openstack
/
neutron
Code Issues Proposed changes

Start using neutron-lib for shared constants and exceptions 

Debtcollector warnings are enabled by an env var for now, to avoid blasting
everyone's unit tests at once.

Partially-Implements: blueprint neutron-lib
Depends-On: I6991464acc3aef99f6ec5eff56a893deaaefe40b
Change-Id: If183b7a6797834e29c377937fc06261aa3b00249
This commit is contained in:
Doug Wiegley 2016-01-15 10:53:02 -06:00
parent 5888f79baf
commit 87a79256c4
5 changed files with 152 additions and 369 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

2
.pylintrc
View File

@ -48,6 +48,8 @@ disable=
unused-argument,
unused-import,
unused-variable,
# TODO(dougwig) - disable nonstandard-exception while we have neutron_lib shims
nonstandard-exception,
# "C" Coding convention violations
bad-continuation,
invalid-name,

46
neutron/common/_deprecate.py Normal file
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@ -0,0 +1,46 @@
# 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.
import copy
import debtcollector
import inspect
import os
class _DeprecateSubset(object):
def __init__(self, my_globals, other_mod):
self.other_mod = other_mod
self.my_globals = copy.copy(my_globals)
def __getattr__(self, name):
a = self.my_globals.get(name)
if (not name.startswith("__") and not inspect.ismodule(a) and
name in vars(self.other_mod)):
# These should be enabled after most have been cleaned up
# in neutron proper, which may not happen during the busy M-3.
if os.getenv('NEUTRON_SHOW_DEPRECATION_WARNINGS'):
debtcollector.deprecate(
name,
message='moved to neutron_lib',
version='mitaka',
removal_version='newton',
stacklevel=4)
return vars(self.other_mod)[name]
try:
return self.my_globals[name]
except KeyError:
raise AttributeError()

108
neutron/common/constants.py
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@ -13,53 +13,15 @@
# See the License for the specific language governing permissions and
# limitations under the License.
# TODO(salv-orlando): Verify if a single set of operational
# status constants is achievable
NET_STATUS_ACTIVE = 'ACTIVE'
NET_STATUS_BUILD = 'BUILD'
NET_STATUS_DOWN = 'DOWN'
NET_STATUS_ERROR = 'ERROR'
import sys
PORT_STATUS_ACTIVE = 'ACTIVE'
PORT_STATUS_BUILD = 'BUILD'
PORT_STATUS_DOWN = 'DOWN'
PORT_STATUS_ERROR = 'ERROR'
PORT_STATUS_NOTAPPLICABLE = 'N/A'
from neutron_lib import constants as lib_constants
FLOATINGIP_STATUS_ACTIVE = 'ACTIVE'
FLOATINGIP_STATUS_DOWN = 'DOWN'
FLOATINGIP_STATUS_ERROR = 'ERROR'
from neutron.common import _deprecate
DEVICE_OWNER_COMPUTE_PREFIX = "compute:"
DEVICE_OWNER_NETWORK_PREFIX = "network:"
DEVICE_OWNER_NEUTRON_PREFIX = "neutron:"
DEVICE_OWNER_ROUTER_HA_INTF = (DEVICE_OWNER_NETWORK_PREFIX +
"router_ha_interface")
DEVICE_OWNER_ROUTER_INTF = DEVICE_OWNER_NETWORK_PREFIX + "router_interface"
DEVICE_OWNER_ROUTER_GW = DEVICE_OWNER_NETWORK_PREFIX + "router_gateway"
DEVICE_OWNER_FLOATINGIP = DEVICE_OWNER_NETWORK_PREFIX + "floatingip"
DEVICE_OWNER_DHCP = DEVICE_OWNER_NETWORK_PREFIX + "dhcp"
DEVICE_OWNER_DVR_INTERFACE = (DEVICE_OWNER_NETWORK_PREFIX +
"router_interface_distributed")
DEVICE_OWNER_AGENT_GW = (DEVICE_OWNER_NETWORK_PREFIX +
"floatingip_agent_gateway")
DEVICE_OWNER_ROUTER_SNAT = (DEVICE_OWNER_NETWORK_PREFIX +
"router_centralized_snat")
DEVICE_OWNER_LOADBALANCER = DEVICE_OWNER_NEUTRON_PREFIX + "LOADBALANCER"
DEVICE_OWNER_LOADBALANCERV2 = DEVICE_OWNER_NEUTRON_PREFIX + "LOADBALANCERV2"
DEVICE_OWNER_PREFIXES = (DEVICE_OWNER_NETWORK_PREFIX,
DEVICE_OWNER_NEUTRON_PREFIX)
