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# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You 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.
__all__ = [
'SLB_API_VERSION',
'SLBDriver'
]
try:
import simplejson as json
except ImportError:
import json
from libcloud.common.aliyun import AliyunXmlResponse, SignedAliyunConnection
from libcloud.common.types import LibcloudError
from libcloud.loadbalancer.types import State
from libcloud.loadbalancer.base import Algorithm, Driver, LoadBalancer, Member
from libcloud.utils.misc import ReprMixin
from libcloud.utils.py3 import u
from libcloud.utils.xml import findattr, findtext, findall
SLB_API_VERSION = '2014-05-15'
SLB_API_HOST = 'slb.aliyuncs.com'
DEFAULT_SIGNATURE_VERSION = '1.0'
STATE_MAPPINGS = {
'inactive': State.UNKNOWN,
'active': State.RUNNING,
'locked': State.PENDING
}
RESOURCE_EXTRA_ATTRIBUTES_MAP = {
'balancer': {
'create_timestamp': {
'xpath': 'CreateTimeStamp',
'transform_func': int
},
'address_type': {
'xpath': 'AddressType',
'transform_func': u
},
'region_id': {
'xpath': 'RegionId',
'transform_func': u
},
'region_id_alias': {
'xpath': 'RegionIdAlias',
'transform_func': u
},
'create_time': {
'xpath': 'CreateTime',
'transform_func': u
},
'master_zone_id': {
'xpath': 'MasterZoneId',
'transform_func': u
},
'slave_zone_id': {
'xpath': 'SlaveZoneId',
'transform_func': u
},
'network_type': {
'xpath': 'NetworkType',
'transform_func': u
}
}
}
SLB_SCHEDULER_TO_ALGORITHM = {
'wrr': Algorithm.WEIGHTED_ROUND_ROBIN,
'wlc': Algorithm.WEIGHTED_LEAST_CONNECTIONS
}
ALGORITHM_TO_SLB_SCHEDULER = {
Algorithm.WEIGHTED_ROUND_ROBIN: 'wrr',
Algorithm.WEIGHTED_LEAST_CONNECTIONS: 'wlc'
}
class SLBConnection(SignedAliyunConnection):
api_version = SLB_API_VERSION
host = SLB_API_HOST
responseCls = AliyunXmlResponse
service_name = 'slb'
class SLBLoadBalancerAttribute(object):
"""
This class used to get listeners and backend servers related to a balancer
listeners is a ``list`` of ``dict``, each element contains
'ListenerPort' and 'ListenerProtocol' keys.
backend_servers is a ``list`` of ``dict``, each element contains
'ServerId' and 'Weight' keys.
"""
def __init__(self, balancer, listeners, backend_servers, extra=None):
self.balancer = balancer
self.listeners = listeners or []
self.backend_servers = backend_servers or []
self.extra = extra or {}
def is_listening(self, port):
for listener in self.listeners:
if listener.get('ListenerPort') == port:
return True
return False
def is_attached(self, member):
for server in self.backend_servers:
if server.get('Serverid') == member.id:
return True
return False
def __repr__(self):
return ('<SLBLoadBalancerAttribute id=%s, ports=%s, servers=%s ...>' %
(self.balancer.id, self.listeners, self.backend_servers))
class SLBLoadBalancerListener(ReprMixin, object):
"""
Base SLB load balancer listener class
"""
_repr_attributes = ['port', 'backend_port', 'scheduler', 'bandwidth']
action = None
option_keys = []
def __init__(self, port, backend_port, algorithm, bandwidth, extra=None):
self.port = port
self.backend_port = backend_port
self.scheduler = ALGORITHM_TO_SLB_SCHEDULER.get(algorithm, 'wrr')
self.bandwidth = bandwidth
self.extra = extra or {}
@classmethod
def create(cls, port, backend_port, algorithm, bandwidth, extra=None):
return cls(port, backend_port, algorithm, bandwidth, extra=extra)
def get_create_params(self):
params = self.get_required_params()
options = self.get_optional_params()
options.update(params)
return options
def get_required_params(self):
params = {'Action': self.action,
'ListenerPort': self.port,
'BackendServerPort': self.backend_port,
'Scheduler': self.scheduler,
'Bandwidth': self.bandwidth}
return params
def get_optional_params(self):
options = {}
for option in self.option_keys:
if self.extra and option in self.extra:
options[option] = self.extra[option]
return options
class SLBLoadBalancerHttpListener(SLBLoadBalancerListener):
"""
This class represents a rule to route http request to the backends.
