'.join(args)
+
+
class HeatContext(Context):
"""Class that represents a context in the logical model"""
self.name = None
self.stack = None
self.networks = OrderedDict()
+ self.heat_timeout = None
self.servers = []
self.placement_groups = []
self.server_groups = []
self.keypair_name = None
self.secgroup_name = None
self._server_map = {}
+ self.attrs = {}
self._image = None
self._flavor = None
self.flavors = set()
self.key_uuid = uuid.uuid4()
self.heat_timeout = None
self.key_filename = ''.join(
- [YARDSTICK_ROOT_PATH, 'yardstick/resources/files/yardstick_key-',
+ [consts.YARDSTICK_ROOT_PATH, 'yardstick/resources/files/yardstick_key-',
get_short_key_uuid(self.key_uuid)])
super(HeatContext, self).__init__()
- def assign_external_network(self, networks):
+ @staticmethod
+ def assign_external_network(networks):
sorted_networks = sorted(networks.items())
external_network = os.environ.get("EXTERNAL_NETWORK", "net04_ext")
have_external_network = any(net.get("external_network") for net in networks.values())
- if sorted_networks and not have_external_network:
- # no external net defined, assign it to first network using os.environ
- sorted_networks[0][1]["external_network"] = external_network
+ if not have_external_network:
+ # try looking for mgmt network first
+ try:
+ networks['mgmt']["external_network"] = external_network
+ except KeyError:
+ if sorted_networks:
+ # otherwise assign it to first network using os.environ
+ sorted_networks[0][1]["external_network"] = external_network
- self.networks = OrderedDict((name, Network(name, self, attrs))
- for name, attrs in sorted_networks)
+ return sorted_networks
def init(self, attrs):
+ self.check_environment()
"""initializes itself from the supplied arguments"""
self.name = attrs["name"]
self.heat_parameters = attrs.get("heat_parameters")
return
- self.keypair_name = self.name + "-key"
- self.secgroup_name = self.name + "-secgroup"
+ self.keypair_name = h_join(self.name, "key")
+ self.secgroup_name = h_join(self.name, "secgroup")
self._image = attrs.get("image")
self.heat_timeout = attrs.get("timeout", DEFAULT_HEAT_TIMEOUT)
- self.placement_groups = [PlacementGroup(name, self, pgattrs["policy"])
- for name, pgattrs in attrs.get(
+ self.placement_groups = [PlacementGroup(name, self, pg_attrs["policy"])
+ for name, pg_attrs in attrs.get(
"placement_groups", {}).items()]
- self.server_groups = [ServerGroup(name, self, sgattrs["policy"])
- for name, sgattrs in attrs.get(
+ self.server_groups = [ServerGroup(name, self, sg_attrs["policy"])
+ for name, sg_attrs in attrs.get(
"server_groups", {}).items()]
# we have to do this first, because we are injecting external_network
# into the dict
- self.assign_external_network(attrs["networks"])
+ sorted_networks = self.assign_external_network(attrs["networks"])
+
+ self.networks = OrderedDict(
+ (name, Network(name, self, net_attrs)) for name, net_attrs in
+ sorted_networks)
- for name, serverattrs in sorted(attrs["servers"].items()):
- server = Server(name, self, serverattrs)
+ for name, server_attrs in sorted(attrs["servers"].items()):
+ server = Server(name, self, server_attrs)
self.servers.append(server)
self._server_map[server.dn] = server
- rsa_key = paramiko.RSAKey.generate(bits=2048, progress_func=None)
- rsa_key.write_private_key_file(self.key_filename)
- print("Writing %s ..." % self.key_filename)
- with open(self.key_filename + ".pub", "w") as pubkey_file:
- pubkey_file.write(
- "%s %s\n" % (rsa_key.get_name(), rsa_key.get_base64()))
+ self.attrs = attrs
+ SSH.gen_keys(self.key_filename)
+
+ def check_environment(self):
+ try:
+ os.environ['OS_AUTH_URL']
+ except KeyError:
+ try:
+ source_env(consts.OPENRC)
+ except IOError as e:
+ if e.errno != errno.EEXIST:
