root / snf-tools / synnefo_tools / burnin / cyclades_common.py @ 60a80953
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# Copyright 2013 GRNET S.A. All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or
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# without modification, are permitted provided that the following
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# conditions are met:
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#
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# 1. Redistributions of source code must retain the above
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# copyright notice, this list of conditions and the following
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# disclaimer.
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#
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# 2. Redistributions in binary form must reproduce the above
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# copyright notice, this list of conditions and the following
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# disclaimer in the documentation and/or other materials
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# provided with the distribution.
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#
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# THIS SOFTWARE IS PROVIDED BY GRNET S.A. ``AS IS'' AND ANY EXPRESS
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# OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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# PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL GRNET S.A OR
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# CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
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# USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
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# AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
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# ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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# POSSIBILITY OF SUCH DAMAGE.
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#
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# The views and conclusions contained in the software and
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# documentation are those of the authors and should not be
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# interpreted as representing official policies, either expressed
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# or implied, of GRNET S.A.
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"""
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Utility functions for Cyclades Tests
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Cyclades require a lot helper functions and `common'
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had grown too much.
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"""
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import time |
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import IPy |
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import base64 |
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import socket |
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import random |
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import paramiko |
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import tempfile |
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import subprocess |
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from kamaki.clients import ClientError |
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from synnefo_tools.burnin.common import BurninTests, MB, GB |
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# Too many public methods. pylint: disable-msg=R0904
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class CycladesTests(BurninTests): |
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"""Extends the BurninTests class for Cyclades"""
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def _try_until_timeout_expires(self, opmsg, check_fun): |
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"""Try to perform an action until timeout expires"""
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assert callable(check_fun), "Not a function" |
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action_timeout = self.action_timeout
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action_warning = self.action_warning
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if action_warning > action_timeout:
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action_warning = action_timeout |
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start_time = int(time.time())
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end_time = start_time + action_warning |
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while end_time > time.time():
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try:
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ret_value = check_fun() |
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self.info("Operation `%s' finished in %s seconds", |
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opmsg, int(time.time()) - start_time)
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return ret_value
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except Retry:
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time.sleep(self.query_interval)
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self.warning("Operation `%s' is taking too long after %s seconds", |
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opmsg, int(time.time()) - start_time)
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end_time = start_time + action_timeout |
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while end_time > time.time():
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try:
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ret_value = check_fun() |
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self.info("Operation `%s' finished in %s seconds", |
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opmsg, int(time.time()) - start_time)
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return ret_value
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except Retry:
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time.sleep(self.query_interval)
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self.error("Operation `%s' timed out after %s seconds", |
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opmsg, int(time.time()) - start_time)
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self.fail("time out") |
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def _get_list_of_servers(self, detail=False): |
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"""Get (detailed) list of servers"""
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if detail:
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self.info("Getting detailed list of servers") |
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else:
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self.info("Getting simple list of servers") |
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return self.clients.cyclades.list_servers(detail=detail) |
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def _get_list_of_networks(self, detail=False): |
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"""Get (detailed) list of networks"""
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if detail:
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self.info("Getting detailed list of networks") |
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else:
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self.info("Getting simple list of networks") |
