f3c01e7528
unrestricted listing of meters can require significant memory. this patch implements mandatory limit on meter-list Change-Id: I8b38136c2493e75fbc7d9aef75aa055463a26319 Implements: blueprint mandatory-limit
753 lines
32 KiB
Python
753 lines
32 KiB
Python
#
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# Licensed under the Apache License, Version 2.0 (the "License"); you may
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# not use this file except in compliance with the License. You may obtain
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# 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, WITHOUT
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# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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# License for the specific language governing permissions and limitations
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# under the License.
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"""SQLAlchemy storage backend."""
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from __future__ import absolute_import
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import datetime
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import hashlib
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import os
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from oslo_config import cfg
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from oslo_db import api
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from oslo_db import exception as dbexc
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from oslo_db.sqlalchemy import session as db_session
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from oslo_log import log
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from oslo_serialization import jsonutils
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from oslo_utils import timeutils
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import six
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import sqlalchemy as sa
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from sqlalchemy import and_
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from sqlalchemy import distinct
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from sqlalchemy import func
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from sqlalchemy.orm import aliased
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import ceilometer
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from ceilometer.i18n import _
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from ceilometer import storage
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from ceilometer.storage import base
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from ceilometer.storage import models as api_models
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from ceilometer.storage.sqlalchemy import models
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from ceilometer.storage.sqlalchemy import utils as sql_utils
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from ceilometer import utils
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LOG = log.getLogger(__name__)
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STANDARD_AGGREGATES = dict(
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avg=func.avg(models.Sample.volume).label('avg'),
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sum=func.sum(models.Sample.volume).label('sum'),
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min=func.min(models.Sample.volume).label('min'),
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max=func.max(models.Sample.volume).label('max'),
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count=func.count(models.Sample.volume).label('count')
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)
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UNPARAMETERIZED_AGGREGATES = dict(
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stddev=func.stddev_pop(models.Sample.volume).label('stddev')
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)
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PARAMETERIZED_AGGREGATES = dict(
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validate=dict(
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cardinality=lambda p: p in ['resource_id', 'user_id', 'project_id']
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),
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compute=dict(
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cardinality=lambda p: func.count(
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distinct(getattr(models.Resource, p))
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).label('cardinality/%s' % p)
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)
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)
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AVAILABLE_CAPABILITIES = {
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'meters': {'query': {'simple': True,
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'metadata': True}},
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'resources': {'query': {'simple': True,
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'metadata': True}},
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'samples': {'query': {'simple': True,
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'metadata': True,
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'complex': True}},
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'statistics': {'groupby': True,
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'query': {'simple': True,
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'metadata': True},
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'aggregation': {'standard': True,
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'selectable': {
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'max': True,
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'min': True,
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'sum': True,
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'avg': True,
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'count': True,
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'stddev': True,
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'cardinality': True}}
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},
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}
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AVAILABLE_STORAGE_CAPABILITIES = {
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'storage': {'production_ready': True},
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}
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def apply_metaquery_filter(session, query, metaquery):
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"""Apply provided metaquery filter to existing query.
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:param session: session used for original query
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:param query: Query instance
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:param metaquery: dict with metadata to match on.
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"""
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for k, value in six.iteritems(metaquery):
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key = k[9:] # strip out 'metadata.' prefix
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try:
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_model = sql_utils.META_TYPE_MAP[type(value)]
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except KeyError:
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raise ceilometer.NotImplementedError(
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'Query on %(key)s is of %(value)s '
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'type and is not supported' %
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{"key": k, "value": type(value)})
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else:
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meta_alias = aliased(_model)
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on_clause = and_(models.Resource.internal_id == meta_alias.id,
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meta_alias.meta_key == key)
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# outer join is needed to support metaquery
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# with or operator on non existent metadata field
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# see: test_query_non_existing_metadata_with_result
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# test case.