# Collection used to identify devices owned by router interfaces.
# DEVICE_OWNER_ROUTER_HA_INTF is a special case and so is not included.
ROUTER_INTERFACE_OWNERS = (DEVICE_OWNER_ROUTER_INTF,
DEVICE_OWNER_DVR_INTERFACE)
ROUTER_INTERFACE_OWNERS_SNAT = (DEVICE_OWNER_ROUTER_INTF,
DEVICE_OWNER_DVR_INTERFACE,
DEVICE_OWNER_ROUTER_SNAT)
ROUTER_PORT_OWNERS = ROUTER_INTERFACE_OWNERS_SNAT + (DEVICE_OWNER_ROUTER_GW,)
ROUTER_PORT_OWNERS = lib_constants.ROUTER_INTERFACE_OWNERS_SNAT + \
(lib_constants.DEVICE_OWNER_ROUTER_GW,)
L3_AGENT_MODE_DVR = 'dvr'
L3_AGENT_MODE_DVR_SNAT = 'dvr_snat'
@ -68,9 +30,6 @@ L3_AGENT_MODE = 'agent_mode'
DEVICE_ID_RESERVED_DHCP_PORT = "reserved_dhcp_port"
FLOATINGIP_KEY = '_floatingips'
INTERFACE_KEY = '_interfaces'
HA_INTERFACE_KEY = '_ha_interface'
HA_ROUTER_STATE_KEY = '_ha_state'
METERING_LABEL_KEY = '_metering_labels'
FLOATINGIP_AGENT_INTF_KEY = '_floatingip_agent_interfaces'
@ -83,47 +42,11 @@ MINIMUM_AGENTS_FOR_HA = 2
HA_ROUTER_STATE_ACTIVE = 'active'
HA_ROUTER_STATE_STANDBY = 'standby'
IPv4 = 'IPv4'
IPv6 = 'IPv6'
IP_VERSION_4 = 4
IP_VERSION_6 = 6
IPv4_BITS = 32
IPv6_BITS = 128
INVALID_MAC_ADDRESSES = ['00:00:00:00:00:00', 'FF:FF:FF:FF:FF:FF']
IPv4_ANY = '0.0.0.0/0'
IPv6_ANY = '::/0'
IP_ANY = {IP_VERSION_4: IPv4_ANY, IP_VERSION_6: IPv6_ANY}
DHCP_RESPONSE_PORT = 68
FLOODING_ENTRY = ('00:00:00:00:00:00', '0.0.0.0')
AGENT_TYPE_DHCP = 'DHCP agent'
AGENT_TYPE_OVS = 'Open vSwitch agent'
AGENT_TYPE_LINUXBRIDGE = 'Linux bridge agent'
AGENT_TYPE_OFA = 'OFA driver agent'
AGENT_TYPE_L3 = 'L3 agent'
AGENT_TYPE_LOADBALANCER = 'Loadbalancer agent'
AGENT_TYPE_METERING = 'Metering agent'
AGENT_TYPE_METADATA = 'Metadata agent'
AGENT_TYPE_NIC_SWITCH = 'NIC Switch agent'
L2_AGENT_TOPIC = 'N/A'
PAGINATION_INFINITE = 'infinite'
SORT_DIRECTION_ASC = 'asc'
SORT_DIRECTION_DESC = 'desc'
PORT_BINDING_EXT_ALIAS = 'binding'
L3_AGENT_SCHEDULER_EXT_ALIAS = 'l3_agent_scheduler'
DHCP_AGENT_SCHEDULER_EXT_ALIAS = 'dhcp_agent_scheduler'
LBAAS_AGENT_SCHEDULER_EXT_ALIAS = 'lbaas_agent_scheduler'
L3_DISTRIBUTED_EXT_ALIAS = 'dvr'
L3_HA_MODE_EXT_ALIAS = 'l3-ha'
SUBNET_ALLOCATION_EXT_ALIAS = 'subnet_allocation'
ETHERTYPE_IPV6 = 0x86DD
# Protocol names and numbers for Security Groups/Firewalls
@ -225,8 +148,6 @@ DEVICE_NAME_MAX_LEN = 15
# vhost-user device names start with "vhu"
VHOST_USER_DEVICE_PREFIX = 'vhu'
