# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
"""Clustering v1 node action implementations"""
import logging
import sys
from openstack import exceptions as sdk_exc
from osc_lib.command import command
from osc_lib import exceptions as exc
from osc_lib import utils
from oslo_utils import strutils
import six
from senlinclient.common.i18n import _
from senlinclient.common import utils as senlin_utils
class ListNode(command.Lister):
"""Show list of nodes."""
log = logging.getLogger(__name__ + ".ListNode")
def get_parser(self, prog_name):
parser = super(ListNode, self).get_parser(prog_name)
parser.add_argument(
'--cluster',
metavar='<cluster>',
help=_('ID or name of cluster from which nodes are to be listed')
)
parser.add_argument(
'--filters',
metavar='<"key1=value1;key2=value2...">',
help=_("Filter parameters to apply on returned nodes. "
"This can be specified multiple times, or once with "
"parameters separated by a semicolon. The valid filter"
" keys are: ['status','name']"),
action='append'
)
parser.add_argument(
'--sort',
metavar='<key>[:<direction>]',
help=_("Sorting option which is a string containing a list of "
"keys separated by commas. Each key can be optionally "
"appended by a sort direction (:asc or :desc). The valid "
"sort keys are:['index', 'name', 'status', 'init_at', "
"'created_at', 'updated_at']")
)
parser.add_argument(
'--limit',
metavar='<limit>',
help=_('Limit the number of nodes returned')
)
parser.add_argument(
'--marker',
metavar='<id>',
help=_('Only return nodes that appear after the given node ID')
)
parser.add_argument(
'--global-project',
default=False, action="store_true",
help=_('Indicate that this node list should include nodes from '
'all projects. This option is subject to access policy '
'checking. Default is False')
)
parser.add_argument(
'--full-id',
default=False, action="store_true",
help=_('Print full IDs in list')
)
return parser
def take_action(self, parsed_args):
self.log.debug("take_action(%s)", parsed_args)
senlin_client = self.app.client_manager.clustering
columns = ['id', 'name', 'index', 'status', 'cluster_id',
'physical_id', 'profile_name', 'created_at', 'updated_at']
queries = {
'cluster_id': parsed_args.cluster,
'sort': parsed_args.sort,
'limit': parsed_args.limit,
'marker': parsed_args.marker,
'global_project': parsed_args.global_project,
}
if parsed_args.filters:
queries.update(senlin_utils.format_parameters(parsed_args.filters))
nodes = senlin_client.nodes(**queries)
if parsed_args.global_project:
columns.append('project_id')
if not parsed_args.full_id:
formatters = {
'id': lambda x: x[:8],
'cluster_id': lambda x: x[:8] if x else '',
'physical_id': lambda x: x[:8] if x else ''
}
if 'project_id' in columns:
formatters['project_id'] = lambda x: x[:8]
else:
formatters = {}
return (
columns,
(utils.get_item_properties(n, columns, formatters=formatters)
for n in nodes)
)
class ShowNode(command.ShowOne):
"""Show detailed info about the specified node."""
log = logging.getLogger(__name__ + ".ShowNode")
def get_parser(self, prog_name):
parser = super(ShowNode, self).get_parser(prog_name)
parser.add_argument(
'--details',
default=False,
action="store_true",
help=_('Include physical object details')
)
parser.add_argument(
'node',
metavar='<node>',
help=_('Name or ID of the node to show the details for')
)
return parser
def take_action(self, parsed_args):
self.log.debug("take_action(%s)", parsed_args)
senlin_client = self.app.client_manager.clustering
return _show_node(senlin_client, parsed_args.node, parsed_args.details)
def _show_node(senlin_client, node_id, show_details=False):
"""Show detailed info about the specified node."""
try:
node = senlin_client.get_node(node_id, details=show_details)
except sdk_exc.ResourceNotFound:
raise exc.CommandError(_('Node not found: %s') % node_id)
formatters = {
'metadata': senlin_utils.json_formatter,
'data': senlin_utils.json_formatter,
'dependents': senlin_utils.json_formatter,
}
data = node.to_dict()
if show_details and data['details']:
formatters['details'] = senlin_utils.nested_dict_formatter(
list(data['details'].keys()), ['property', 'value'])
columns = sorted(data.keys())
return columns, utils.get_dict_properties(data, columns,
formatters=formatters)
class CreateNode(command.ShowOne):
"""Create the node."""
log = logging.getLogger(__name__ + ".CreateNode")
def get_parser(self, prog_name):
parser = super(CreateNode, self).get_parser(prog_name)
parser.add_argument(
'--cluster',
metavar='<cluster>',
help=_('Cluster Id or Name for this node')
)
parser.add_argument(
'--role',
metavar='<role>',
help=_('Role for this node in the specific cluster')
)
parser.add_argument(
'--metadata',
metavar='<"key1=value1;key2=value2...">',
help=_('Metadata values to be attached to the node. '
'This can be specified multiple times, or once with '
'key-value pairs separated by a semicolon'),
action='append'
)
parser.add_argument(
'--profile',
metavar='<profile>',
required=True,
help=_('Profile Id or Name used for this node')
)
parser.add_argument(
'name',
metavar='<node-name>',
help=_('Name of the node to create')
)
return parser
def take_action(self, parsed_args):
self.log.debug("take_action(%s)", parsed_args)
senlin_client = self.app.client_manager.clustering
attrs = {
'name': parsed_args.name,
'cluster_id': parsed_args.cluster,
'profile_id': parsed_args.profile,
'role': parsed_args.role,
'metadata': senlin_utils.format_parameters(parsed_args.metadata),
}
node = senlin_client.create_node(**attrs)
return _show_node(senlin_client, node.id)
class UpdateNode(command.ShowOne):
"""Update the node."""