+ LOG.error('OPENRC file not found')
+ raise
+ else:
+ LOG.error('OS_AUTH_URL not found')
@property
def image(self):
network.physical_network,
network.provider,
network.segmentation_id,
- network.port_security_enabled)
+ network.port_security_enabled,
+ network.network_type)
template.add_subnet(network.subnet_stack_name, network.stack_name,
network.subnet_cidr,
network.enable_dhcp,
try:
self.flavors.add(server.flavor["name"])
except KeyError:
- self.flavors.add(server.stack_name + "-flavor")
+ self.flavors.add(h_join(server.stack_name, "flavor"))
# add servers with availability policy
added_servers = []
def deploy(self):
"""deploys template into a stack using cloud"""
- print("Deploying context '%s'" % self.name)
+ LOG.info("Deploying context '%s' START", self.name)
heat_template = HeatTemplate(self.name, self.template_file,
self.heat_parameters)
# let the other failures happen, we want stack trace
raise
- # TODO: use Neutron to get segementation-id
+ # TODO: use Neutron to get segmentation-id
self.get_neutron_info()
# copy some vital stack output into server objects
server.public_ip = \
self.stack.outputs[server.floating_ip["stack_name"]]
- print("Context '%s' deployed" % self.name)
+ LOG.info("Deploying context '%s' DONE", self.name)
def add_server_port(self, server):
- # TODO(hafe) can only handle one internal network for now
- port = next(iter(server.ports.values()))
- server.private_ip = self.stack.outputs[port["stack_name"]]
+ # use private ip from first port in first network
+ try:
+ private_port = next(iter(server.ports.values()))[0]
+ except IndexError:
+ LOG.exception("Unable to find first private port in %s", server.ports)
+ raise
+ server.private_ip = self.stack.outputs[private_port["stack_name"]]
server.interfaces = {}
- for network_name, port in server.ports.items():
- server.interfaces[network_name] = self.make_interface_dict(
- network_name, port['stack_name'], self.stack.outputs)
-
- def make_interface_dict(self, network_name, stack_name, outputs):
+ for network_name, ports in server.ports.items():
+ for port in ports:
+ # port['port'] is either port name from mapping or default network_name
+ server.interfaces[port['port']] = self.make_interface_dict(network_name,
+ port['port'],
+ port['stack_name'],
+ self.stack.outputs)
+
+ def make_interface_dict(self, network_name, port, stack_name, outputs):
private_ip = outputs[stack_name]
- mac_addr = outputs[stack_name + "-mac_address"]
- subnet_cidr_key = "-".join([self.name, network_name, 'subnet', 'cidr'])
- gateway_key = "-".join([self.name, network_name, 'subnet', 'gateway_ip'])
- subnet_cidr = outputs[subnet_cidr_key]
- subnet_ip = ipaddress.ip_network(subnet_cidr)
+ mac_address = outputs[h_join(stack_name, "mac_address")]
+ # these are attributes of the network, not the port
+ output_subnet_cidr = outputs[h_join(self.name, network_name,
+ 'subnet', 'cidr')]
+
+ # these are attributes of the network, not the port
+ output_subnet_gateway = outputs[h_join(self.name, network_name,
+ 'subnet', 'gateway_ip')]
+
return {
+ # add default port name
+ "name": port,
"private_ip": private_ip,
- "subnet_id": outputs[stack_name + "-subnet_id"],
- "subnet_cidr": subnet_cidr,
- "network": str(subnet_ip.network_address),
- "netmask": str(subnet_ip.netmask),
- "gateway_ip": outputs[gateway_key],
- "mac_address": mac_addr,
- "device_id": outputs[stack_name + "-device_id"],
- "network_id": outputs[stack_name + "-network_id"],
+ "subnet_id": outputs[h_join(stack_name, "subnet_id")],
+ "subnet_cidr": output_subnet_cidr,
+ "network": str(ipaddress.ip_network(output_subnet_cidr).network_address),
+ "netmask": str(ipaddress.ip_network(output_subnet_cidr).netmask),
+ "gateway_ip": output_subnet_gateway,
+ "mac_address": mac_address,