# Device names start with "tap"
TAP_DEVICE_PREFIX = 'tap'
# The vswitch side of a veth pair for a nova iptables filter setup
VETH_DEVICE_PREFIX = 'qvo'
# prefix for SNAT interface in DVR
@ -235,7 +156,7 @@ SNAT_INT_DEV_PREFIX = 'sg-'
# Possible prefixes to partial port IDs in interface names used by the OVS,
# Linux Bridge, and IVS VIF drivers in Nova and the neutron agents. See the
# 'get_ovs_interfaceid' method in Nova (nova/virt/libvirt/vif.py) for details.
INTERFACE_PREFIXES = (TAP_DEVICE_PREFIX, VETH_DEVICE_PREFIX,
INTERFACE_PREFIXES = (lib_constants.TAP_DEVICE_PREFIX, VETH_DEVICE_PREFIX,
SNAT_INT_DEV_PREFIX)
ATTRIBUTES_TO_UPDATE = 'attributes_to_update'
@ -268,9 +189,6 @@ IPV6_MIN_MTU = 1280
ROUTER_MARK_MASK = "0xffff"
# Time format
ISO8601_TIME_FORMAT = '%Y-%m-%dT%H:%M:%S.%f'
# Agent states as detected by server, used to reply on agent's state report
# agent has just been registered
AGENT_NEW = 'new'
@ -278,3 +196,17 @@ AGENT_NEW = 'new'
AGENT_ALIVE = 'alive'
# agent has just returned to alive after being dead
AGENT_REVIVED = 'revived'
# Neutron-lib migration shim. This will wrap any constants that are moved
# to that library in a deprecation warning, until they can be updated to
# import directly from their new location.
# If you're wondering why we bother saving _OLD_REF, it is because if we
# do not, then the original module we are overwriting gets garbage collected,
# and then you will find some super strange behavior with inherited classes
# and the like. Saving a ref keeps it around.
# WARNING: THESE MUST BE THE LAST TWO LINES IN THIS MODULE
_OLD_REF = sys.modules[__name__]
sys.modules[__name__] = _deprecate._DeprecateSubset(globals(), lib_constants)
# WARNING: THESE MUST BE THE LAST TWO LINES IN THIS MODULE

364
neutron/common/exceptions.py
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@ -13,366 +13,165 @@
# License for the specific language governing permissions and limitations
# under the License.
"""
Neutron base exception handling.
"""
import sys
from oslo_utils import excutils
import six
from neutron_lib import exceptions as e
from neutron._i18n import _
from neutron.common import _deprecate
class NeutronException(Exception):
"""Base Neutron Exception.
To correctly use this class, inherit from it and define
a 'message' property. That message will get printf'd
with the keyword arguments provided to the constructor.