"""
action = 'CreateLoadBalancerHTTPListener'
option_keys = ['XForwardedFor', 'StickySessionType', 'CookieTimeout',
'Cookie', 'HealthCheckDomain', 'HealthCheckURI',
'HealthCheckConnectPort', 'HealthyThreshold',
'UnhealthyThreshold', 'HealthCheckTimeout',
'HealthCheckInterval', 'HealthCheckHttpCode']
def __init__(self, port, backend_port, algorithm, bandwidth,
sticky_session, health_check, extra=None):
super(SLBLoadBalancerHttpListener, self).__init__(
port, backend_port, algorithm, bandwidth, extra=extra)
self.sticky_session = sticky_session
self.health_check = health_check
def get_required_params(self):
params = super(SLBLoadBalancerHttpListener,
self).get_required_params()
params['StickySession'] = self.sticky_session
params['HealthCheck'] = self.health_check
return params
@classmethod
def create(cls, port, backend_port, algorithm, bandwidth, extra={}):
if 'StickySession' not in extra:
raise AttributeError('StickySession is required')
if 'HealthCheck' not in extra:
raise AttributeError('HealthCheck is required')
sticky_session = extra['StickySession']
health_check = extra['HealthCheck']
return cls(port, backend_port, algorithm, bandwidth, sticky_session,
health_check, extra=extra)
class SLBLoadBalancerHttpsListener(SLBLoadBalancerListener):
"""
This class represents a rule to route https request to the backends.
"""
action = 'CreateLoadBalancerHTTPSListener'
option_keys = ['XForwardedFor', 'StickySessionType', 'CookieTimeout',
'Cookie', 'HealthCheckDomain', 'HealthCheckURI',
'HealthCheckConnectPort', 'HealthyThreshold',
'UnhealthyThreshold', 'HealthCheckTimeout',
'HealthCheckInterval', 'HealthCheckHttpCode']
def __init__(self, port, backend_port, algorithm, bandwidth,
sticky_session, health_check, certificate_id, extra=None):
super(SLBLoadBalancerHttpsListener, self).__init__(
port, backend_port, algorithm, bandwidth, extra=extra)
self.sticky_session = sticky_session
self.health_check = health_check
self.certificate_id = certificate_id
def get_required_params(self):
params = super(SLBLoadBalancerHttpsListener,
self).get_required_params()
params['StickySession'] = self.sticky_session
params['HealthCheck'] = self.health_check
params['ServerCertificateId'] = self.certificate_id
return params
@classmethod
def create(cls, port, backend_port, algorithm, bandwidth, extra={}):
if 'StickySession' not in extra:
raise AttributeError('StickySession is required')
if 'HealthCheck' not in extra:
raise AttributeError('HealthCheck is required')
if 'ServerCertificateId' not in extra:
raise AttributeError('ServerCertificateId is required')
sticky_session = extra['StickySession']
health_check = extra['HealthCheck']
certificate_id = extra['ServerCertificateId']
return cls(port, backend_port, algorithm, bandwidth, sticky_session,
health_check, certificate_id, extra=extra)
class SLBLoadBalancerTcpListener(SLBLoadBalancerListener):
"""
This class represents a rule to route tcp request to the backends.
"""
action = 'CreateLoadBalancerTCPListener'
option_keys = ['PersistenceTimeout', 'HealthCheckType',
'HealthCheckDomain', 'HealthCheckURI',
'HealthCheckConnectPort', 'HealthyThreshold',
'UnhealthyThreshold', 'HealthCheckConnectTimeout',
'HealthCheckInterval', 'HealthCheckHttpCode']
class SLBLoadBalancerUdpListener(SLBLoadBalancerTcpListener):
"""
This class represents a rule to route udp request to the backends.