+ "device_id": outputs[h_join(stack_name, "device_id")],
+ "network_id": outputs[h_join(stack_name, "network_id")],
+ # this should be == vld_id for NSB tests
"network_name": network_name,
# to match vnf_generic
- "local_mac": mac_addr,
+ "local_mac": mac_address,
"local_ip": private_ip,
- "vld_id": self.networks[network_name].vld_id,
}
def undeploy(self):
"""undeploys stack from cloud"""
if self.stack:
- print("Undeploying context '%s'" % self.name)
+ LOG.info("Undeploying context '%s' START", self.name)
self.stack.delete()
self.stack = None
- print("Context '%s' undeployed" % self.name)
+ LOG.info("Undeploying context '%s' DONE", self.name)
if os.path.exists(self.key_filename):
try:
"network": intf["network"],
"netmask": intf["netmask"],
"if": name,
- "gateway": intf["gateway_ip"],
+ # We have to encode a None gateway as '' for Jinja2 to YAML conversion
+ "gateway": intf["gateway_ip"] if intf["gateway_ip"] else '',
}
for name, intf in server.interfaces.items()
]
attr_name: either a name for a server created by yardstick or a dict
with attribute name mapping when using external heat templates
"""
- key_filename = pkg_resources.resource_filename(
- 'yardstick.resources',
- 'files/yardstick_key-' + get_short_key_uuid(self.key_uuid))
+ if isinstance(attr_name, collections.Mapping):
+ node_name, cname = self.split_name(attr_name['name'])
+ if cname is None or cname != self.name:
+ return None
- if not isinstance(attr_name, collections.Mapping):
- server = self._server_map.get(attr_name, None)
+ # Create a dummy server instance for holding the *_ip attributes
+ server = Server(node_name, self, {})
+ server.public_ip = self.stack.outputs.get(
+ attr_name.get("public_ip_attr", object()), None)
+ server.private_ip = self.stack.outputs.get(
+ attr_name.get("private_ip_attr", object()), None)
else:
- cname = attr_name["name"].split(".")[1]
- if cname != self.name:
+ server = self._server_map.get(attr_name, None)
+ if server is None:
return None
- public_ip = None
- private_ip = None
- if "public_ip_attr" in attr_name:
- public_ip = self.stack.outputs[attr_name["public_ip_attr"]]
- if "private_ip_attr" in attr_name:
- private_ip = self.stack.outputs[
- attr_name["private_ip_attr"]]
-
- # Create a dummy server instance for holding the *_ip attributes
- server = Server(attr_name["name"].split(".")[0], self, {})
- server.public_ip = public_ip
- server.private_ip = private_ip
-
- if server is None:
- return None
+ pkey = pkg_resources.resource_string(
+ 'yardstick.resources',
+ h_join('files/yardstick_key', get_short_key_uuid(self.key_uuid))).decode('utf-8')
result = {
"user": server.context.user,
- "key_filename": key_filename,
+ "pkey": pkey,
"private_ip": server.private_ip,
"interfaces": server.interfaces,
"routing_table": self.generate_routing_table(server),
# empty IPv6 routing table
"nd_route_tbl": [],
+ # we want to save the contex name so we can generate pod.yaml
+ "name": server.name,
}
# Target server may only have private_ip
if server.public_ip:
network = self.networks.get(attr_name, None)
else:
- # Don't generalize too much Just support vld_id
- vld_id = attr_name.get('vld_id')
- if vld_id is None:
+ # Only take the first key, value
+ key, value = next(iter(attr_name.items()), (None, None))
+ if key is None:
return None
-
- network = next((n for n in self.networks.values() if
- getattr(n, "vld_id", None) == vld_id), None)
+ network_iter = (n for n in self.networks.values() if getattr(n, key) == value)
+ network = next(network_iter, None)
if network is None:
return None
result = {
"name": network.name,
- "vld_id": network.vld_id,
"segmentation_id": network.segmentation_id,
"network_type": network.network_type,
"physical_network": network.physical_network,