log = logging.getLogger(__name__ + ".UpdateNode")
def get_parser(self, prog_name):
parser = super(UpdateNode, self).get_parser(prog_name)
parser.add_argument(
'--name',
metavar='<name>',
help=_('New name for the node')
)
parser.add_argument(
'--profile',
metavar='<profile>',
help=_('ID or name of new profile to use')
)
parser.add_argument(
'--role',
metavar='<role>',
help=_('Role for this node in the specific cluster')
)
parser.add_argument(
'--metadata',
metavar='<"key1=value1;key2=value2...">',
help=_("Metadata values to be attached to the node. "
"This can be specified multiple times, or once with "
"key-value pairs separated by a semicolon. Use '{}' "
"can clean metadata "),
action='append'
)
parser.add_argument(
'node',
metavar='<node>',
help=_('Name or ID of node to update')
)
return parser
def take_action(self, parsed_args):
self.log.debug("take_action(%s)", parsed_args)
senlin_client = self.app.client_manager.clustering
# Find the node first, we need its UUID
node = senlin_client.find_node(parsed_args.node)
if node is None:
raise exc.CommandError(_('Node not found: %s') % parsed_args.node)
attrs = {
'name': parsed_args.name,
'role': parsed_args.role,
'profile_id': parsed_args.profile,
'metadata': senlin_utils.format_parameters(parsed_args.metadata),
}
senlin_client.update_node(node.id, **attrs)
return _show_node(senlin_client, node.id)
class DeleteNode(command.Command):
"""Delete the node(s)."""
log = logging.getLogger(__name__ + ".DeleteNode")
def get_parser(self, prog_name):
parser = super(DeleteNode, self).get_parser(prog_name)
parser.add_argument(
'node',
metavar='<node>',
nargs='+',
help=_('Name or ID of node(s) to delete')
)
parser.add_argument(
'--force',
action='store_true',
help=_('Skip yes/no prompt (assume yes)')
)
return parser
def take_action(self, parsed_args):
self.log.debug("take_action(%s)", parsed_args)
senlin_client = self.app.client_manager.clustering
try:
if not parsed_args.force and sys.stdin.isatty():
sys.stdout.write(
_("Are you sure you want to delete this node(s)"
" [y/N]?"))
prompt_response = sys.stdin.readline().lower()
if not prompt_response.startswith('y'):
return
except KeyboardInterrupt: # Ctrl-c
self.log.info('Ctrl-c detected.')
return
except EOFError: # Ctrl-d
self.log.info('Ctrl-d detected')
return
result = {}
for nid in parsed_args.node:
try:
node = senlin_client.delete_node(nid, False)
result[nid] = ('OK', node.location.split('/')[-1])
except Exception as ex:
result[nid] = ('ERROR', six.text_type(ex))
for rid, res in result.items():
senlin_utils.print_action_result(rid, res)
class CheckNode(command.Command):
"""Check the node(s)."""
log = logging.getLogger(__name__ + ".CheckNode")
def get_parser(self, prog_name):
parser = super(CheckNode, self).get_parser(prog_name)
parser.add_argument(
'node',
metavar='<node>',
nargs='+',
help=_('ID or name of node(s) to check.')
)
return parser
def take_action(self, parsed_args):
self.log.debug("take_action(%s)", parsed_args)
senlin_client = self.app.client_manager.clustering
for nid in parsed_args.node:
try:
resp = senlin_client.check_node(nid)
except sdk_exc.ResourceNotFound:
raise exc.CommandError(_('Node not found: %s') % nid)
print('Node check request on node %(nid)s is accepted by '
'action %(action)s.'
% {'nid': nid, 'action': resp['action']})
class RecoverNode(command.Command):
"""Recover the node(s)."""
log = logging.getLogger(__name__ + ".RecoverNode")
def get_parser(self, prog_name):
parser = super(RecoverNode, self).get_parser(prog_name)
parser.add_argument(
'--check',
metavar='<boolean>',
default=False,
help=_('Whether the node(s) should check physical resource status '
'before doing node recover. Default is false')
)
parser.add_argument(
'node',
metavar='<node>',
nargs='+',
help=_('ID or name of node(s) to recover.')
)
return parser
def take_action(self, parsed_args):
self.log.debug("take_action(%s)", parsed_args)
senlin_client = self.app.client_manager.clustering
params = {
'check': strutils.bool_from_string(parsed_args.check, strict=True)
}
for nid in parsed_args.node:
try:
resp = senlin_client.recover_node(nid, **params)
except sdk_exc.ResourceNotFound:
raise exc.CommandError(_('Node not found: %s') % nid)
print('Node recover request on node %(nid)s is accepted by '
'action %(action)s.'
% {'nid': nid, 'action': resp['action']})