Source code for ceilometer.storage.base

#
# Copyright 2012 New Dream Network, LLC (DreamHost)
#
# 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.
"""Base classes for storage engines
"""

import datetime
import inspect
import math

from oslo_utils import timeutils
import six
from six import moves

import ceilometer


def iter_period(start, end, period):
    """Split a time from start to end in periods of a number of seconds.

    This function yields the (start, end) time for each period composing the
    time passed as argument.

    :param start: When the period set start.
    :param end: When the period end starts.
    :param period: The duration of the period.
    """
    period_start = start
    increment = datetime.timedelta(seconds=period)
    for i in moves.xrange(int(math.ceil(
            timeutils.delta_seconds(start, end)
            / float(period)))):
        next_start = period_start + increment
        yield (period_start, next_start)
        period_start = next_start


def _handle_sort_key(model_name, sort_key=None):
    """Generate sort keys according to the passed in sort key from user.

    :param model_name: Database model name be query.(meter, etc.)
    :param sort_key: sort key passed from user.
    return: sort keys list
    """
    sort_keys_extra = {'meter': ['user_id', 'project_id'],
                       'resource': ['user_id', 'project_id', 'timestamp'],
                       }

    sort_keys = sort_keys_extra[model_name]
    if not sort_key:
        return sort_keys
    # NOTE(Fengqian): We need to put the sort key from user
    # in the first place of sort keys list.
    try:
        sort_keys.remove(sort_key)
    except ValueError:
        pass
    finally:
        sort_keys.insert(0, sort_key)
    return sort_keys


[docs]class Model(object): """Base class for storage API models.""" def __init__(self, **kwds): self.fields = list(kwds) for k, v in six.iteritems(kwds): setattr(self, k, v)
[docs] def as_dict(self): d = {} for f in self.fields: v = getattr(self, f) if isinstance(v, Model): v = v.as_dict() elif isinstance(v, list) and v and isinstance(v[0], Model): v = [sub.as_dict() for sub in v] d[f] = v return d
def __eq__(self, other): return self.as_dict() == other.as_dict() def __ne__(self, other): return not self.__eq__(other) @classmethod
[docs] def get_field_names(cls): fields = inspect.getargspec(cls.__init__)[0] return set(fields) - set(["self"])
[docs]class Connection(object): """Base class for storage system connections.""" # A dictionary representing the capabilities of this driver. CAPABILITIES = { 'meters': {'query': {'simple': False, 'metadata': False}}, 'resources': {'query': {'simple': False, 'metadata': False}}, 'samples': {'query': {'simple': False, 'metadata': False, 'complex': False}}, 'statistics': {'groupby': False, 'query': {'simple': False, 'metadata': False}, 'aggregation': {'standard': False, 'selectable': { 'max': False, 'min': False, 'sum': False, 'avg': False, 'count': False, 'stddev': False, 'cardinality': False}} }, } STORAGE_CAPABILITIES = { 'storage': {'production_ready': False}, } def __init__(self, url): pass @staticmethod
[docs] def upgrade(): """Migrate the database to `version` or the most recent version."""
[docs] def record_metering_data_batch(self, samples): """Record the metering data in batch""" for s in samples: self.record_metering_data(s)
@staticmethod
[docs] def record_metering_data(data): """Write the data to the backend storage system. :param data: a dictionary such as returned by ceilometer.publisher.utils.meter_message_from_counter All timestamps must be naive utc datetime object. """ raise ceilometer.NotImplementedError( 'Recording metering data is not implemented')
@staticmethod
[docs] def clear_expired_metering_data(ttl): """Clear expired data from the backend storage system. Clearing occurs according to the time-to-live. :param ttl: Number of seconds to keep records for. """ raise ceilometer.NotImplementedError( 'Clearing samples not implemented')
@staticmethod
[docs] def get_resources(user=None, project=None, source=None, start_timestamp=None, start_timestamp_op=None, end_timestamp=None, end_timestamp_op=None, metaquery=None, resource=None, limit=None): """Return an iterable of models.Resource instances. Iterable items containing resource information. :param user: Optional ID for user that owns the resource. :param project: Optional ID for project that owns the resource. :param source: Optional source filter. :param start_timestamp: Optional modified timestamp start range. :param start_timestamp_op: Optional timestamp start range operation. :param end_timestamp: Optional modified timestamp end range. :param end_timestamp_op: Optional timestamp end range operation. :param metaquery: Optional dict with metadata to match on. :param resource: Optional resource filter. :param limit: Maximum number of results to return. """ raise ceilometer.NotImplementedError('Resources not implemented')
@staticmethod
[docs] def get_meters(user=None, project=None, resource=None, source=None, metaquery=None, limit=None, unique=False): """Return an iterable of model.Meter instances. Iterable items containing meter information. :param user: Optional ID for user that owns the resource. :param project: Optional ID for project that owns the resource. :param resource: Optional resource filter. :param source: Optional source filter. :param metaquery: Optional dict with metadata to match on. :param limit: Maximum number of results to return. :param unique: If set to true, return only unique meter information. """ raise ceilometer.NotImplementedError('Meters not implemented')
@staticmethod
[docs] def get_samples(sample_filter, limit=None): """Return an iterable of model.Sample instances. :param sample_filter: Filter. :param limit: Maximum number of results to return. """ raise ceilometer.NotImplementedError('Samples not implemented')
@staticmethod
[docs] def get_meter_statistics(sample_filter, period=None, groupby=None, aggregate=None): """Return an iterable of model.Statistics instances. The filter must have a meter value set. """ raise ceilometer.NotImplementedError('Statistics not implemented')
@staticmethod
[docs] def clear(): """Clear database."""
@staticmethod
[docs] def query_samples(filter_expr=None, orderby=None, limit=None): """Return an iterable of model.Sample objects. :param filter_expr: Filter expression for query. :param orderby: List of field name and direction pairs for order by. :param limit: Maximum number of results to return. """ raise ceilometer.NotImplementedError('Complex query for samples ' 'is not implemented.')
@classmethod
[docs] def get_capabilities(cls): """Return an dictionary with the capabilities of each driver.""" return cls.CAPABILITIES
@classmethod
[docs] def get_storage_capabilities(cls): """Return a dictionary representing the performance capabilities. This is needed to evaluate the performance of each driver. """ return cls.STORAGE_CAPABILITIES

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