"""
message = _("An unknown exception occurred.")
def __init__(self, **kwargs):
try:
super(NeutronException, self).__init__(self.message % kwargs)
self.msg = self.message % kwargs
except Exception:
with excutils.save_and_reraise_exception() as ctxt:
if not self.use_fatal_exceptions():
ctxt.reraise = False
# at least get the core message out if something happened
super(NeutronException, self).__init__(self.message)
if six.PY2:
def __unicode__(self):
return unicode(self.msg)
def __str__(self):
return self.msg
def use_fatal_exceptions(self):
return False
class BadRequest(NeutronException):
message = _('Bad %(resource)s request: %(msg)s.')
class NotFound(NeutronException):
pass
class Conflict(NeutronException):
pass
class NotAuthorized(NeutronException):
message = _("Not authorized.")
class ServiceUnavailable(NeutronException):
message = _("The service is unavailable.")
class AdminRequired(NotAuthorized):
message = _("User does not have admin privileges: %(reason)s.")
class ObjectNotFound(NotFound):
message = _("Object %(id)s not found.")
class NetworkNotFound(NotFound):
message = _("Network %(net_id)s could not be found.")
class SubnetNotFound(NotFound):
message = _("Subnet %(subnet_id)s could not be found.")
class SubnetPoolNotFound(NotFound):
class SubnetPoolNotFound(e.NotFound):
message = _("Subnet pool %(subnetpool_id)s could not be found.")
class PortNotFound(NotFound):
message = _("Port %(port_id)s could not be found.")
class QosPolicyNotFound(NotFound):
class QosPolicyNotFound(e.NotFound):
message = _("QoS policy %(policy_id)s could not be found.")
class QosRuleNotFound(NotFound):
class QosRuleNotFound(e.NotFound):
message = _("QoS rule %(rule_id)s for policy %(policy_id)s "
"could not be found.")
class PortNotFoundOnNetwork(NotFound):
message = _("Port %(port_id)s could not be found "
"on network %(net_id)s.")
class PortQosBindingNotFound(NotFound):
class PortQosBindingNotFound(e.NotFound):
message = _("QoS binding for port %(port_id)s and policy %(policy_id)s "
"could not be found.")
class NetworkQosBindingNotFound(NotFound):
class NetworkQosBindingNotFound(e.NotFound):
message = _("QoS binding for network %(net_id)s and policy %(policy_id)s "
"could not be found.")
class PolicyFileNotFound(NotFound):
class PolicyFileNotFound(e.NotFound):
message = _("Policy configuration policy.json could not be found.")
class PolicyInitError(NeutronException):
class PolicyInitError(e.NeutronException):
message = _("Failed to init policy %(policy)s because %(reason)s.")
class PolicyCheckError(NeutronException):
class PolicyCheckError(e.NeutronException):
message = _("Failed to check policy %(policy)s because %(reason)s.")
class StateInvalid(BadRequest):
class StateInvalid(e.BadRequest):
message = _("Unsupported port state: %(port_state)s.")
class InUse(NeutronException):
message = _("The resource is in use.")
class QosPolicyInUse(InUse):
class QosPolicyInUse(e.InUse):
message = _("QoS Policy %(policy_id)s is used by "
"%(object_type)s %(object_id)s.")
class NetworkInUse(InUse):
message = _("Unable to complete operation on network %(net_id)s. "
"There are one or more ports still in use on the network.")
class SubnetInUse(InUse):
message = _("Unable to complete operation on subnet %(subnet_id)s "
"%(reason)s.")
def __init__(self, **kwargs):
if 'reason' not in kwargs:
kwargs['reason'] = _("One or more ports have an IP allocation "
"from this subnet.")
super(SubnetInUse, self).__init__(**kwargs)
class SubnetPoolInUse(InUse):
message = _("Unable to complete operation on subnet pool "
"%(subnet_pool_id)s. %(reason)s.")
def __init__(self, **kwargs):
if 'reason' not in kwargs:
kwargs['reason'] = _("Two or more concurrent subnets allocated.")
super(SubnetPoolInUse, self).__init__(**kwargs)
class PortInUse(InUse):
message = _("Unable to complete operation on port %(port_id)s "
"for network %(net_id)s. Port already has an attached "
"device %(device_id)s.")