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query = query.outerjoin(meta_alias, on_clause)
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query = query.filter(meta_alias.value == value)
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return query
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def make_query_from_filter(session, query, sample_filter, require_meter=True):
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"""Return a query dictionary based on the settings in the filter.
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:param session: session used for original query
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:param query: Query instance
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:param sample_filter: SampleFilter instance
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:param require_meter: If true and the filter does not have a meter,
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raise an error.
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"""
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if sample_filter.meter:
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query = query.filter(models.Meter.name == sample_filter.meter)
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elif require_meter:
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raise RuntimeError('Missing required meter specifier')
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if sample_filter.source:
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query = query.filter(
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models.Resource.source_id == sample_filter.source)
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if sample_filter.start_timestamp:
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ts_start = sample_filter.start_timestamp
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if sample_filter.start_timestamp_op == 'gt':
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query = query.filter(models.Sample.timestamp > ts_start)
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else:
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query = query.filter(models.Sample.timestamp >= ts_start)
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if sample_filter.end_timestamp:
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ts_end = sample_filter.end_timestamp
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if sample_filter.end_timestamp_op == 'le':
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query = query.filter(models.Sample.timestamp <= ts_end)
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else:
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query = query.filter(models.Sample.timestamp < ts_end)
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if sample_filter.user:
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query = query.filter(models.Resource.user_id == sample_filter.user)
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if sample_filter.project:
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query = query.filter(
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models.Resource.project_id == sample_filter.project)
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if sample_filter.resource:
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query = query.filter(
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models.Resource.resource_id == sample_filter.resource)
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if sample_filter.message_id:
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query = query.filter(
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models.Sample.message_id == sample_filter.message_id)
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if sample_filter.metaquery:
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query = apply_metaquery_filter(session, query,
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sample_filter.metaquery)
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return query
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class Connection(base.Connection):
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"""Put the data into a SQLAlchemy database.
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Tables::
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- meter
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- meter definition
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- { id: meter id
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name: meter name
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type: meter type
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unit: meter unit
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}
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- resource
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- resource definition
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- { internal_id: resource id
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resource_id: resource uuid
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user_id: user uuid
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project_id: project uuid
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source_id: source id
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resource_metadata: metadata dictionary
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metadata_hash: metadata dictionary hash
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}
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- sample
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- the raw incoming data
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- { id: sample id
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meter_id: meter id (->meter.id)
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resource_id: resource id (->resource.internal_id)
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volume: sample volume
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timestamp: datetime
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recorded_at: datetime
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message_signature: message signature
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message_id: message uuid
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}
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"""
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CAPABILITIES = utils.update_nested(base.Connection.CAPABILITIES,
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AVAILABLE_CAPABILITIES)
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STORAGE_CAPABILITIES = utils.update_nested(
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base.Connection.STORAGE_CAPABILITIES,
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AVAILABLE_STORAGE_CAPABILITIES,
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)
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def __init__(self, url):
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# Set max_retries to 0, since oslo.db in certain cases may attempt
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# to retry making the db connection retried max_retries ^ 2 times
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# in failure case and db reconnection has already been implemented
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# in storage.__init__.get_connection_from_config function
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options = dict(cfg.CONF.database.items())
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options['max_retries'] = 0
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self._engine_facade = db_session.EngineFacade(url, **options)
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def upgrade(self):
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# NOTE(gordc): to minimise memory, only import migration when needed
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from oslo_db.sqlalchemy import migration
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path = os.path.join(os.path.abspath(os.path.dirname(__file__)),
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'sqlalchemy', 'migrate_repo')
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migration.db_sync(self._engine_facade.get_engine(), path)
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def clear(self):
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engine = self._engine_facade.get_engine()
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for table in reversed(models.Base.metadata.sorted_tables):
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engine.execute(table.delete())
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engine.dispose()
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@staticmethod
