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# coding=utf-8
#
# Copyright © Cloud Linux GmbH & Cloud Linux Software, Inc 2010-2019 All Rights Reserved
#
# Licensed under CLOUD LINUX LICENSE AGREEMENT
# http://cloudlinux.com/docs/LICENSE.TXT
# pylint: disable=too-many-lines
import copy
import datetime
import logging
import pwd
import time
import warnings
from sqlalchemy import Float, Integer, text
from sqlalchemy import exc as sa_exc
from sqlalchemy.sql import and_, asc, desc, label, not_, or_, select
from sqlalchemy.sql.expression import ColumnElement, alias, case, cast, func
from lvestats.core.plugin import LveStatsPluginTerminated
from lvestats.lib.commons.dateutil import (
gm_datetime_to_unixtimestamp,
gm_to_local,
local_to_gm,
round_1m,
str_to_timedelta,
unixtimestamp_to_gm_datetime,
)
from lvestats.lib.commons.func import (
get_current_max_lve_id,
skip_user_by_maxuid,
)
from lvestats.lib.commons.sizeutil import convert_bytes, convert_powers_of_1000, mempages_to_bytes
from lvestats.lib.config import (
HIDE_MAX_UID_LVE_PARAMETER,
read_config,
str_to_bool,
)
from lvestats.orm import LVE_STATS_2_TABLENAME_PREFIX, history, history_x60, servers
__all__ = ('HistoryShow', 'HistoryShowUnion', 'OutputFormatter', 'get_lve_version')
def get_lve_version(dbengine, server_id):
sql_query_lve_version = select([servers.lve_version]).where(servers.server_id == server_id)
with dbengine.begin() as transaction_:
cursor_ = transaction_.execute(sql_query_lve_version)
if cursor_.returns_rows:
res = cursor_.fetchone()
if res is None:
return 6
else:
return int(res['lve_version'])
else:
return 6
def servers_info(dbengine):
sql_query_lve_version = select([servers.server_id, servers.lve_version])
return dbengine.execute(sql_query_lve_version)
def convert_key_to_label(key_):
return str.lower(key_)
def add_labes_to_column(func_dict):
"""
Add label (on SQL add ".. as ..") to aggregate_func_dict
key of dict convert to lowercase and add as label
:param dict func_dict:
:return dict:
"""
func_dict_labeled = {}
for key_, sqlalchemy_func in list(func_dict.items()):
if issubclass(sqlalchemy_func.__class__, ColumnElement):
func_labeled = label(convert_key_to_label(key_), sqlalchemy_func)
else:
func_labeled = sqlalchemy_func
func_dict_labeled[key_] = func_labeled
return func_dict_labeled
def convert_to_list(arg):
if isinstance(arg, (str, int)):
return [arg]
return arg
class OutputFormatter(object):
def __init__(self, fields, rows=None, orders=None):
self.rows = rows or []
self.fields = list(fields)
self._fields_lowered = [_.lower() for _ in fields] # self.fields use for output
self._orders = []
self._hidden_fields = set() # self._fields indexes list fields to hide
if orders:
for field, order in orders:
self.add_order(field, order)
def get_fields(self):
if self._hidden_fields:
return [f_ for f_ in self.fields if f_ not in self._hidden_fields]
else:
return self.fields
def set_rows(self, rows):
"""
Use this method if you used hide_fields
number items in row must bee same as in fields after hide
"""
self.rows = rows
def hide_fields(self, h_fields):
"""
:param tuple|list h_fields:
:return:
"""
self._hidden_fields = self._hidden_fields.union(set(h_fields))
def add_order(self, fields, order):
"""
:param list|tuples fields:
:param order: field to use to order result
:return:
"""
if isinstance(order, str):
try:
order = getattr(self, order)
except AttributeError as e:
raise ValueError(f'Non such {order} order') from e
if not hasattr(order, '__call__'):
raise ValueError(f'input object {order} must be callable')
self._orders.append(({_.lower() for _ in fields}, order))
def _convert_line(self, row_):
"""
:param iterable row_:
:return:
"""
row_ = list(row_)
row_out = []
for field_, r_ in zip(self._fields_lowered, row_):
if field_ in self._hidden_fields: # continue if field must be hide
continue
# use many orders to one cell
for order_fields, order in self._orders:
if field_ in order_fields:
try:
r_ = order(r_)
except (TypeError, ValueError, KeyError, IndexError):
pass
row_out.append(r_)
return row_out
def __iter__(self):
for row_ in self.rows:
yield self._convert_line(row_)
def __getitem__(self, index):
