170 lines
6.5 KiB
Python
170 lines
6.5 KiB
Python
import random
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import time
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import neutronclient.neutron.client
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import keystoneclient.v2_0.client as ksclient
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from novaclient import client as nova
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def _get_keystone(username, password, tenant_name, auth_url):
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return ksclient.Client(username=username,
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password=password,
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tenant_name=tenant_name,
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auth_url=auth_url)
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def _get_neutron(version='2.0', token=None, endpoint_url=None):
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return neutronclient.neutron.client.Client(version,
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token=token,
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endpoint_url=endpoint_url)
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class TestResourcesGenerator(object):
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def __init__(self, username, password, tenant_name, keystone_url):
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self.keystone = _get_keystone(username, password, tenant_name,
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keystone_url)
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self.nova = nova.Client("2", auth_token=self.keystone.auth_token)
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compute_api_url = self.keystone.service_catalog.url_for(
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service_type="compute",
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endpoint_type='publicURL')
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self.nova.set_management_url(compute_api_url)
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neutron_endpoint = self.keystone.service_catalog.url_for(
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service_type='network',
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endpoint_type='publicURL')
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self.neutron = _get_neutron(token=self.keystone.auth_token,
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endpoint_url=neutron_endpoint)
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self.tenant_id = self.keystone.tenant_id
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def _create_router(self, name):
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external_network = None
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for network in self.neutron.list_networks()["networks"]:
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if network.get("router:external"):
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external_network = network
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break
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if not external_network:
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raise Exception("Alarm! Can not to find external network")
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gw_info = {
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"network_id": external_network["id"],
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"enable_snat": True
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}
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router_info = {
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"router": {
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"name": name,
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"external_gateway_info": gw_info,
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"tenant_id": self.tenant_id
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}
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}
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router = self.neutron.create_router(router_info)['router']
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return router
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def _create_network(self, name):
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internal_network_info = {
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"network": {
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"name": name,
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"tenant_id": self.tenant_id
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}
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}
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network = self.neutron.create_network(
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internal_network_info)['network']
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return network
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def _create_subnet(self, internal_network, cidr):
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subnet_info = {
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"subnet": {
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"network_id": internal_network['id'],
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"ip_version": 4,
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"cidr": cidr,
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"tenant_id": self.tenant_id
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}
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}
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subnet = self.neutron.create_subnet(subnet_info)['subnet']
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return subnet
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def _uplink_subnet_to_router(self, router, subnet):
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return self.neutron.add_interface_router(
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router["id"], {"subnet_id": subnet["id"]})
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def _create_server(self, server_name, image_id, flavor_id,
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security_group, nic):
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return self.nova.servers.create(server_name, image_id, flavor_id,
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security_groups=[security_group],
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nics=[{'net-id': nic}],
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userdata=open("meta.txt"))
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def infra_generator(self, networks_count, vms_per_net):
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flavor = self.nova.flavors.create(name="testflav", ram=128, disk=5,
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vcpus=1)
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image_id = self.nova.images.list()[0].id
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for network in self.neutron.list_networks()["networks"]:
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if network.get("router:external"):
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external_network = network
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needed_ips = networks_count*vms_per_net - len(
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self.neutron.list_floatingips()['floatingips'])
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if needed_ips > 0:
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for i in xrange(needed_ips):
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self.neutron.create_floatingip(
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{
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'floatingip': {
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'floating_network_id': external_network["id"]
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}
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}
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)
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floatingip_list = self.neutron.list_floatingips()['floatingips']
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for net in xrange(networks_count):
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name = random.randint(0x000000, 0xffffff)
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router = self._create_router("testrouter{0}".format(name))
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network = self._create_network("testnet{0}".format(name))
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subnet = self._create_subnet(network, "12.0.{0}.0/24".format(net))
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self._uplink_subnet_to_router(router, subnet)
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for vm in xrange(vms_per_net):
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server = self._create_server("testserver{0}-{1}".format(name,
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vm),
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image_id,
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flavor.id,
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"default",
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network["id"])
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while self.nova.servers.get(server.id).status != 'ACTIVE':
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time.sleep(1)
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port_id = server.interface_list()[0].port_id
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self.neutron.update_floatingip(floatingip_list.pop()['id'],
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{'floatingip': {
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'port_id': port_id}})
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if __name__ == '__main__':
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import argparse
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parser = argparse.ArgumentParser(description="Cleanup script")
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parser.add_argument('username', metavar='<user>', type=str,
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help='admin username')
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parser.add_argument('password', metavar='<password>', type=str,
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help='admin password')
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parser.add_argument('tenant_name', metavar='<tenant_name>', type=str,
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help='admin tenant')
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parser.add_argument('keystone_url', metavar='<keystone_url>', type=str,
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help='Keystone url')
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parser.add_argument('--num-routers', type=int, default=3,
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help='Number of routers')
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parser.add_argument('--num-servers', type=int, default=5,
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help='Number of servers')
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args = parser.parse_args()
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generator = TestResourcesGenerator(args.username, args.password,
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args.tenant_name,
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args.keystone_url)
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generator.infra_generator(args.num_routers, args.num_servers)
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