"""
action = 'CreateLoadBalancerUDPListener'
option_keys = ['PersistenceTimeout', 'HealthCheckConnectPort',
'HealthyThreshold', 'UnhealthyThreshold',
'HealthCheckConnectTimeout', 'HealthCheckInterval']
class SLBServerCertificate(ReprMixin, object):
_repr_attributes = ['id', 'name', 'fingerprint']
def __init__(self, id, name, fingerprint):
self.id = id
self.name = name
self.fingerprint = fingerprint
PROTOCOL_TO_LISTENER_MAP = {
'http': SLBLoadBalancerHttpListener,
'https': SLBLoadBalancerHttpsListener,
'tcp': SLBLoadBalancerTcpListener,
'udp': SLBLoadBalancerUdpListener
}
class SLBDriver(Driver):
"""
Aliyun SLB load balancer driver.
"""
name = 'Aliyun Server Load Balancer'
website = 'https://www.aliyun.com/product/slb'
connectionCls = SLBConnection
path = '/'
namespace = None
_VALUE_TO_ALGORITHM_MAP = SLB_SCHEDULER_TO_ALGORITHM
_ALGORITHM_TO_VALUE_MAP = ALGORITHM_TO_SLB_SCHEDULER
def __init__(self, access_id, secret, region):
super(SLBDriver, self).__init__(access_id, secret)
self.region = region
def list_protocols(self):
return list(PROTOCOL_TO_LISTENER_MAP.keys())
def list_balancers(self, ex_balancer_ids=None, ex_filters=None):
"""
List all loadbalancers
@inherits :class:`Driver.list_balancers`
:keyword ex_balancer_ids: a list of balancer ids to filter results
Only balancers which's id in this list
will be returned
:type ex_balancer_ids: ``list`` of ``str``
:keyword ex_filters: attributes to filter results. Only balancers
which have all the desired attributes
and values will be returned
:type ex_filters: ``dict``
"""
params = {'Action': 'DescribeLoadBalancers',
'RegionId': self.region}
if ex_balancer_ids and isinstance(ex_balancer_ids, list):
params['LoadBalancerId'] = ','.join(ex_balancer_ids)
if ex_filters and isinstance(ex_filters, dict):
ex_filters.update(params)
params = ex_filters
resp_body = self.connection.request(self.path, params=params).object
return self._to_balancers(resp_body)
def create_balancer(self, name, port, protocol, algorithm, members,
ex_bandwidth=None, ex_internet_charge_type=None,
ex_address_type=None, ex_vswitch_id=None,
ex_master_zone_id=None, ex_slave_zone_id=None,
ex_client_token=None,
**kwargs):
"""
Create a new load balancer instance
@inherits: :class:`Driver.create_balancer`
:keyword ex_bandwidth: The max bandwidth limit for `paybybandwidth`
internet charge type, in Mbps unit
:type ex_bandwidth: ``int`` in range [1, 1000]
:keyword ex_internet_charge_type: The internet charge type
:type ex_internet_charge_type: a ``str`` of `paybybandwidth`
or `paybytraffic`
:keyword ex_address_type: The listening IP address type
:type ex_address_type: a ``str`` of `internet` or `intranet`
:keyword ex_vswitch_id: The vswitch id in a VPC network
:type ex_vswitch_id: ``str``
:keyword ex_master_zone_id: The id of the master availability zone
:type ex_master_zone_id: ``str``
:keyword ex_slave_zone_id: The id of the slave availability zone
:type ex_slave_zone_id: ``str``
:keyword ex_client_token: The token generated by client to
identify requests
:type ex_client_token: ``str``
"""
# 1.Create load balancer
params = {'Action': 'CreateLoadBalancer',
'RegionId': self.region}
if name:
params['LoadBalancerName'] = name
if not port:
raise AttributeError('port is required')
if not protocol:
# NOTE(samsong8610): Use http listener as default
protocol = 'http'
if protocol not in PROTOCOL_TO_LISTENER_MAP:
raise AttributeError('unsupport protocol %s' % protocol)
# Bandwidth in range [1, 1000] Mbps
bandwidth = -1
if ex_bandwidth:
try:
bandwidth = int(ex_bandwidth)
except ValueError:
raise AttributeError('ex_bandwidth should be a integer in '
'range [1, 1000].')
