452 lines
19 KiB
Python
452 lines
19 KiB
Python
# Copyright (c) 2015 Hewlett-Packard Development Company, L.P.
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# All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import base64
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import socket
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import ssl
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import struct
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import textwrap
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from six.moves.urllib import parse as urlparse
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from oslo_log import log as logging
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from oslo_utils import excutils
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from tempest.common import waiters
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from tempest import config
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from tempest.lib.common import fixed_network
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from tempest.lib.common import rest_client
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from tempest.lib.common.utils import data_utils
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CONF = config.CONF
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LOG = logging.getLogger(__name__)
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def is_scheduler_filter_enabled(filter_name):
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"""Check the list of enabled compute scheduler filters from config.
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This function checks whether the given compute scheduler filter is enabled
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in the nova config file. If the scheduler_enabled_filters option is set to
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'all' in tempest.conf then, this function returns True with assumption that
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requested filter 'filter_name' is one of the enabled filters in nova
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("nova.scheduler.filters.all_filters").
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"""
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filters = CONF.compute_feature_enabled.scheduler_enabled_filters
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if not filters:
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return False
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if 'all' in filters:
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return True
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if filter_name in filters:
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return True
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return False
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def create_test_server(clients, validatable=False, validation_resources=None,
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tenant_network=None, wait_until=None,
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volume_backed=False, name=None, flavor=None,
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image_id=None, wait_for_sshable=True, **kwargs):
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"""Common wrapper utility returning a test server.
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This method is a common wrapper returning a test server that can be
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pingable or sshable.
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:param clients: Client manager which provides OpenStack Tempest clients.
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:param validatable: Whether the server will be pingable or sshable.
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:param validation_resources: Resources created for the connection to the
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server. Include a keypair, a security group and an IP.
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:param tenant_network: Tenant network to be used for creating a server.
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:param wait_until: Server status to wait for the server to reach after
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its creation.
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:param volume_backed: Whether the server is volume backed or not.
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If this is true, a volume will be created and create server will be
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requested with 'block_device_mapping_v2' populated with below values:
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.. code-block:: python
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bd_map_v2 = [{
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'uuid': volume['volume']['id'],
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'source_type': 'volume',
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'destination_type': 'volume',
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'boot_index': 0,
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'delete_on_termination': True}]
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kwargs['block_device_mapping_v2'] = bd_map_v2
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If server needs to be booted from volume with other combination of bdm
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inputs than mentioned above, then pass the bdm inputs explicitly as
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kwargs and image_id as empty string ('').
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:param name: Name of the server to be provisioned. If not defined a random
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string ending with '-instance' will be generated.
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:param flavor: Flavor of the server to be provisioned. If not defined,
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CONF.compute.flavor_ref will be used instead.
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:param image_id: ID of the image to be used to provision the server. If not
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defined, CONF.compute.image_ref will be used instead.
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:param wait_for_sshable: Check server's console log and wait until it will
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be ready to login.
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:returns: a tuple
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"""
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# TODO(jlanoux) add support of wait_until PINGABLE/SSHABLE
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if name is None:
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name = data_utils.rand_name(__name__ + "-instance")
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if flavor is None:
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flavor = CONF.compute.flavor_ref
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if image_id is None:
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image_id = CONF.compute.image_ref
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kwargs = fixed_network.set_networks_kwarg(
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tenant_network, kwargs) or {}
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multiple_create_request = (max(kwargs.get('min_count', 0),
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kwargs.get('max_count', 0)) > 1)
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if CONF.validation.run_validation and validatable:
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# As a first implementation, multiple pingable or sshable servers will
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# not be supported
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if multiple_create_request:
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msg = ("Multiple pingable or sshable servers not supported at "
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"this stage.")
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raise ValueError(msg)
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LOG.debug("Provisioning test server with validation resources %s",
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validation_resources)
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if 'security_groups' in kwargs:
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kwargs['security_groups'].append(
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{'name': validation_resources['security_group']['name']})
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else:
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try:
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kwargs['security_groups'] = [
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{'name': validation_resources['security_group']['name']}]
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except KeyError:
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LOG.debug("No security group provided.")