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def _create_meter(conn, name, type, unit):
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# TODO(gordc): implement lru_cache to improve performance
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try:
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meter = models.Meter.__table__
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trans = conn.begin_nested()
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if conn.dialect.name == 'sqlite':
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trans = conn.begin()
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with trans:
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meter_row = conn.execute(
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sa.select([meter.c.id])
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.where(sa.and_(meter.c.name == name,
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meter.c.type == type,
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meter.c.unit == unit))).first()
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meter_id = meter_row[0] if meter_row else None
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if meter_id is None:
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result = conn.execute(meter.insert(), name=name,
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type=type, unit=unit)
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meter_id = result.inserted_primary_key[0]
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except dbexc.DBDuplicateEntry:
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# retry function to pick up duplicate committed object
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meter_id = Connection._create_meter(conn, name, type, unit)
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return meter_id
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@staticmethod
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def _create_resource(conn, res_id, user_id, project_id, source_id,
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rmeta):
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# TODO(gordc): implement lru_cache to improve performance
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try:
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res = models.Resource.__table__
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m_hash = jsonutils.dumps(rmeta, sort_keys=True)
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if six.PY3:
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m_hash = m_hash.encode('utf-8')
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m_hash = hashlib.md5(m_hash).hexdigest()
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trans = conn.begin_nested()
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if conn.dialect.name == 'sqlite':
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trans = conn.begin()
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with trans:
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res_row = conn.execute(
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sa.select([res.c.internal_id])
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.where(sa.and_(res.c.resource_id == res_id,
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res.c.user_id == user_id,
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res.c.project_id == project_id,
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res.c.source_id == source_id,
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res.c.metadata_hash == m_hash))).first()
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internal_id = res_row[0] if res_row else None
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if internal_id is None:
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result = conn.execute(res.insert(), resource_id=res_id,
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user_id=user_id,
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project_id=project_id,
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source_id=source_id,
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resource_metadata=rmeta,
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metadata_hash=m_hash)
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internal_id = result.inserted_primary_key[0]
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if rmeta and isinstance(rmeta, dict):
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meta_map = {}
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for key, v in utils.dict_to_keyval(rmeta):
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try:
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_model = sql_utils.META_TYPE_MAP[type(v)]
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if meta_map.get(_model) is None:
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meta_map[_model] = []
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meta_map[_model].append(
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{'id': internal_id, 'meta_key': key,
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'value': v})
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except KeyError:
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LOG.warn(_("Unknown metadata type. Key (%s) "
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"will not be queryable."), key)
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for _model in meta_map.keys():
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conn.execute(_model.__table__.insert(),
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meta_map[_model])
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except dbexc.DBDuplicateEntry:
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# retry function to pick up duplicate committed object
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internal_id = Connection._create_resource(
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conn, res_id, user_id, project_id, source_id, rmeta)
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return internal_id
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@api.wrap_db_retry(retry_interval=cfg.CONF.database.retry_interval,
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max_retries=cfg.CONF.database.max_retries,
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retry_on_deadlock=True)
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def record_metering_data(self, data):
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"""Write the data to the backend storage system.
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:param data: a dictionary such as returned by
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ceilometer.meter.meter_message_from_counter
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"""
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engine = self._engine_facade.get_engine()
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with engine.begin() as conn:
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# Record the raw data for the sample.
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m_id = self._create_meter(conn,
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data['counter_name'],
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data['counter_type'],
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data['counter_unit'])
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res_id = self._create_resource(conn,
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data['resource_id'],
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data['user_id'],
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data['project_id'],
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data['source'],
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data['resource_metadata'])
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sample = models.Sample.__table__
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conn.execute(sample.insert(), meter_id=m_id,
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resource_id=res_id,
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timestamp=data['timestamp'],
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volume=data['counter_volume'],
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message_signature=data['message_signature'],
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message_id=data['message_id'])
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def clear_expired_metering_data(self, ttl):
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"""Clear expired data from the backend storage system.
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Clearing occurs according to the time-to-live.
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:param ttl: Number of seconds to keep records for.