params['Bandwidth'] = bandwidth
if ex_internet_charge_type:
if ex_internet_charge_type.lower() == 'paybybandwidth':
if bandwidth == -1:
raise AttributeError('PayByBandwidth internet charge type'
' need ex_bandwidth be set')
params['InternetChargeType'] = ex_internet_charge_type
if ex_address_type:
if ex_address_type.lower() not in ('internet', 'intranet'):
raise AttributeError('ex_address_type should be "internet" '
'or "intranet"')
params['AddressType'] = ex_address_type
if ex_vswitch_id:
params['VSwitchId'] = ex_vswitch_id
if ex_master_zone_id:
params['MasterZoneId'] = ex_master_zone_id
if ex_slave_zone_id:
params['SlaveZoneId'] = ex_slave_zone_id
if ex_client_token:
params['ClientToken'] = ex_client_token
if members and isinstance(members, list):
backend_ports = [member.port for member in members]
if len(set(backend_ports)) != 1:
raise AttributeError('the ports of members should be unique')
# NOTE(samsong8610): If members do not provide backend port,
# default to listening port
backend_port = backend_ports[0] or port
else:
backend_port = port
balancer = None
try:
resp_body = self.connection.request(self.path, params).object
balancer = self._to_balancer(resp_body)
balancer.port = port
# 2.Add backend servers
if members is None:
members = []
for member in members:
self.balancer_attach_member(balancer, member)
# 3.Create listener
# NOTE(samsong8610): Assume only create a listener which uses all
# the bandwidth.
self.ex_create_listener(balancer, backend_port, protocol,
algorithm, bandwidth, **kwargs)
self.ex_start_listener(balancer, port)
return balancer
except Exception as e:
if balancer is not None:
try:
self.destroy_balancer(balancer)
except Exception:
pass
raise e
def destroy_balancer(self, balancer):
params = {'Action': 'DeleteLoadBalancer',
'LoadBalancerId': balancer.id}
resp = self.connection.request(self.path, params)
return resp.success()
def get_balancer(self, balancer_id):
balancers = self.list_balancers(ex_balancer_ids=[balancer_id])
if len(balancers) != 1:
raise LibcloudError('could not find load balancer with id %s' %
balancer_id)
return balancers[0]
def balancer_attach_compute_node(self, balancer, node):
if len(node.public_ips) > 0:
ip = node.public_ips[0]
else:
ip = node.private_ips[0]
member = Member(id=node.id, ip=ip, port=balancer.port)
return self.balancer_attach_member(balancer, member)
def balancer_attach_member(self, balancer, member):
params = {'Action': 'AddBackendServers',
'LoadBalancerId': balancer.id}
if member and isinstance(member, Member):
params['BackendServers'] = self._to_servers_json([member])
self.connection.request(self.path, params)
return member
def balancer_detach_member(self, balancer, member):
params = {'Action': 'RemoveBackendServers',
'LoadBalancerId': balancer.id}
if member and isinstance(member, Member):
params['BackendServers'] = self._list_to_json([member.id])
self.connection.request(self.path, params)
return member
def balancer_list_members(self, balancer):
attribute = self.ex_get_balancer_attribute(balancer)
members = [Member(server['ServerId'], None, None, balancer=balancer,
extra={'Weight': server['Weight']})
for server in attribute.backend_servers]
return members
def ex_get_balancer_attribute(self, balancer):
"""
Get balancer attribute
:param balancer: the balancer to get attribute
:type balancer: ``LoadBalancer``
:return: the balancer attribute
:rtype: ``SLBLoadBalancerAttribute``
"""
params = {'Action': 'DescribeLoadBalancerAttribute',
'LoadBalancerId': balancer.id}
resp_body = self.connection.request(self.path, params).object
attribute = self._to_balancer_attribute(resp_body)
return attribute
def ex_list_listeners(self, balancer):
"""
Get all listener related to the given balancer
:param balancer: the balancer to list listeners
:type balancer: ``LoadBalancer``
:return: a list of listeners
:rtype: ``list`` of ``SLBLoadBalancerListener``
"""
attribute = self.ex_get_balancer_attribute(balancer)
listeners = [SLBLoadBalancerListener(each['ListenerPort'], None,
None, None)
for each in attribute.listeners]
return listeners
def ex_create_listener(self, balancer, backend_port, protocol, algorithm,
bandwidth, **kwargs):
"""
Create load balancer listening rule.