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if 'key_name' not in kwargs:
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try:
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kwargs['key_name'] = validation_resources['keypair']['name']
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except KeyError:
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LOG.debug("No key provided.")
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if CONF.validation.connect_method == 'floating':
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if wait_until is None:
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wait_until = 'ACTIVE'
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if 'user_data' not in kwargs:
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# If nothing overrides the default user data script then run
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# a simple script on the host to print networking info. This is
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# to aid in debugging ssh failures.
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script = '''
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#!/bin/sh
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echo "Printing {user} user authorized keys"
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cat ~{user}/.ssh/authorized_keys || true
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'''.format(user=CONF.validation.image_ssh_user)
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script_clean = textwrap.dedent(script).lstrip().encode('utf8')
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script_b64 = base64.b64encode(script_clean)
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kwargs['user_data'] = script_b64
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if volume_backed:
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volume_name = data_utils.rand_name(__name__ + '-volume')
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volumes_client = clients.volumes_client_latest
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params = {'name': volume_name,
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'imageRef': image_id,
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'size': CONF.volume.volume_size}
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if CONF.compute.compute_volume_common_az:
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params.setdefault('availability_zone',
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CONF.compute.compute_volume_common_az)
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volume = volumes_client.create_volume(**params)
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try:
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waiters.wait_for_volume_resource_status(volumes_client,
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volume['volume']['id'],
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'available')
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except Exception:
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with excutils.save_and_reraise_exception():
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try:
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volumes_client.delete_volume(volume['volume']['id'])
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volumes_client.wait_for_resource_deletion(
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volume['volume']['id'])
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except Exception as exc:
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LOG.exception("Deleting volume %s failed, exception %s",
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volume['volume']['id'], exc)
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bd_map_v2 = [{
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'uuid': volume['volume']['id'],
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'source_type': 'volume',
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'destination_type': 'volume',
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'boot_index': 0,
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'delete_on_termination': True}]
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kwargs['block_device_mapping_v2'] = bd_map_v2
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# Since this is boot from volume an image does not need
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# to be specified.
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image_id = ''
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if CONF.compute.compute_volume_common_az:
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kwargs.setdefault('availability_zone',
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CONF.compute.compute_volume_common_az)
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body = clients.servers_client.create_server(name=name, imageRef=image_id,
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flavorRef=flavor,
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**kwargs)
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# handle the case of multiple servers
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if multiple_create_request:
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# Get servers created which name match with name param.
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body_servers = clients.servers_client.list_servers()
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servers = \
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[s for s in body_servers['servers'] if s['name'].startswith(name)]
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else:
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body = rest_client.ResponseBody(body.response, body['server'])
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servers = [body]
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def _setup_validation_fip():
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if CONF.service_available.neutron:
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ifaces = clients.interfaces_client.list_interfaces(server['id'])
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validation_port = None
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for iface in ifaces['interfaceAttachments']:
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if iface['net_id'] == tenant_network['id']:
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validation_port = iface['port_id']
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break
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if not validation_port:
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# NOTE(artom) This will get caught by the catch-all clause in
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# the wait_until loop below
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raise ValueError('Unable to setup floating IP for validation: '
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'port not found on tenant network')
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clients.floating_ips_client.update_floatingip(
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validation_resources['floating_ip']['id'],
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port_id=validation_port)
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else:
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fip_client = clients.compute_floating_ips_client
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fip_client.associate_floating_ip_to_server(
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floating_ip=validation_resources['floating_ip']['ip'],
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server_id=servers[0]['id'])
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if wait_until:
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for server in servers:
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try:
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waiters.wait_for_server_status(
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clients.servers_client, server['id'], wait_until)
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# Multiple validatable servers are not supported for now. Their
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# creation will fail with the condition above.