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return self.clients.network.list_networks(detail=detail) |
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def _get_server_details(self, server, quiet=False): |
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"""Get details for a server"""
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if not quiet: |
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self.info("Getting details for server %s with id %s", |
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server['name'], server['id']) |
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return self.clients.cyclades.get_server_details(server['id']) |
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def _create_server(self, image, flavor, personality=None, network=False): |
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"""Create a new server"""
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if network:
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fip = self._create_floating_ip()
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port = self._create_port(fip['floating_network_id'], |
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floating_ip=fip) |
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networks = [{'port': port['id']}] |
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else:
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networks = None
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servername = "%s for %s" % (self.run_id, image['name']) |
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self.info("Creating a server with name %s", servername) |
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self.info("Using image %s with id %s", image['name'], image['id']) |
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self.info("Using flavor %s with id %s", flavor['name'], flavor['id']) |
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server = self.clients.cyclades.create_server(
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servername, flavor['id'], image['id'], |
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personality=personality, networks=networks) |
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self.info("Server id: %s", server['id']) |
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self.info("Server password: %s", server['adminPass']) |
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self.assertEqual(server['name'], servername) |
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self.assertEqual(server['flavor']['id'], flavor['id']) |
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self.assertEqual(server['image']['id'], image['id']) |
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self.assertEqual(server['status'], "BUILD") |
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# Verify quotas
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self._check_quotas(disk=+int(flavor['disk'])*GB, |
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vm=+1,
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ram=+int(flavor['ram'])*MB, |
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cpu=+int(flavor['vcpus'])) |
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return server
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def _delete_servers(self, servers, error=False): |
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"""Deleting a number of servers in parallel"""
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# Disconnect floating IPs
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for srv in servers: |
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self.info("Disconnecting all floating IPs from server with id %s", |
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srv['id'])
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self._disconnect_from_network(srv)
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# Delete servers
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for srv in servers: |
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self.info("Sending the delete request for server with id %s", |
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srv['id'])
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self.clients.cyclades.delete_server(srv['id']) |
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if error:
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curr_states = ["ACTIVE", "ERROR", "STOPPED", "BUILD"] |
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else:
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curr_states = ["ACTIVE"]
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for srv in servers: |
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self._insist_on_server_transition(srv, curr_states, "DELETED") |
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# Servers no longer in server list
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new_servers = [s['id'] for s in self._get_list_of_servers()] |
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for srv in servers: |
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self.info("Verifying that server with id %s is no longer in " |
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"server list", srv['id']) |
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self.assertNotIn(srv['id'], new_servers) |
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# Verify quotas
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flavors = \ |
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[self.clients.compute.get_flavor_details(srv['flavor']['id']) |
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for srv in servers] |
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self._verify_quotas_deleted(flavors)
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def _verify_quotas_deleted(self, flavors): |
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"""Verify quotas for a number of deleted servers"""
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used_disk = 0
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used_vm = 0
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used_ram = 0
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used_cpu = 0
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for flavor in flavors: |
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used_disk += int(flavor['disk']) * GB |
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used_vm += 1
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used_ram += int(flavor['ram']) * MB |
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used_cpu += int(flavor['vcpus']) |
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self._check_quotas(disk=-used_disk,
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vm=-used_vm, |
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ram=-used_ram, |
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cpu=-used_cpu) |
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def _get_connection_username(self, server): |
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"""Determine the username to use to connect to the server"""
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users = server['metadata'].get("users", None) |
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ret_user = None
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if users is not None: |
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user_list = users.split() |
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if "root" in user_list: |
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ret_user = "root"
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else:
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ret_user = random.choice(user_list) |
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else:
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# Return the login name for connections based on the server OS