:param balancer: the balancer which the rule belongs to.
The listener created will listen on the port of the
the balancer as default. 'ListenerPort' in kwargs
will *OVERRIDE* it.
:type balancer: ``LoadBalancer``
:param backend_port: the backend server port
:type backend_port: ``int``
:param protocol: the balancer protocol, default to http
:type protocol: ``str``
:param algorithm: the balancer routing algorithm
:type algorithm: ``Algorithm``
:param bandwidth: the listener bandwidth limits
:type bandwidth: ``str``
:return: the created listener
:rtype: ``SLBLoadBalancerListener``
"""
cls = PROTOCOL_TO_LISTENER_MAP.get(protocol,
SLBLoadBalancerHttpListener)
if 'ListenerPort' in kwargs:
port = kwargs['ListenerPort']
else:
port = balancer.port
listener = cls.create(port, backend_port, algorithm,
bandwidth, extra=kwargs)
params = listener.get_create_params()
params['LoadBalancerId'] = balancer.id
params['RegionId'] = self.region
resp = self.connection.request(self.path, params)
return resp.success()
def ex_start_listener(self, balancer, port):
"""
Start balancer's listener listening the given port.
:param balancer: a load balancer
:type balancer: ``LoadBalancer``
:param port: listening port
:type port: ``int``
:return: whether operation is success
:rtype: ``bool``
"""
params = {'Action': 'StartLoadBalancerListener',
'LoadBalancerId': balancer.id,
'ListenerPort': port}
resp = self.connection.request(self.path, params)
return resp.success()
def ex_stop_listener(self, balancer, port):
"""
Stop balancer's listener listening the given port.
:param balancer: a load balancer
:type balancer: ``LoadBalancer``
:param port: listening port
:type port: ``int``
:return: whether operation is success
:rtype: ``bool``
"""
params = {'Action': 'StopLoadBalancerListener',
'LoadBalancerId': balancer.id,
'ListenerPort': port}
resp = self.connection.request(self.path, params)
return resp.success()
def ex_upload_certificate(self, name, server_certificate,
private_key):
"""
Upload certificate and private key for https load balancer listener
:param name: the certificate name
:type name: ``str``
:param server_certificate: the content of the certificate to upload
in PEM format
:type server_certificate: ``str``
:param private_key: the content of the private key to upload
in PEM format
:type private_key: ``str``
:return: new created certificate info
:rtype: ``SLBServerCertificate``
"""
params = {'Action': 'UploadServerCertificate',
'RegionId': self.region,
'ServerCertificate': server_certificate,
'PrivateKey': private_key}
if name:
params['ServerCertificateName'] = name
resp_body = self.connection.request(self.path, params).object
return self._to_server_certificate(resp_body)
def ex_list_certificates(self, certificate_ids=[]):
"""
List all server certificates
:param certificate_ids: certificate ids to filter results
:type certificate_ids: ``str``
:return: certificates
:rtype: ``SLBServerCertificate``
"""
params = {'Action': 'DescribeServerCertificates',
'RegionId': self.region}
if certificate_ids and isinstance(certificate_ids, list):
params['ServerCertificateId'] = ','.join(certificate_ids)
resp_body = self.connection.request(self.path, params).object
cert_elements = findall(resp_body,
'ServerCertificates/ServerCertificate',
namespace=self.namespace)
certificates = [self._to_server_certificate(el)
for el in cert_elements]
return certificates
def ex_delete_certificate(self, certificate_id):
"""
Delete the given server certificate
:param certificate_id: the id of the certificate to delete
:type certificate_id: ``str``
:return: whether process is success
:rtype: ``bool``
"""
params = {'Action': 'DeleteServerCertificate',
'RegionId': self.region,
'ServerCertificateId': certificate_id}
resp = self.connection.request(self.path, params)
return resp.success()
def ex_set_certificate_name(self, certificate_id, name):
"""
Set server certificate name.