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"""
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session = self._engine_facade.get_session()
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with session.begin():
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end = timeutils.utcnow() - datetime.timedelta(seconds=ttl)
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sample_q = (session.query(models.Sample)
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.filter(models.Sample.timestamp < end))
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rows = sample_q.delete()
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LOG.info(_("%d samples removed from database"), rows)
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if not cfg.CONF.sql_expire_samples_only:
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# remove Meter definitions with no matching samples
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(session.query(models.Meter)
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.filter(~models.Meter.samples.any())
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.delete(synchronize_session=False))
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# remove resources with no matching samples
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resource_q = (session.query(models.Resource.internal_id)
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.filter(~models.Resource.samples.any()))
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resource_subq = resource_q.subquery()
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# remove metadata of cleaned resources
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for table in [models.MetaText, models.MetaBigInt,
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models.MetaFloat, models.MetaBool]:
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(session.query(table)
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.filter(table.id.in_(resource_subq))
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.delete(synchronize_session=False))
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resource_q.delete(synchronize_session=False)
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LOG.info(_("Expired residual resource and"
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" meter definition data"))
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def get_resources(self, user=None, project=None, source=None,
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start_timestamp=None, start_timestamp_op=None,
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end_timestamp=None, end_timestamp_op=None,
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metaquery=None, resource=None, limit=None):
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"""Return an iterable of api_models.Resource instances
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:param user: Optional ID for user that owns the resource.
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:param project: Optional ID for project that owns the resource.
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:param source: Optional source filter.
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:param start_timestamp: Optional modified timestamp start range.
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:param start_timestamp_op: Optional start time operator, like gt, ge.
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:param end_timestamp: Optional modified timestamp end range.
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:param end_timestamp_op: Optional end time operator, like lt, le.
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:param metaquery: Optional dict with metadata to match on.
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:param resource: Optional resource filter.
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:param limit: Maximum number of results to return.
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"""
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if limit == 0:
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return
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s_filter = storage.SampleFilter(user=user,
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project=project,
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source=source,
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start_timestamp=start_timestamp,
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start_timestamp_op=start_timestamp_op,
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end_timestamp=end_timestamp,
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end_timestamp_op=end_timestamp_op,
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metaquery=metaquery,
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resource=resource)
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session = self._engine_facade.get_session()
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# get list of resource_ids
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res_q = session.query(distinct(models.Resource.resource_id)).join(
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models.Sample,
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models.Sample.resource_id == models.Resource.internal_id)
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res_q = make_query_from_filter(session, res_q, s_filter,
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require_meter=False)
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res_q = res_q.limit(limit) if limit else res_q
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for res_id in res_q.all():
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# get max and min sample timestamp value
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min_max_q = (session.query(func.max(models.Sample.timestamp)
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.label('max_timestamp'),
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func.min(models.Sample.timestamp)
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.label('min_timestamp'))
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.join(models.Resource,
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models.Resource.internal_id ==
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models.Sample.resource_id)
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.filter(models.Resource.resource_id ==
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res_id[0]))
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min_max_q = make_query_from_filter(session, min_max_q, s_filter,
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require_meter=False)
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min_max = min_max_q.first()
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# get resource details for latest sample
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res_q = (session.query(models.Resource.resource_id,
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models.Resource.user_id,
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models.Resource.project_id,
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models.Resource.source_id,
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models.Resource.resource_metadata)
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.join(models.Sample,
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models.Sample.resource_id ==
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models.Resource.internal_id)
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.filter(models.Sample.timestamp ==
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min_max.max_timestamp)
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.filter(models.Resource.resource_id ==
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res_id[0])
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.order_by(models.Sample.id.desc()).limit(1))
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res = res_q.first()
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yield api_models.Resource(
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resource_id=res.resource_id,
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project_id=res.project_id,
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first_sample_timestamp=min_max.min_timestamp,
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last_sample_timestamp=min_max.max_timestamp,
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source=res.source_id,
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user_id=res.user_id,
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metadata=res.resource_metadata
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)
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def get_meters(self, user=None, project=None, resource=None, source=None,
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metaquery=None, limit=None):
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"""Return an iterable of api_models.Meter instances
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:param user: Optional ID for user that owns the resource.