if isinstance(index, slice):
return list(map(self._convert_line, self.rows[index.start: index.stop]))
return self._convert_line(self.rows[index])
def __len__(self):
return len(self.rows)
def get_corrected_list(self):
return list(self)
# build-in orders
@staticmethod
def strftime(value, format_='%m-%d %H:%M'):
return value.strftime(format_)
@staticmethod
def percentage(value):
if value is None:
return '-'
try:
float(value)
except ValueError:
return value
return str(value * 100) + '%'
@staticmethod
def bytes(value):
if value is None:
return '-'
return convert_bytes(value)
@staticmethod
def powers_of_1000(value):
if value is None:
return '-'
return convert_powers_of_1000(value)
@staticmethod
def username(value):
try:
return pwd.getpwuid(int(value)).pw_name
except KeyError:
return value
@staticmethod
def datetime(value):
"""
Convert unix timestamp to datetime (local timezone)
"""
return datetime.datetime.fromtimestamp(value)
def enumerate_duplicate_columns(columns):
"""
Enumerate if columns name or functions are duplicated
Use for force add duplicate columns to select operator
:param list|tuple columns:
:return list|tuple: enumerated columns
"""
output = []
output_str = [] # for controlling columns count
for c_ in columns:
c_str = str(c_)
dubl_count = output_str.count(c_str)
if dubl_count >= 1: # check whether there is a duplicate; "c_ in columns" for sqlalchemy classes not work
# check if column is string or function and get column name
if isinstance(c_, str):
c_name = c_
else:
c_name = c_.name
# numbering duplicate columns
c_name += '_' + str(dubl_count + 1)
c_ = label(c_name, c_) # rename column
output.append(c_)
output_str.append(c_str)
return output
usage_to_limit_dict = {
'aCPU'.lower(): 'lCPU'.lower(),
'mCPU'.lower(): 'lCPU'.lower(),
'aVMem'.lower(): 'lVMem'.lower(),
'mVMem'.lower(): 'lVMem'.lower(),
'aEP'.lower(): 'lEP'.lower(),
'mEP'.lower(): 'lEP'.lower(),
'aPMem'.lower(): 'lPMem'.lower(),
'mPMem'.lower(): 'lPMem'.lower(),
'aNproc'.lower(): 'lNproc'.lower(),
'mNproc'.lower(): 'lNproc'.lower(),
'aIO'.lower(): 'lIO'.lower(),
'mIO'.lower(): 'lIO'.lower(),
'aIOPS'.lower(): 'lIOPS'.lower(),
'mIOPS'.lower(): 'lIOPS'.lower(),
}
FIELD_TO_TABLE_COLUMN = {
'ID': 'id',
'aCPU': 'cpu',
'aVMem': 'mem',
'aEP': 'mep',
'aPMem': 'memphy',
'aIO': 'io',
'aNproc': 'nproc',
'aIOPS': 'iops',
'lCPU': 'cpu_limit',
'lEP': 'mep_limit',
'lVMem': 'mem_limit',
'lPMem': 'lmemphy',
'lIO': 'io_limit',
'lNproc': 'lnproc',
'lIOPS': 'liops',
'VMemF': 'mem_fault',
'PMemF': 'memphy_fault',
'EPf': 'mep_fault',
'NprocF': 'nproc_fault',
'CPUf': 'cpu_fault',
'IOf': 'io_fault',
'IOPSf': 'iops_fault',
'uCPU': 'cpu',
'uEP': 'mep',
'uVMem': 'mem',
'uPMem': 'memphy',
'uIO': 'io',
'uNproc': 'nproc',
'uIOPS': 'iops',
'mCPU': 'cpu',
'mEP': 'mep',
'mVMem': 'mem',
'mPMem': 'memphy',
'mNproc': 'nproc',
'mIO': 'io',
'mIOPS': 'iops',
}
FIELD_AVERAGE = ['aCPU', 'aVMem', 'aPMem', 'aEP', 'aNproc', 'aIO', 'aIOPS']
FIELD_LIMIT = ['lCPU', 'lVMem', 'lPMem', 'lEP', 'lNproc', 'lIO', 'lIOPS']
FIELD_FAULT = ['CPUf', 'VMemF', 'PMemF', 'EPf', 'NprocF', 'IOf', 'IOPSf']
FIELD_USAGE = ['uCPU', 'uVMem', 'uPMem', 'uEP', 'uNproc', 'uIO', 'uIOPS']
FIELD_MAX = ['mCPU', 'mVMem', 'mPMem', 'mEP', 'mNproc', 'mIO', 'mIOPS']
KEYS_NORMALIZATION_LOOKUP_TABLE = {'FROM': 'From', 'TO': 'To', 'ANYF': 'anyF'}
for key in list(FIELD_TO_TABLE_COLUMN.keys()):
KEYS_NORMALIZATION_LOOKUP_TABLE[key.upper()] = key
def normalize_optional_column_names(names):
if names is None:
return None
return normalize_column_names(names)
def normalize_column_names(names):
result = []
for name in names:
result.append(normalize_column_name(name))
return result
def normalize_column_name(name):
if name:
return KEYS_NORMALIZATION_LOOKUP_TABLE[name.upper()]
return None
time_unit_orders = [
('10m', lambda dt: dt - datetime.timedelta(minutes=dt.minute % 10 + 10)),
('1h', lambda dt: dt.replace(minute=0) if dt.minute else dt - datetime.timedelta(hours=1)), # round to hour
('1d', lambda dt: dt.replace(hour=0, minute=0)), # round to day
]
def dyn_time_unit_groups(period_from, period_to):
period_groups = [round_1m(period_from), round_1m(period_to + datetime.timedelta(minutes=1))]
time_unit_list = ['1m']