:param certificate_id: the id of the server certificate to update
:type certificate_id: ``str``
:param name: the new name
:type name: ``str``
:return: whether updating is success
:rtype: ``bool``
"""
params = {'Action': 'SetServerCertificateName',
'RegionId': self.region,
'ServerCertificateId': certificate_id,
'ServerCertificateName': name}
resp = self.connection.request(self.path, params)
return resp.success()
def _to_balancers(self, element):
xpath = 'LoadBalancers/LoadBalancer'
return [self._to_balancer(el)
for el in findall(element=element, xpath=xpath,
namespace=self.namespace)]
def _to_balancer(self, el):
_id = findtext(element=el, xpath='LoadBalancerId',
namespace=self.namespace)
name = findtext(element=el, xpath='LoadBalancerName',
namespace=self.namespace)
status = findtext(element=el, xpath='LoadBalancerStatus',
namespace=self.namespace)
state = STATE_MAPPINGS.get(status, State.UNKNOWN)
address = findtext(element=el, xpath='Address',
namespace=self.namespace)
extra = self._get_extra_dict(
el, RESOURCE_EXTRA_ATTRIBUTES_MAP['balancer'])
balancer = LoadBalancer(id=_id, name=name, state=state, ip=address,
port=None, driver=self, extra=extra)
return balancer
def _create_list_params(self, params, items, label):
"""
return parameter list
"""
if isinstance(items, str):
items = [items]
for index, item in enumerate(items):
params[label % (index + 1)] = item
return params
def _get_extra_dict(self, element, mapping):
"""
Extract attributes from the element based on rules provided in the
mapping dictionary.
:param element: Element to parse the values from.
:type element: xml.etree.ElementTree.Element.
:param mapping: Dictionary with the extra layout
:type node: :class:`Node`
:rtype: ``dict``
"""
extra = {}
for attribute, values in mapping.items():
transform_func = values['transform_func']
value = findattr(element=element,
xpath=values['xpath'],
namespace=self.namespace)
if value:
try:
extra[attribute] = transform_func(value)
except Exception:
extra[attribute] = None
else:
extra[attribute] = value
return extra
def _to_servers_json(self, members):
servers = []
for each in members:
server = {'ServerId': each.id,
'Weight': '100'}
if 'Weight' in each.extra:
server['Weight'] = each.extra['Weight']
servers.append(server)
try:
return json.dumps(servers)
except Exception:
raise AttributeError('could not convert member to backend server')
def _to_balancer_attribute(self, element):
balancer = self._to_balancer(element)
port_proto_elements = findall(
element, 'ListenerPortsAndProtocol/ListenerPortAndProtocol',
namespace=self.namespace)
if len(port_proto_elements) > 0:
listeners = [self._to_port_and_protocol(el)
for el in port_proto_elements]
else:
port_elements = findall(element, 'ListenerPorts/ListenerPort',
namespace=self.namespace)
listeners = [{'ListenerPort': el.text, 'ListenerProtocol': 'http'}
for el in port_elements]
server_elements = findall(element,
'BackendServers/BackendServer',
namespace=self.namespace)
backend_servers = [self._to_server_and_weight(el)
for el in server_elements]
return SLBLoadBalancerAttribute(balancer, listeners, backend_servers)
def _to_port_and_protocol(self, el):
port = findtext(el, 'ListenerPort', namespace=self.namespace)
protocol = findtext(el, 'ListenerProtocol', namespace=self.namespace)
return {'ListenerPort': port, 'ListenerProtocol': protocol}
def _to_server_and_weight(self, el):
server_id = findtext(el, 'ServerId', namespace=self.namespace)
weight = findtext(el, 'Weight', namespace=self.namespace)
return {'ServerId': server_id, 'Weight': weight}
def _to_server_certificate(self, el):
_id = findtext(el, 'ServerCertificateId', namespace=self.namespace)
name = findtext(el, 'ServerCertificateName', namespace=self.namespace)
fingerprint = findtext(el, 'Fingerprint', namespace=self.namespace)
return SLBServerCertificate(id=_id, name=name,
fingerprint=fingerprint)
def _list_to_json(self, value):
try:
return json.dumps(value)
except Exception:
return '[]'