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:param project: Optional ID for project that owns the resource.
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:param resource: Optional ID of the resource.
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:param source: Optional source filter.
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:param metaquery: Optional dict with metadata to match on.
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:param limit: Maximum number of results to return.
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"""
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if limit == 0:
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return
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s_filter = storage.SampleFilter(user=user,
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project=project,
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source=source,
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metaquery=metaquery,
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resource=resource)
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# NOTE(gordc): get latest sample of each meter/resource. we do not
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# filter here as we want to filter only on latest record.
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session = self._engine_facade.get_session()
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subq = session.query(func.max(models.Sample.id).label('id')).join(
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models.Resource,
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models.Resource.internal_id == models.Sample.resource_id).group_by(
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models.Sample.meter_id, models.Resource.resource_id)
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if resource:
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subq = subq.filter(models.Resource.resource_id == resource)
|
|
subq = subq.subquery()
|
|
|
|
# get meter details for samples.
|
|
query_sample = (session.query(models.Sample.meter_id,
|
|
models.Meter.name, models.Meter.type,
|
|
models.Meter.unit,
|
|
models.Resource.resource_id,
|
|
models.Resource.project_id,
|
|
models.Resource.source_id,
|
|
models.Resource.user_id).join(
|
|
subq, subq.c.id == models.Sample.id)
|
|
.join(models.Meter, models.Meter.id == models.Sample.meter_id)
|
|
.join(models.Resource,
|
|
models.Resource.internal_id == models.Sample.resource_id))
|
|
query_sample = make_query_from_filter(session, query_sample, s_filter,
|
|
require_meter=False)
|
|
|
|
query_sample = query_sample.limit(limit) if limit else query_sample
|
|
for row in query_sample.all():
|
|
yield api_models.Meter(
|
|
name=row.name,
|
|
type=row.type,
|
|
unit=row.unit,
|
|
resource_id=row.resource_id,
|
|
project_id=row.project_id,
|
|
source=row.source_id,
|
|
user_id=row.user_id)
|
|
|
|
@staticmethod
|
|
def _retrieve_samples(query):
|
|
samples = query.all()
|
|
|
|
for s in samples:
|
|
# Remove the id generated by the database when
|
|
# the sample was inserted. It is an implementation
|
|
# detail that should not leak outside of the driver.
|
|
yield api_models.Sample(
|
|
source=s.source_id,
|
|
counter_name=s.counter_name,
|
|
counter_type=s.counter_type,
|
|
counter_unit=s.counter_unit,
|
|
counter_volume=s.counter_volume,
|
|
user_id=s.user_id,
|
|
project_id=s.project_id,
|
|
resource_id=s.resource_id,
|
|
timestamp=s.timestamp,
|
|
recorded_at=s.recorded_at,
|
|
resource_metadata=s.resource_metadata,
|
|
message_id=s.message_id,
|
|
message_signature=s.message_signature,
|
|
)
|
|
|
|
def get_samples(self, sample_filter, limit=None):
|
|
"""Return an iterable of api_models.Samples.
|
|
|
|
:param sample_filter: Filter.
|
|
:param limit: Maximum number of results to return.