class ServicePortInUse(InUse):
message = _("Port %(port_id)s cannot be deleted directly via the "
"port API: %(reason)s.")
class DhcpPortInUse(InUse):
class DhcpPortInUse(e.InUse):
message = _("Port %(port_id)s is already acquired by another DHCP agent")
class PortBound(InUse):
message = _("Unable to complete operation on port %(port_id)s, "
"port is already bound, port type: %(vif_type)s, "
"old_mac %(old_mac)s, new_mac %(new_mac)s.")
class MacAddressInUse(InUse):
message = _("Unable to complete operation for network %(net_id)s. "
"The mac address %(mac)s is in use.")
class HostRoutesExhausted(BadRequest):
class HostRoutesExhausted(e.BadRequest):
# NOTE(xchenum): probably make sense to use quota exceeded exception?
message = _("Unable to complete operation for %(subnet_id)s. "
"The number of host routes exceeds the limit %(quota)s.")
class DNSNameServersExhausted(BadRequest):
class DNSNameServersExhausted(e.BadRequest):
# NOTE(xchenum): probably make sense to use quota exceeded exception?
message = _("Unable to complete operation for %(subnet_id)s. "
"The number of DNS nameservers exceeds the limit %(quota)s.")
class InvalidIpForNetwork(BadRequest):
class InvalidIpForNetwork(e.BadRequest):
message = _("IP address %(ip_address)s is not a valid IP "
"for any of the subnets on the specified network.")
class InvalidIpForSubnet(BadRequest):
message = _("IP address %(ip_address)s is not a valid IP "
"for the specified subnet.")
class IpAddressInUse(InUse):
message = _("Unable to complete operation for network %(net_id)s. "
"The IP address %(ip_address)s is in use.")
class VlanIdInUse(InUse):
message = _("Unable to create the network. "
"The VLAN %(vlan_id)s on physical network "
"%(physical_network)s is in use.")
class FlatNetworkInUse(InUse):
class FlatNetworkInUse(e.InUse):
message = _("Unable to create the flat network. "
"Physical network %(physical_network)s is in use.")
class TunnelIdInUse(InUse):
message = _("Unable to create the network. "
"The tunnel ID %(tunnel_id)s is in use.")
class TenantNetworksDisabled(ServiceUnavailable):
class TenantNetworksDisabled(e.ServiceUnavailable):
message = _("Tenant network creation is not enabled.")
class ResourceExhausted(ServiceUnavailable):
pass
class NoNetworkAvailable(ResourceExhausted):
message = _("Unable to create the network. "
"No tenant network is available for allocation.")
class NoNetworkFoundInMaximumAllowedAttempts(ServiceUnavailable):
class NoNetworkFoundInMaximumAllowedAttempts(e.ServiceUnavailable):
message = _("Unable to create the network. "
"No available network found in maximum allowed attempts.")
class SubnetMismatchForPort(BadRequest):
message = _("Subnet on port %(port_id)s does not match "
"the requested subnet %(subnet_id)s.")
class MalformedRequestBody(BadRequest):
class MalformedRequestBody(e.BadRequest):
message = _("Malformed request body: %(reason)s.")
class Invalid(NeutronException):
def __init__(self, message=None):
self.message = message
super(Invalid, self).__init__()
class InvalidInput(BadRequest):
message = _("Invalid input for operation: %(error_message)s.")
class InvalidAllocationPool(BadRequest):
class InvalidAllocationPool(e.BadRequest):
message = _("The allocation pool %(pool)s is not valid.")
class UnsupportedPortDeviceOwner(Conflict):
class UnsupportedPortDeviceOwner(e.Conflict):
message = _("Operation %(op)s is not supported for device_owner "
"%(device_owner)s on port %(port_id)s.")
class OverlappingAllocationPools(Conflict):
class OverlappingAllocationPools(e.Conflict):
message = _("Found overlapping allocation pools: "
"%(pool_1)s %(pool_2)s for subnet %(subnet_cidr)s.")