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if CONF.validation.run_validation and validatable:
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if CONF.validation.connect_method == 'floating':
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_setup_validation_fip()
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except Exception:
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with excutils.save_and_reraise_exception():
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for server in servers:
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try:
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clients.servers_client.delete_server(
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server['id'])
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except Exception:
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LOG.exception('Deleting server %s failed',
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server['id'])
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for server in servers:
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# NOTE(artom) If the servers were booted with volumes
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# and with delete_on_termination=False we need to wait
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# for the servers to go away before proceeding with
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# cleanup, otherwise we'll attempt to delete the
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# volumes while they're still attached to servers that
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# are in the process of being deleted.
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try:
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waiters.wait_for_server_termination(
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clients.servers_client, server['id'])
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except Exception:
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LOG.exception('Server %s failed to delete in time',
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server['id'])
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if (validatable and CONF.compute_feature_enabled.console_output and
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wait_for_sshable):
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waiters.wait_for_guest_os_boot(clients.servers_client, server['id'])
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return body, servers
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def shelve_server(servers_client, server_id, force_shelve_offload=False):
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"""Common wrapper utility to shelve server.
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This method is a common wrapper to make server in 'SHELVED'
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or 'SHELVED_OFFLOADED' state.
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:param servers_clients: Compute servers client instance.
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:param server_id: Server to make in shelve state
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:param force_shelve_offload: Forcefully offload shelve server if it
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is configured not to offload server
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automatically after offload time.
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"""
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servers_client.shelve_server(server_id)
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offload_time = CONF.compute.shelved_offload_time
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if offload_time >= 0:
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waiters.wait_for_server_status(servers_client, server_id,
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'SHELVED_OFFLOADED',
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extra_timeout=offload_time)
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else:
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waiters.wait_for_server_status(servers_client, server_id, 'SHELVED')
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if force_shelve_offload:
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servers_client.shelve_offload_server(server_id)
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waiters.wait_for_server_status(servers_client, server_id,
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'SHELVED_OFFLOADED')
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def create_websocket(url):
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url = urlparse.urlparse(url)
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# NOTE(mnaser): It is possible that there is no port specified, so fall
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# back to the default port based on the scheme.
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port = url.port or (443 if url.scheme == 'https' else 80)
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for res in socket.getaddrinfo(url.hostname, port,
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socket.AF_UNSPEC, socket.SOCK_STREAM):
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af, socktype, proto, _, sa = res
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client_socket = socket.socket(af, socktype, proto)
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if url.scheme == 'https':
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client_socket = ssl.wrap_socket(client_socket)
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client_socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
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try:
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client_socket.connect(sa)
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except socket.error:
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client_socket.close()
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continue
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break
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else:
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raise socket.error('WebSocket creation failed')
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# Turn the Socket into a WebSocket to do the communication
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return _WebSocket(client_socket, url)
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class _WebSocket(object):
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def __init__(self, client_socket, url):
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"""Contructor for the WebSocket wrapper to the socket."""
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self._socket = client_socket
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# cached stream for early frames.
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self.cached_stream = b''
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# Upgrade the HTTP connection to a WebSocket
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self._upgrade(url)
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def _recv(self, recv_size):
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"""Wrapper to receive data from the cached stream or socket."""
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if recv_size <= 0:
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return None
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data_from_cached = b''
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data_from_socket = b''
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if len(self.cached_stream) > 0:
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read_from_cached = min(len(self.cached_stream), recv_size)
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data_from_cached += self.cached_stream[:read_from_cached]
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self.cached_stream = self.cached_stream[read_from_cached:]
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recv_size -= read_from_cached
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if recv_size > 0:
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data_from_socket = self._socket.recv(recv_size)
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return data_from_cached + data_from_socket
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def receive_frame(self):
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"""Wrapper for receiving data to parse the WebSocket frame format"""
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# We need to loop until we either get some bytes back in the frame
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# or no data was received (meaning the socket was closed). This is
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# done to handle the case where we get back some empty frames
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while True:
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header = self._recv(2)
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# If we didn't receive any data, just return None
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if not header:
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return None
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# We will make the assumption that we are only dealing with
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# frames less than 125 bytes here (for the negotiation) and
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# that only the 2nd byte contains the length, and since the
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# server doesn't do masking, we can just read the data length
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if int(header[1]) & 127 > 0:
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return self._recv(int(header[1]) & 127)
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def send_frame(self, data):
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"""Wrapper for sending data to add in the WebSocket frame format."""