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self.info("Could not find `users' metadata in server. Let's guess") |
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os_value = server['metadata'].get("os") |
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if os_value in ("Ubuntu", "Kubuntu", "Fedora"): |
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ret_user = "user"
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elif os_value in ("windows", "windows_alpha1"): |
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ret_user = "Administrator"
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else:
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ret_user = "root"
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self.assertIsNotNone(ret_user)
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self.info("User's login name: %s", ret_user) |
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return ret_user
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def _insist_on_server_transition(self, server, curr_statuses, new_status): |
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"""Insist on server transiting from curr_statuses to new_status"""
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def check_fun(): |
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"""Check server status"""
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srv = self._get_server_details(server, quiet=True) |
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if srv['status'] in curr_statuses: |
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raise Retry()
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elif srv['status'] == new_status: |
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return
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else:
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msg = "Server \"%s\" with id %s went to unexpected status %s"
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self.error(msg, server['name'], server['id'], srv['status']) |
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self.fail(msg % (server['name'], server['id'], srv['status'])) |
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opmsg = "Waiting for server \"%s\" with id %s to become %s"
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self.info(opmsg, server['name'], server['id'], new_status) |
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opmsg = opmsg % (server['name'], server['id'], new_status) |
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self._try_until_timeout_expires(opmsg, check_fun)
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def _insist_on_network_transition(self, network, |
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curr_statuses, new_status): |
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"""Insist on network transiting from curr_statuses to new_status"""
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def check_fun(): |
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"""Check network status"""
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ntw = self.clients.network.get_network_details(network['id']) |
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if ntw['status'] in curr_statuses: |
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raise Retry()
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elif ntw['status'] == new_status: |
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return
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else:
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msg = "Network %s with id %s went to unexpected status %s"
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self.error(msg, network['name'], network['id'], ntw['status']) |
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self.fail(msg %
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(network['name'], network['id'], ntw['status'])) |
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opmsg = "Waiting for network \"%s\" with id %s to become %s"
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self.info(opmsg, network['name'], network['id'], new_status) |
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opmsg = opmsg % (network['name'], network['id'], new_status) |
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self._try_until_timeout_expires(opmsg, check_fun)
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def _insist_on_tcp_connection(self, family, host, port): |
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"""Insist on tcp connection"""
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def check_fun(): |
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"""Get a connected socket from the specified family to host:port"""
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sock = None
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for res in socket.getaddrinfo(host, port, family, |
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socket.SOCK_STREAM, 0,
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socket.AI_PASSIVE): |
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fam, socktype, proto, _, saddr = res |
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try:
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sock = socket.socket(fam, socktype, proto) |
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except socket.error:
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sock = None
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continue
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try:
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sock.connect(saddr) |
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except socket.error:
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sock.close() |
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sock = None
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continue
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if sock is None: |
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raise Retry
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return sock
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familystr = {socket.AF_INET: "IPv4", socket.AF_INET6: "IPv6", |
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socket.AF_UNSPEC: "Unspecified-IPv4/6"}
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opmsg = "Connecting over %s to %s:%s"
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self.info(opmsg, familystr.get(family, "Unknown"), host, port) |
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opmsg = opmsg % (familystr.get(family, "Unknown"), host, port)
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return self._try_until_timeout_expires(opmsg, check_fun) |
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def _get_ips(self, server, version=4, network=None): |
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"""Get the IPs of a server from the detailed server info
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If network not given then get the public IPs. Else the IPs
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attached to that network
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"""
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assert version in (4, 6) |
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nics = server['attachments']
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addrs = [] |
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for nic in nics: |
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net_id = nic['network_id']
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if network is None: |
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if self.clients.network.get_network_details(net_id)['public']: |
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if nic['ipv' + str(version)]: |
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addrs.append(nic['ipv' + str(version)]) |