class OutOfBoundsAllocationPool(BadRequest):
class OutOfBoundsAllocationPool(e.BadRequest):
message = _("The allocation pool %(pool)s spans "
"beyond the subnet cidr %(subnet_cidr)s.")
class MacAddressGenerationFailure(ServiceUnavailable):
class MacAddressGenerationFailure(e.ServiceUnavailable):
message = _("Unable to generate unique mac on network %(net_id)s.")
class IpAddressGenerationFailure(Conflict):
message = _("No more IP addresses available on network %(net_id)s.")
class BridgeDoesNotExist(NeutronException):
class BridgeDoesNotExist(e.NeutronException):
message = _("Bridge %(bridge)s does not exist.")
class PreexistingDeviceFailure(NeutronException):
message = _("Creation failed. %(dev_name)s already exists.")
class QuotaResourceUnknown(NotFound):
class QuotaResourceUnknown(e.NotFound):
message = _("Unknown quota resources %(unknown)s.")
class OverQuota(Conflict):
message = _("Quota exceeded for resources: %(overs)s.")
class QuotaMissingTenant(BadRequest):
class QuotaMissingTenant(e.BadRequest):
message = _("Tenant-id was missing from quota request.")
class InvalidQuotaValue(Conflict):
class InvalidQuotaValue(e.Conflict):
message = _("Change would make usage less than 0 for the following "
"resources: %(unders)s.")
class InvalidSharedSetting(Conflict):
class InvalidSharedSetting(e.Conflict):
message = _("Unable to reconfigure sharing settings for network "
"%(network)s. Multiple tenants are using it.")
class InvalidExtensionEnv(BadRequest):
class InvalidExtensionEnv(e.BadRequest):
message = _("Invalid extension environment: %(reason)s.")
class ExtensionsNotFound(NotFound):
class ExtensionsNotFound(e.NotFound):
message = _("Extensions not found: %(extensions)s.")
class InvalidContentType(NeutronException):
class InvalidContentType(e.NeutronException):
message = _("Invalid content type %(content_type)s.")
class ExternalIpAddressExhausted(BadRequest):
message = _("Unable to find any IP address on external "
"network %(net_id)s.")
class TooManyExternalNetworks(NeutronException):
message = _("More than one external network exists.")
class InvalidConfigurationOption(NeutronException):
message = _("An invalid value was provided for %(opt_name)s: "
"%(opt_value)s.")
class GatewayConflictWithAllocationPools(InUse):
class GatewayConflictWithAllocationPools(e.InUse):
message = _("Gateway ip %(ip_address)s conflicts with "
"allocation pool %(pool)s.")
class GatewayIpInUse(InUse):
class GatewayIpInUse(e.InUse):
message = _("Current gateway ip %(ip_address)s already in use "
"by port %(port_id)s. Unable to update.")
class NetworkVlanRangeError(NeutronException):
class NetworkVlanRangeError(e.NeutronException):
message = _("Invalid network VLAN range: '%(vlan_range)s' - '%(error)s'.")
def __init__(self, **kwargs):
@ -382,47 +181,36 @@ class NetworkVlanRangeError(NeutronException):
super(NetworkVlanRangeError, self).__init__(**kwargs)
class PhysicalNetworkNameError(NeutronException):
class PhysicalNetworkNameError(e.NeutronException):
message = _("Empty physical network name.")
class NetworkTunnelRangeError(NeutronException):
message = _("Invalid network tunnel range: "
"'%(tunnel_range)s' - %(error)s.")
def __init__(self, **kwargs):
# Convert tunnel_range tuple to 'start:end' format for display
if isinstance(kwargs['tunnel_range'], tuple):
kwargs['tunnel_range'] = "%d:%d" % kwargs['tunnel_range']
super(NetworkTunnelRangeError, self).__init__(**kwargs)
class NetworkVxlanPortRangeError(NeutronException):
class NetworkVxlanPortRangeError(e.NeutronException):
message = _("Invalid network VXLAN port range: '%(vxlan_range)s'.")
