# 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. from collections import defaultdict import itertools import logging from django.utils.translation import ugettext_lazy as _ from horizon import exceptions from horizon.utils.memoized import memoized # noqa from openstack_dashboard.api import base from openstack_dashboard.api import cinder from openstack_dashboard.api import network from openstack_dashboard.api import neutron from openstack_dashboard.api import nova from openstack_dashboard import policy LOG = logging.getLogger(__name__) NOVA_QUOTA_FIELDS = ("metadata_items", "cores", "instances", "injected_files", "injected_file_content_bytes", "ram", "floating_ips", "fixed_ips", "security_groups", "security_group_rules",) MISSING_QUOTA_FIELDS = ("key_pairs", "injected_file_path_bytes",) CINDER_QUOTA_FIELDS = ("volumes", "snapshots", "gigabytes",) NEUTRON_QUOTA_FIELDS = ("network", "subnet", "port", "router", "floatingip", "security_group", "security_group_rule", ) QUOTA_FIELDS = NOVA_QUOTA_FIELDS + CINDER_QUOTA_FIELDS + NEUTRON_QUOTA_FIELDS QUOTA_NAMES = { "metadata_items": _('Metadata Items'), "cores": _('VCPUs'), "instances": _('Instances'), "injected_files": _('Injected Files'), "injected_file_content_bytes": _('Injected File Content Bytes'), "ram": _('RAM (MB)'), "floating_ips": _('Floating IPs'), "fixed_ips": _('Fixed IPs'), "security_groups": _('Security Groups'), "security_group_rules": _('Security Group Rules'), "key_pairs": _('Key Pairs'), "injected_file_path_bytes": _('Injected File Path Bytes'), "volumes": _('Volumes'), "snapshots": _('Volume Snapshots'), "gigabytes": _('Total Size of Volumes and Snapshots (GB)'), "network": _("Networks"), "subnet": _("Subnets"), "port": _("Ports"), "router": _("Routers"), "floatingip": _('Floating IPs'), "security_group": _("Security Groups"), "security_group_rule": _("Security Group Rules") } class QuotaUsage(dict): """Tracks quota limit, used, and available for a given set of quotas.""" def __init__(self): self.usages = defaultdict(dict) def __contains__(self, key): return key in self.usages def __getitem__(self, key): return self.usages[key] def __setitem__(self, key, value): raise NotImplementedError("Directly setting QuotaUsage values is not " "supported. Please use the add_quota and " "tally methods.") def __repr__(self): return repr(dict(self.usages)) def get(self, key, default=None): return self.usages.get(key, default) def add_quota(self, quota): """Adds an internal tracking reference for the given quota.""" if quota.limit is None or quota.limit == -1: # Handle "unlimited" quotas. self.usages[quota.name]['quota'] = float("inf") self.usages[quota.name]['available'] = float("inf") else: self.usages[quota.name]['quota'] = int(quota.limit) def tally(self, name, value): """Adds to the "used" metric for the given quota.""" value = value or 0 # Protection against None. # Start at 0 if this is the first value. if 'used' not in self.usages[name]: self.usages[name]['used'] = 0 # Increment our usage and update the "available" metric. self.usages[name]['used'] += int(value) # Fail if can't coerce to int. self.update_available(name) def update_available(self, name): """Updates the "available" metric for the given quota.""" available = self.usages[name]['quota'] - self.usages[name]['used'] if available < 0: available = 0 self.usages[name]['available'] = available def _get_quota_data(request, method_name, disabled_quotas=None, tenant_id=None): quotasets = [] if not tenant_id: tenant_id = request.user.tenant_id quotasets.append(getattr(nova, method_name)(request, tenant_id)) qs = base.QuotaSet() if disabled_quotas is None: disabled_quotas = get_disabled_quotas(request) if 'volumes' not in disabled_quotas: try: quotasets.append(getattr(cinder, method_name)(request, tenant_id)) except cinder.cinder_exception.ClientException: disabled_quotas.extend(CINDER_QUOTA_FIELDS) msg = _("Unable to retrieve volume limit information.") exceptions.handle(request, msg) for quota in itertools.chain(*quotasets): if quota.name not in disabled_quotas: qs[quota.name] = quota.limit