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else:
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if net_id == network['id']: |
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if nic['ipv' + str(version)]: |
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addrs.append(nic['ipv' + str(version)]) |
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self.assertGreater(len(addrs), 0, |
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"Can not get IPs from server attachments")
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for addr in addrs: |
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self.assertEquals(IPy.IP(addr).version(), version)
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if network is None: |
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msg = "Server's public IPv%s is %s"
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for addr in addrs: |
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self.info(msg, version, addr)
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else:
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msg = "Server's IPv%s attached to network \"%s\" is %s"
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for addr in addrs: |
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self.info(msg, version, network['id'], addr) |
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return addrs
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def _insist_on_ping(self, ip_addr, version=4): |
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"""Test server responds to a single IPv4 of IPv6 ping"""
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def check_fun(): |
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"""Ping to server"""
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cmd = ("ping%s -c 3 -w 20 %s" %
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("6" if version == 6 else "", ip_addr)) |
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ping = subprocess.Popen( |
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cmd, shell=True, stdout=subprocess.PIPE,
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stderr=subprocess.PIPE) |
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ping.communicate() |
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ret = ping.wait() |
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if ret != 0: |
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raise Retry
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assert version in (4, 6) |
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opmsg = "Sent IPv%s ping requests to %s"
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self.info(opmsg, version, ip_addr)
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opmsg = opmsg % (version, ip_addr) |
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self._try_until_timeout_expires(opmsg, check_fun)
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def _image_is(self, image, osfamily): |
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"""Return true if the image is of `osfamily'"""
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d_image = self.clients.cyclades.get_image_details(image['id']) |
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return d_image['metadata']['osfamily'].lower().find(osfamily) >= 0 |
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def _ssh_execute(self, hostip, username, password, command): |
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"""Execute a command via ssh"""
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ssh = paramiko.SSHClient() |
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ssh.set_missing_host_key_policy(paramiko.AutoAddPolicy()) |
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try:
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ssh.connect(hostip, username=username, password=password) |
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except socket.error as err: |
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self.fail(err)
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try:
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_, stdout, _ = ssh.exec_command(command) |
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except paramiko.SSHException as err: |
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self.fail(err)
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status = stdout.channel.recv_exit_status() |
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output = stdout.readlines() |
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ssh.close() |
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return output, status
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def _insist_get_hostname_over_ssh(self, hostip, username, password): |
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"""Connect to server using ssh and get it's hostname"""
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def check_fun(): |
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"""Get hostname"""
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try:
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lines, status = self._ssh_execute(
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hostip, username, password, "hostname")
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self.assertEqual(status, 0) |
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self.assertEqual(len(lines), 1) |
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# Remove new line
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return lines[0].strip('\n') |
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except AssertionError: |
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raise Retry()
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opmsg = "Connecting to server using ssh and get it's hostname"
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self.info(opmsg)
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hostname = self._try_until_timeout_expires(opmsg, check_fun)
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self.info("Server's hostname is %s", hostname) |
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return hostname
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# Too many arguments. pylint: disable-msg=R0913
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def _check_file_through_ssh(self, hostip, username, password, |
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remotepath, content): |
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"""Fetch file from server and compare contents"""
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self.info("Fetching file %s from remote server", remotepath) |
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transport = paramiko.Transport((hostip, 22))
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transport.connect(username=username, password=password) |
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with tempfile.NamedTemporaryFile() as ftmp: |
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sftp = paramiko.SFTPClient.from_transport(transport) |
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sftp.get(remotepath, ftmp.name) |
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sftp.close() |
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transport.close() |
403 |
self.info("Comparing file contents") |
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remote_content = base64.b64encode(ftmp.read()) |
405 |
self.assertEqual(content, remote_content)
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|
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# ----------------------------------
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# Networks
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def _create_network(self, cidr="10.0.1.0/28", dhcp=True): |