class VxlanNetworkUnsupported(NeutronException):
class VxlanNetworkUnsupported(e.NeutronException):
message = _("VXLAN network unsupported.")
class DuplicatedExtension(NeutronException):
class DuplicatedExtension(e.NeutronException):
message = _("Found duplicate extension: %(alias)s.")
class DeviceIDNotOwnedByTenant(Conflict):
class DeviceIDNotOwnedByTenant(e.Conflict):
message = _("The following device_id %(device_id)s is not owned by your "
"tenant or matches another tenants router.")
class InvalidCIDR(BadRequest):
class InvalidCIDR(e.BadRequest):
message = _("Invalid CIDR %(input)s given as IP prefix.")
class RouterNotCompatibleWithAgent(NeutronException):
class RouterNotCompatibleWithAgent(e.NeutronException):
message = _("Router '%(router_id)s' is not compatible with this agent.")
class DvrHaRouterNotSupported(NeutronException):
class DvrHaRouterNotSupported(e.NeutronException):
message = _("Router '%(router_id)s' cannot be both DVR and HA.")
@ -431,31 +219,31 @@ class FailToDropPrivilegesExit(SystemExit):
code = 99
class FloatingIpSetupException(NeutronException):
class FloatingIpSetupException(e.NeutronException):
def __init__(self, message=None):
self.message = message
super(FloatingIpSetupException, self).__init__()
class IpTablesApplyException(NeutronException):
class IpTablesApplyException(e.NeutronException):
def __init__(self, message=None):
self.message = message
super(IpTablesApplyException, self).__init__()
class NetworkIdOrRouterIdRequiredError(NeutronException):
class NetworkIdOrRouterIdRequiredError(e.NeutronException):
message = _('Both network_id and router_id are None. '
'One must be provided.')
class AbortSyncRouters(NeutronException):
class AbortSyncRouters(e.NeutronException):
message = _("Aborting periodic_sync_routers_task due to an error.")
# Shared *aas exceptions, pending them being refactored out of Neutron
# proper.
class FirewallInternalDriverError(NeutronException):
class FirewallInternalDriverError(e.NeutronException):
"""Fwaas exception for all driver errors.
On any failure or exception in the driver, driver should log it and
@ -464,87 +252,101 @@ class FirewallInternalDriverError(NeutronException):
message = _("%(driver)s: Internal driver error.")
class MissingMinSubnetPoolPrefix(BadRequest):
class MissingMinSubnetPoolPrefix(e.BadRequest):
message = _("Unspecified minimum subnet pool prefix.")
class EmptySubnetPoolPrefixList(BadRequest):
class EmptySubnetPoolPrefixList(e.BadRequest):
message = _("Empty subnet pool prefix list.")
class PrefixVersionMismatch(BadRequest):
class PrefixVersionMismatch(e.BadRequest):
message = _("Cannot mix IPv4 and IPv6 prefixes in a subnet pool.")
class UnsupportedMinSubnetPoolPrefix(BadRequest):
class UnsupportedMinSubnetPoolPrefix(e.BadRequest):
message = _("Prefix '%(prefix)s' not supported in IPv%(version)s pool.")
class IllegalSubnetPoolPrefixBounds(BadRequest):
class IllegalSubnetPoolPrefixBounds(e.BadRequest):
message = _("Illegal prefix bounds: %(prefix_type)s=%(prefixlen)s, "
"%(base_prefix_type)s=%(base_prefixlen)s.")
class IllegalSubnetPoolPrefixUpdate(BadRequest):
class IllegalSubnetPoolPrefixUpdate(e.BadRequest):
message = _("Illegal update to prefixes: %(msg)s.")
class SubnetAllocationError(NeutronException):
class SubnetAllocationError(e.NeutronException):
message = _("Failed to allocate subnet: %(reason)s.")