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frame_bytes = list()
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# For the first byte, want to say we are sending binary data (130)
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frame_bytes.append(130)
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# Only sending negotiation data so don't need to worry about > 125
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# We do need to add the bit that says we are masking the data
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frame_bytes.append(len(data) | 128)
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# We don't really care about providing a random mask for security
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# So we will just hard-code a value since a test program
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mask = [7, 2, 1, 9]
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for i in range(len(mask)):
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frame_bytes.append(mask[i])
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# Mask each of the actual data bytes that we are going to send
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for i in range(len(data)):
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frame_bytes.append(int(data[i]) ^ mask[i % 4])
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# Convert our integer list to a binary array of bytes
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frame_bytes = struct.pack('!%iB' % len(frame_bytes), * frame_bytes)
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self._socket.sendall(frame_bytes)
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def close(self):
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"""Helper method to close the connection."""
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# Close down the real socket connection and exit the test program
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if self._socket is not None:
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self._socket.shutdown(1)
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self._socket.close()
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self._socket = None
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def _upgrade(self, url):
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"""Upgrade the HTTP connection to a WebSocket and verify."""
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# It is possible to pass the path as a query parameter in the request,
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# so use it if present
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# Given noVNC format
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# https://x.com/vnc_auto.html?path=%3Ftoken%3Dxxx,
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# url format is
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# ParseResult(scheme='https', netloc='x.com',
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# path='/vnc_auto.html', params='',
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# query='path=%3Ftoken%3Dxxx', fragment='').
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# qparams format is {'path': ['?token=xxx']}
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qparams = urlparse.parse_qs(url.query)
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# according to references
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# https://docs.python.org/3/library/urllib.parse.html
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# https://tools.ietf.org/html/rfc3986#section-3.4
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# qparams['path'][0] format is '?token=xxx' without / prefix
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# remove / in /websockify to comply to references.
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path = qparams['path'][0] if 'path' in qparams else 'websockify'
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# Fix websocket request format by adding / prefix.
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# Updated request format: GET /?token=xxx HTTP/1.1
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# or GET /websockify HTTP/1.1
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reqdata = 'GET /%s HTTP/1.1\r\n' % path
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reqdata += 'Host: %s' % url.hostname
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# Add port only if we have one specified
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if url.port:
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reqdata += ':%s' % url.port
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# Line-ending for Host header
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reqdata += '\r\n'
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# Tell the HTTP Server to Upgrade the connection to a WebSocket
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reqdata += 'Upgrade: websocket\r\nConnection: Upgrade\r\n'
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# The token=xxx is sent as a Cookie not in the URI for noVNC < v1.1.0
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reqdata += 'Cookie: %s\r\n' % url.query
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# Use a hard-coded WebSocket key since a test program
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reqdata += 'Sec-WebSocket-Key: x3JJHMbDL1EzLkh9GBhXDw==\r\n'
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reqdata += 'Sec-WebSocket-Version: 13\r\n'
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# We are choosing to use binary even though browser may do Base64
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reqdata += 'Sec-WebSocket-Protocol: binary\r\n\r\n'
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# Send the HTTP GET request and get the response back
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self._socket.sendall(reqdata.encode('utf8'))
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self.response = data = self._socket.recv(4096)
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# Loop through & concatenate all of the data in the response body
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end_loc = self.response.find(b'\r\n\r\n')
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while data and end_loc < 0:
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data = self._socket.recv(4096)
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self.response += data
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end_loc = self.response.find(b'\r\n\r\n')
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if len(self.response) > end_loc + 4:
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# In case some frames (e.g. the first RFP negotiation) have
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# arrived, cache it for next reading.
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self.cached_stream = self.response[end_loc + 4:]
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# ensure response ends with '\r\n\r\n'.
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self.response = self.response[:end_loc + 4]
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