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"""Create a new private network"""
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name = self.run_id
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network = self.clients.network.create_network(
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"MAC_FILTERED", name=name, shared=False) |
414 |
self.info("Network with id %s created", network['id']) |
415 |
subnet = self.clients.network.create_subnet(
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network['id'], cidr=cidr, enable_dhcp=dhcp)
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self.info("Subnet with id %s created", subnet['id']) |
418 |
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# Verify quotas
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self._check_quotas(network=+1) |
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#Test if the right name is assigned
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self.assertEqual(network['name'], name) |
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return network
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def _delete_networks(self, networks, error=False): |
428 |
"""Delete a network"""
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429 |
for net in networks: |
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self.info("Deleting network with id %s", net['id']) |
431 |
self.clients.network.delete_network(net['id']) |
432 |
|
433 |
if error:
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curr_states = ["ACTIVE", "SNF:DRAINED", "ERROR"] |
435 |
else:
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curr_states = ["ACTIVE", "SNF:DRAINED"] |
437 |
for net in networks: |
438 |
self._insist_on_network_transition(net, curr_states, "DELETED") |
439 |
|
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# Networks no longer in network list
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new_networks = [n['id'] for n in self._get_list_of_networks()] |
442 |
for net in networks: |
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self.info("Verifying that network with id %s is no longer in " |
444 |
"network list", net['id']) |
445 |
self.assertNotIn(net['id'], new_networks) |
446 |
|
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# Verify quotas
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self._check_quotas(network=-len(networks)) |
449 |
|
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def _get_public_network(self, networks=None): |
451 |
"""Get the public network"""
|
452 |
if networks is None: |
453 |
networks = self._get_list_of_networks(detail=True) |
454 |
self.info("Getting the public network") |
455 |
for net in networks: |
456 |
if net['SNF:floating_ip_pool'] and net['public']: |
457 |
return net
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self.fail("Could not find a public network to use") |
459 |
|
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def _create_floating_ip(self): |
461 |
"""Create a new floating ip"""
|
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pub_net = self._get_public_network()
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self.info("Creating a new floating ip for network with id %s", |
464 |
pub_net['id'])
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fip = self.clients.network.create_floatingip(pub_net['id']) |
466 |
# Verify that floating ip has been created
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fips = self.clients.network.list_floatingips()
|
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fips = [f['id'] for f in fips] |
469 |
self.assertIn(fip['id'], fips) |
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# Verify quotas
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self._check_quotas(ip=+1) |
472 |
# Check that IP is IPv4
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self.assertEquals(IPy.IP(fip['floating_ip_address']).version(), 4) |
474 |
|
475 |
self.info("Floating IP %s with id %s created", |
476 |
fip['floating_ip_address'], fip['id']) |
477 |
return fip
|
478 |
|
479 |
def _create_port(self, network_id, device_id=None, floating_ip=None): |
480 |
"""Create a new port attached to the a specific network"""
|
481 |
self.info("Creating a new port to network with id %s", network_id) |
482 |
if floating_ip is not None: |
483 |
fixed_ips = [{'ip_address': floating_ip['floating_ip_address']}] |
484 |
else:
|
485 |
fixed_ips = None
|
486 |
port = self.clients.network.create_port(network_id,
|
487 |
device_id=device_id, |
488 |
fixed_ips=fixed_ips) |
489 |
# Verify that port created
|
490 |
ports = self.clients.network.list_ports()
|
491 |
ports = [p['id'] for p in ports] |
492 |
self.assertIn(port['id'], ports) |
493 |
# Insist on creation
|
494 |
if device_id is None: |
495 |
self._insist_on_port_transition(port, ["BUILD"], "DOWN") |
496 |
else:
|
497 |
self._insist_on_port_transition(port, ["BUILD", "DOWN"], "ACTIVE") |
498 |
|
499 |
self.info("Port with id %s created", port['id']) |
500 |
return port
|
501 |
|
502 |
def _insist_on_port_transition(self, port, curr_statuses, new_status): |
503 |
"""Insist on port transiting from curr_statuses to new_status"""
|
504 |
def check_fun(): |
505 |
"""Check port status"""
|
506 |
portd = self.clients.network.get_port_details(port['id']) |
507 |
if portd['status'] in curr_statuses: |
508 |
raise Retry()
|
509 |
elif portd['status'] == new_status: |
510 |
return
|
511 |
else:
|
512 |
msg = "Port %s went to unexpected status %s"
|
513 |
self.fail(msg % (portd['id'], portd['status'])) |
514 |
opmsg = "Waiting for port %s to become %s"
|
515 |
self.info(opmsg, port['id'], new_status) |
516 |
opmsg = opmsg % (port['id'], new_status)
|
517 |
self._try_until_timeout_expires(opmsg, check_fun)
|
518 |
|
519 |
def _insist_on_port_deletion(self, portid): |
520 |
"""Insist on port deletion"""
|
521 |
def check_fun(): |
522 |
"""Check port details"""
|
523 |
try:
|
524 |
self.clients.network.get_port_details(portid)
|
525 |
except ClientError as err: |
526 |
if err.status != 404: |
527 |
raise
|
528 |
else:
|
529 |
raise Retry()
|
530 |
opmsg = "Waiting for port %s to be deleted"
|
531 |
self.info(opmsg, portid)
|
532 |
opmsg = opmsg % portid |
533 |
self._try_until_timeout_expires(opmsg, check_fun)
|
534 |
|
535 |
def _disconnect_from_network(self, server, network=None): |
536 |
"""Disconnnect server from network"""
|
537 |
if network is None: |
538 |
# Disconnect from public network
|
539 |
network = self._get_public_network()
|
540 |
|
541 |
lports = self.clients.network.list_ports()
|
542 |
ports = [] |
543 |
for port in lports: |
544 |
dport = self.clients.network.get_port_details(port['id']) |
545 |
if str(dport['network_id']) == str(network['id']) \ |
546 |
and str(dport['device_id']) == str(server['id']): |
547 |
ports.append(dport) |
548 |
|
549 |
# Find floating IPs attached to these ports
|
550 |
ports_id = [p['id'] for p in ports] |
551 |
fips = [f for f in self.clients.network.list_floatingips() |
552 |
if str(f['port_id']) in ports_id] |
553 |
|
554 |
# First destroy the ports
|
555 |
for port in ports: |
556 |
self.info("Destroying port with id %s", port['id']) |
557 |
self.clients.network.delete_port(port['id']) |
558 |
self._insist_on_port_deletion(port['id']) |
559 |
|
560 |
# Then delete the floating IPs
|
561 |
for fip in fips: |
562 |
self.info("Destroying floating IP %s with id %s", |
563 |
fip['floating_ip_address'], fip['id']) |
564 |
self.clients.network.delete_floatingip(fip['id']) |
565 |
|
566 |
# Check that floating IPs have been deleted
|
567 |
list_ips = [f['id'] for f in self.clients.network.list_floatingips()] |
568 |
for fip in fips: |
569 |
self.assertNotIn(fip['id'], list_ips) |
570 |
# Verify quotas
|
571 |
self._check_quotas(ip=-len(fips)) |
572 |
|
573 |
|
574 |
class Retry(Exception): |
575 |
"""Retry the action
|
576 |
|
577 |
This is used by _try_unit_timeout_expires method.
|
578 |
|
579 |
"""
|