class AddressScopePrefixConflict(Conflict):
class AddressScopePrefixConflict(e.Conflict):
message = _("Failed to associate address scope: subnetpools "
"within an address scope must have unique prefixes.")
class IllegalSubnetPoolAssociationToAddressScope(BadRequest):
class IllegalSubnetPoolAssociationToAddressScope(e.BadRequest):
message = _("Illegal subnetpool association: subnetpool %(subnetpool_id)s "
"cannot be associated with address scope "
"%(address_scope_id)s.")
class IllegalSubnetPoolIpVersionAssociationToAddressScope(BadRequest):
class IllegalSubnetPoolIpVersionAssociationToAddressScope(e.BadRequest):
message = _("Illegal subnetpool association: subnetpool %(subnetpool_id)s "
"cannot associate with address scope %(address_scope_id)s "
"because subnetpool ip_version is not %(ip_version)s.")
class IllegalSubnetPoolUpdate(BadRequest):
class IllegalSubnetPoolUpdate(e.BadRequest):
message = _("Illegal subnetpool update : %(reason)s.")
class MinPrefixSubnetAllocationError(BadRequest):
class MinPrefixSubnetAllocationError(e.BadRequest):
message = _("Unable to allocate subnet with prefix length %(prefixlen)s, "
"minimum allowed prefix is %(min_prefixlen)s.")
class MaxPrefixSubnetAllocationError(BadRequest):
class MaxPrefixSubnetAllocationError(e.BadRequest):
message = _("Unable to allocate subnet with prefix length %(prefixlen)s, "
"maximum allowed prefix is %(max_prefixlen)s.")
class SubnetPoolDeleteError(BadRequest):
class SubnetPoolDeleteError(e.BadRequest):
message = _("Unable to delete subnet pool: %(reason)s.")
class SubnetPoolQuotaExceeded(OverQuota):
class SubnetPoolQuotaExceeded(e.OverQuota):
message = _("Per-tenant subnet pool prefix quota exceeded.")
class DeviceNotFoundError(NeutronException):
class DeviceNotFoundError(e.NeutronException):
message = _("Device '%(device_name)s' does not exist.")
class NetworkSubnetPoolAffinityError(BadRequest):
class NetworkSubnetPoolAffinityError(e.BadRequest):
message = _("Subnets hosted on the same network must be allocated from "
"the same subnet pool.")
class ObjectActionError(NeutronException):
class ObjectActionError(e.NeutronException):
message = _('Object action %(action)s failed because: %(reason)s.')
class CTZoneExhaustedError(NeutronException):
class CTZoneExhaustedError(e.NeutronException):
message = _("IPtables conntrack zones exhausted, iptables rules cannot "
"be applied.")
# Neutron-lib migration shim. This will wrap any exceptionss that are moved
# to that library in a deprecation warning, until they can be updated to
# import directly from their new location.
# If you're wondering why we bother saving _OLD_REF, it is because if we
# do not, then the original module we are overwriting gets garbage collected,
# and then you will find some super strange behavior with inherited classes
# and the like. Saving a ref keeps it around.
# WARNING: THESE MUST BE THE LAST TWO LINES IN THIS MODULE
_OLD_REF = sys.modules[__name__]
sys.modules[__name__] = _deprecate._DeprecateSubset(globals(), e)
# WARNING: THESE MUST BE THE LAST TWO LINES IN THIS MODULE

1
requirements.txt
View File

@ -16,6 +16,7 @@ requests!=2.9.0,>=2.8.1 # Apache-2.0
Jinja2>=2.8 # BSD License (3 clause)
keystonemiddleware!=4.1.0,>=4.0.0 # Apache-2.0
netaddr!=0.7.16,>=0.7.12 # BSD
neutron-lib>=0.0.1 # Apache-2.0
python-neutronclient>=2.6.0 # Apache-2.0
retrying!=1.3.0,>=1.2.3 # Apache-2.0
ryu!=3.29,>=3.23.2 # Apache-2.0