return qs def get_default_quota_data(request, disabled_quotas=None, tenant_id=None): return _get_quota_data(request, "default_quota_get", disabled_quotas=disabled_quotas, tenant_id=tenant_id) def get_tenant_quota_data(request, disabled_quotas=None, tenant_id=None): qs = _get_quota_data(request, "tenant_quota_get", disabled_quotas=disabled_quotas, tenant_id=tenant_id) # TODO(jpichon): There is no API to get the default system quotas # in Neutron (cf. LP#1204956), so for now handle tenant quotas here. # This should be handled in _get_quota_data() eventually. if not disabled_quotas: return qs # Check if neutron is enabled by looking for network and router if 'network' and 'router' not in disabled_quotas: tenant_id = tenant_id or request.user.tenant_id neutron_quotas = neutron.tenant_quota_get(request, tenant_id) if 'floating_ips' in disabled_quotas: # Neutron with quota extension disabled if 'floatingip' in disabled_quotas: qs.add(base.QuotaSet({'floating_ips': -1})) # Neutron with quota extension enabled else: # Rename floatingip to floating_ips since that's how it's # expected in some places (e.g. Security & Access' Floating IPs) fips_quota = neutron_quotas.get('floatingip').limit qs.add(base.QuotaSet({'floating_ips': fips_quota})) if 'security_groups' in disabled_quotas: if 'security_group' in disabled_quotas: qs.add(base.QuotaSet({'security_groups': -1})) # Neutron with quota extension enabled else: # Rename security_group to security_groups since that's how it's # expected in some places (e.g. Security & Access' Security Groups) sec_quota = neutron_quotas.get('security_group').limit qs.add(base.QuotaSet({'security_groups': sec_quota})) if 'network' in disabled_quotas: for item in qs.items: if item.name == 'networks': qs.items.remove(item) break else: net_quota = neutron_quotas.get('network').limit qs.add(base.QuotaSet({'networks': net_quota})) if 'subnet' in disabled_quotas: for item in qs.items: if item.name == 'subnets': qs.items.remove(item) break else: net_quota = neutron_quotas.get('subnet').limit qs.add(base.QuotaSet({'subnets': net_quota})) if 'router' in disabled_quotas: for item in qs.items: if item.name == 'routers': qs.items.remove(item) break else: router_quota = neutron_quotas.get('router').limit qs.add(base.QuotaSet({'routers': router_quota})) return qs def get_disabled_quotas(request): disabled_quotas = [] # Cinder if not base.is_service_enabled(request, 'volume'): disabled_quotas.extend(CINDER_QUOTA_FIELDS) # Neutron if not base.is_service_enabled(request, 'network'): disabled_quotas.extend(NEUTRON_QUOTA_FIELDS) else: # Remove the nova network quotas disabled_quotas.extend(['floating_ips', 'fixed_ips']) if neutron.is_extension_supported(request, 'security-group'): # If Neutron security group is supported, disable Nova quotas disabled_quotas.extend(['security_groups', 'security_group_rules']) else: # If Nova security group is used, disable Neutron quotas disabled_quotas.extend(['security_group', 'security_group_rule']) try: if not neutron.is_quotas_extension_supported(request): disabled_quotas.extend(NEUTRON_QUOTA_FIELDS) except Exception: LOG.exception("There was an error checking if the Neutron " "quotas extension is enabled.") return disabled_quotas def _get_tenant_compute_usages(request, usages, disabled_quotas, tenant_id): if tenant_id: # determine if the user has permission to view across projects # there are cases where an administrator wants to check the quotas # on a project they are not scoped to all_tenants = policy.check((("compute", "compute:get_all_tenants"),), request) instances, has_more = nova.server_list( request, search_opts={'tenant_id': tenant_id}, all_tenants=all_tenants) else: instances, has_more = nova.server_list(request) # Fetch deleted flavors if necessary. flavors = dict([(f.id, f) for f in nova.flavor_list(request)]) missing_flavors = [instance.flavor['id'] for instance in instances if instance.flavor['id'] not in flavors] for missing in missing_flavors: if missing not in flavors: try: flavors[missing] = nova.flavor_get(request, missing) except