|
|
"""
|
|
if limit == 0:
|
|
return []
|
|
|
|
session = self._engine_facade.get_session()
|
|
query = session.query(models.Sample.timestamp,
|
|
models.Sample.recorded_at,
|
|
models.Sample.message_id,
|
|
models.Sample.message_signature,
|
|
models.Sample.volume.label('counter_volume'),
|
|
models.Meter.name.label('counter_name'),
|
|
models.Meter.type.label('counter_type'),
|
|
models.Meter.unit.label('counter_unit'),
|
|
models.Resource.source_id,
|
|
models.Resource.user_id,
|
|
models.Resource.project_id,
|
|
models.Resource.resource_metadata,
|
|
models.Resource.resource_id).join(
|
|
models.Meter, models.Meter.id == models.Sample.meter_id).join(
|
|
models.Resource,
|
|
models.Resource.internal_id == models.Sample.resource_id).order_by(
|
|
models.Sample.timestamp.desc())
|
|
query = make_query_from_filter(session, query, sample_filter,
|
|
require_meter=False)
|
|
if limit:
|
|
query = query.limit(limit)
|
|
return self._retrieve_samples(query)
|
|
|
|
def query_samples(self, filter_expr=None, orderby=None, limit=None):
|
|
if limit == 0:
|
|
return []
|
|
|
|
session = self._engine_facade.get_session()
|
|
engine = self._engine_facade.get_engine()
|
|
query = session.query(models.FullSample)
|
|
transformer = sql_utils.QueryTransformer(models.FullSample, query,
|
|
dialect=engine.dialect.name)
|
|
if filter_expr is not None:
|
|
transformer.apply_filter(filter_expr)
|
|
|
|
transformer.apply_options(orderby, limit)
|
|
return self._retrieve_samples(transformer.get_query())
|
|
|
|
@staticmethod
|
|
def _get_aggregate_functions(aggregate):
|
|
if not aggregate:
|
|
return [f for f in STANDARD_AGGREGATES.values()]
|
|
|
|
functions = []
|
|
|
|
for a in aggregate:
|
|
if a.func in STANDARD_AGGREGATES:
|
|
functions.append(STANDARD_AGGREGATES[a.func])
|
|
elif a.func in UNPARAMETERIZED_AGGREGATES:
|
|
functions.append(UNPARAMETERIZED_AGGREGATES[a.func])
|
|
elif a.func in PARAMETERIZED_AGGREGATES['compute']:
|
|
validate = PARAMETERIZED_AGGREGATES['validate'].get(a.func)
|
|
if not (validate and validate(a.param)):
|
|
raise storage.StorageBadAggregate('Bad aggregate: %s.%s'
|
|
% (a.func, a.param))
|
|
compute = PARAMETERIZED_AGGREGATES['compute'][a.func]
|
|
functions.append(compute(a.param))
|
|
else:
|
|
raise ceilometer.NotImplementedError(
|
|
'Selectable aggregate function %s'
|
|
' is not supported' % a.func)
|
|
|
|
return functions
|
|
|
|
def _make_stats_query(self, sample_filter, groupby, aggregate):
|
|
|
|
select = [
|
|
func.min(models.Sample.timestamp).label('tsmin'),
|
|
func.max(models.Sample.timestamp).label('tsmax'),
|
|
models.Meter.unit
|
|
]
|
|
select.extend(self._get_aggregate_functions(aggregate))
|
|
|
|
session = self._engine_facade.get_session()
|
|
|
|
if groupby:
|
|
group_attributes = []
|
|
for g in groupby:
|
|
if g != 'resource_metadata.instance_type':
|
|
group_attributes.append(getattr(models.Resource, g))
|
|
else:
|
|
group_attributes.append(
|
|
getattr(models.MetaText, 'value')
|
|
.label('resource_metadata.instance_type'))
|
|
|
|
select.extend(group_attributes)
|
|
|
|
query = (
|
|
session.query(*select)
|
|
.join(models.Meter,
|
|
models.Meter.id == models.Sample.meter_id)
|
|
.join(models.Resource,
|
|
models.Resource.internal_id == models.Sample.resource_id)
|
|
.group_by(models.Meter.unit))
|
|
|
|
if groupby:
|
|
for g in groupby:
|
|
if g == 'resource_metadata.instance_type':
|
|
query = query.join(
|
|
models.MetaText,
|
|
models.Resource.internal_id == models.MetaText.id)
|
|