Exception: flavors[missing] = {} exceptions.handle(request, ignore=True) usages.tally('instances', len(instances)) # Sum our usage based on the flavors of the instances. for flavor in [flavors[instance.flavor['id']] for instance in instances]: usages.tally('cores', getattr(flavor, 'vcpus', None)) usages.tally('ram', getattr(flavor, 'ram', None)) # Initialize the tally if no instances have been launched yet if len(instances) == 0: usages.tally('cores', 0) usages.tally('ram', 0) def _get_tenant_network_usages(request, usages, disabled_quotas, tenant_id): floating_ips = [] try: if network.floating_ip_supported(request): floating_ips = network.tenant_floating_ip_list(request) except Exception: pass usages.tally('floating_ips', len(floating_ips)) if 'security_group' not in disabled_quotas: security_groups = [] security_groups = network.security_group_list(request) usages.tally('security_groups', len(security_groups)) if 'network' not in disabled_quotas: networks = [] networks = neutron.network_list(request, shared=False) if tenant_id: networks = [net for net in networks if net.tenant_id == tenant_id] usages.tally('networks', len(networks)) # get shared networks shared_networks = neutron.network_list(request, shared=True) if tenant_id: shared_networks = [net for net in shared_networks if net.tenant_id == tenant_id] usages.tally('networks', len(shared_networks)) if 'subnet' not in disabled_quotas: subnets = [] subnets = neutron.subnet_list(request) usages.tally('subnets', len(subnets)) if 'router' not in disabled_quotas: routers = [] routers = neutron.router_list(request) if tenant_id: routers = [rou for rou in routers if rou.tenant_id == tenant_id] usages.tally('routers', len(routers)) def _get_tenant_volume_usages(request, usages, disabled_quotas, tenant_id): if 'volumes' not in disabled_quotas: try: if tenant_id: opts = {'all_tenants': 1, 'project_id': tenant_id} volumes = cinder.volume_list(request, opts) snapshots = cinder.volume_snapshot_list(request, opts) else: volumes = cinder.volume_list(request) snapshots = cinder.volume_snapshot_list(request) usages.tally('gigabytes', sum([int(v.size) for v in volumes])) usages.tally('volumes', len(volumes)) usages.tally('snapshots', len(snapshots)) except cinder.cinder_exception.ClientException: msg = _("Unable to retrieve volume limit information.") exceptions.handle(request, msg) @memoized def tenant_quota_usages(request, tenant_id=None): """Get our quotas and construct our usage object. If no tenant_id is provided, a the request.user.project_id is assumed to be used """ if not tenant_id: tenant_id = request.user.project_id disabled_quotas = get_disabled_quotas(request) usages = QuotaUsage() for quota in get_tenant_quota_data(request, disabled_quotas=disabled_quotas, tenant_id=tenant_id): usages.add_quota(quota) # Get our usages. _get_tenant_compute_usages(request, usages, disabled_quotas, tenant_id) _get_tenant_network_usages(request, usages, disabled_quotas, tenant_id) _get_tenant_volume_usages(request, usages, disabled_quotas, tenant_id) return usages def tenant_limit_usages(request): # TODO(licostan): This method shall be removed from Quota module. # ProjectUsage/BaseUsage maybe used instead on volume/image dashboards. limits = {} try: limits.update(nova.tenant_absolute_limits(request)) except Exception: msg = _("Unable to retrieve compute limit information.") exceptions.handle(request, msg) if base.is_service_enabled(request, 'volume'): try: limits.update(cinder.tenant_absolute_limits(request)) volumes = cinder.volume_list(request) snapshots = cinder.volume_snapshot_list(request) # gigabytesUsed should be a total of volumes and snapshots vol_size = sum([getattr(volume, 'size', 0) for volume in volumes]) snap_size = sum([getattr(snap, 'size', 0) for snap in snapshots]) limits['gigabytesUsed'] = vol_size + snap_size limits['volumesUsed'] = len(volumes) limits['snapshotsUsed'] = len(snapshots) except cinder.cinder_exception.ClientException: msg = _("Unable to retrieve volume limit information.") exceptions.handle(request, msg) return limits