query = query.filter(
|
|
models.MetaText.meta_key == 'instance_type')
|
|
query = query.group_by(*group_attributes)
|
|
|
|
return make_query_from_filter(session, query, sample_filter)
|
|
|
|
@staticmethod
|
|
def _stats_result_aggregates(result, aggregate):
|
|
stats_args = {}
|
|
if isinstance(result.count, six.integer_types):
|
|
stats_args['count'] = result.count
|
|
for attr in ['min', 'max', 'sum', 'avg']:
|
|
if hasattr(result, attr):
|
|
stats_args[attr] = getattr(result, attr)
|
|
if aggregate:
|
|
stats_args['aggregate'] = {}
|
|
for a in aggregate:
|
|
key = '%s%s' % (a.func, '/%s' % a.param if a.param else '')
|
|
stats_args['aggregate'][key] = getattr(result, key)
|
|
return stats_args
|
|
|
|
@staticmethod
|
|
def _stats_result_to_model(result, period, period_start,
|
|
period_end, groupby, aggregate):
|
|
stats_args = Connection._stats_result_aggregates(result, aggregate)
|
|
stats_args['unit'] = result.unit
|
|
duration = (timeutils.delta_seconds(result.tsmin, result.tsmax)
|
|
if result.tsmin is not None and result.tsmax is not None
|
|
else None)
|
|
stats_args['duration'] = duration
|
|
stats_args['duration_start'] = result.tsmin
|
|
stats_args['duration_end'] = result.tsmax
|
|
stats_args['period'] = period
|
|
stats_args['period_start'] = period_start
|
|
stats_args['period_end'] = period_end
|
|
stats_args['groupby'] = (dict(
|
|
(g, getattr(result, g)) for g in groupby) if groupby else None)
|
|
return api_models.Statistics(**stats_args)
|
|
|
|
def get_meter_statistics(self, sample_filter, period=None, groupby=None,
|
|
aggregate=None):
|
|
"""Return an iterable of api_models.Statistics instances.
|
|
|
|
Items are containing meter statistics described by the query
|
|
parameters. The filter must have a meter value set.
|
|
"""
|
|
if groupby:
|
|
for group in groupby:
|
|
if group not in ['user_id', 'project_id', 'resource_id',
|
|
'resource_metadata.instance_type']:
|
|
raise ceilometer.NotImplementedError('Unable to group by '
|
|
'these fields')
|
|
|
|
if not period:
|
|
for res in self._make_stats_query(sample_filter,
|
|
groupby,
|
|
aggregate):
|
|
if res.count:
|
|
yield self._stats_result_to_model(res, 0,
|
|
res.tsmin, res.tsmax,
|
|
groupby,
|
|
aggregate)
|
|
return
|
|
|
|
if not (sample_filter.start_timestamp and sample_filter.end_timestamp):
|
|
res = self._make_stats_query(sample_filter,
|
|
None,
|
|
aggregate).first()
|
|
if not res:
|
|
# NOTE(liusheng):The 'res' may be NoneType, because no
|
|
# sample has found with sample filter(s).
|
|
return
|
|
|
|
query = self._make_stats_query(sample_filter, groupby, aggregate)
|
|
# HACK(jd) This is an awful method to compute stats by period, but
|
|
# since we're trying to be SQL agnostic we have to write portable
|
|
# code, so here it is, admire! We're going to do one request to get
|
|
# stats by period. We would like to use GROUP BY, but there's no
|
|
# portable way to manipulate timestamp in SQL, so we can't.
|
|
for period_start, period_end in base.iter_period(
|
|
sample_filter.start_timestamp or res.tsmin,
|
|
sample_filter.end_timestamp or res.tsmax,
|
|
period):
|
|
q = query.filter(models.Sample.timestamp >= period_start)
|
|
q = q.filter(models.Sample.timestamp < period_end)
|
|
for r in q.all():
|
|
if r.count:
|
|
yield self._stats_result_to_model(
|
|
result=r,
|
|
period=int(timeutils.delta_seconds(period_start,
|
|
period_end)),
|
|
period_start=period_start,
|
|
period_end=period_end,
|
|
groupby=groupby,
|
|
aggregate=aggregate
|
|
)
|