_from_order_fun = round_1m
for time_unit, order_fun in time_unit_orders:
from_to_point = order_fun(period_groups[1])
if from_to_point - period_groups[0] >= str_to_timedelta(time_unit):
_from_order_fun = order_fun
period_groups.insert(1, from_to_point)
time_unit_list.append(time_unit)
period_groups[0] = _from_order_fun(period_groups[0])
# prepare to output as list of tuples
# (<From|datetime>, <To|datetime>, <time-unit|int>)
from_to_groups = []
for index, time_unit in enumerate(time_unit_list):
from_to_groups.append(
(period_groups[-index - 2], period_groups[-index - 1], int(str_to_timedelta(time_unit).total_seconds()))
)
return from_to_groups
class HistoryShow(object):
def __init__(
self,
dbengine,
period_from,
period_to,
uid=None,
show_columns=None,
server_id='localhost',
time_unit=None,
order_by=None,
by_usage=None,
by_usage_percentage=0.9,
by_fault=None,
threshold=1,
limit=0,
table=None,
log=None,
time_count=None,
show_idle=False,
):
"""
Show different statistics from history table
:param sqlalchemy.engine.base.Engine dbengine: database engine to use
:param datetime.datetime|float|int period_from: start time retrieve data
:param datetime.datetime|float|int period_to: end time retrieve data
:param int|None|list|tuple uid: filter the output information to the user uid
:param tuple|list show_columns: display columns in the order specified. If not, show all supported
valid column names: 'aCPU', 'lPMem', 'uIO', 'uEP', 'lEP', 'aVMem', 'PMemF', 'lVMem', 'NprocF', 'anyF',
'aNproc', 'VMemF', 'ID', 'lCPU', 'aIOPS', 'aEP', 'aPMem', 'uPMem', 'lIO', 'lIOPS', 'uCPU',
'lNproc', 'aIO', 'uIOPS', 'EPf', 'uVMem', 'uNproc'
:param str server_id: filtering the output for "server id"
:param int time_unit: grouping output over an interval of time (in seconds)
:param str|None order_by: sorting output by column name (supported by columns)
:param str|tuple|list by_usage: filtering are grouped data for the percentage of the use of resources
:param float by_usage_percentage: percent for the parameter setting 'by_usage'
:param tuple|list|None by_fault: filtering data are grouped for quantity faults
(None if it is not filtered)
valid names: 'aCPU', 'lPMem', 'uIO', 'uEP', 'lEP', 'aVMem', 'PMemF', 'lVMem', 'NprocF', 'anyF', 'aNproc',
'VMemF', 'ID', 'lCPU', 'aIOPS', 'aEP', 'aPMem', 'uPMem', 'lIO', 'lIOPS', 'uCPU', 'lNproc', 'aIO', 'uIOPS',
'EPf', 'uVMem', 'uNproc'
:param threshold: number faults for filtering the data are grouped
(used together with by_fault)
:param int|None limit: limit on the number of output data
(if 0 or None, then the limit is not set)
:return generator: returns a list/generator of data with the order set out
in the 'show_columns'
"""
self.dbengine = dbengine
self.uid = uid
self._is_multi_uids = not isinstance(uid, int)
if show_columns is None:
show_columns = get_supported_columns(lve_version=get_lve_version(dbengine=dbengine, server_id=server_id))
show_columns.insert(0, 'ID')
self.show_columns = normalize_column_names(show_columns)
self.server_id = server_id
self.time_unit = time_unit
self.by_fault = normalize_optional_column_names(by_fault)
if order_by:
self.order_by = normalize_column_name(order_by)
elif self.by_fault and normalize_column_name('anyF') in self.by_fault:
self.order_by = normalize_column_name('CPUf')
else:
self.order_by = self.by_fault and self.by_fault[0]
self.by_usage = normalize_optional_column_names(by_usage)
self.by_usage_percentage = by_usage_percentage
self.threshold = threshold
self.limit = limit
self.log = log or logging.getLogger('SQL')
self.table = table if table is not None else history.__table__ # "or" not supported in this
self._table_alive = alias(self.table, 'alive') # alias of main table to using in self join
self.period_from = (
period_from if isinstance(period_from, (int, float)) else gm_datetime_to_unixtimestamp(period_from)
)
self.period_to = period_to if isinstance(period_to, (int, float)) else gm_datetime_to_unixtimestamp(period_to)
self.time_count = time_count or self.get_time_count()
# correct cpu/100
# we still have to round it, as it seems <[27.333/100] = [0.27332999999999996] - who knows why :(
self.result_corrector = OutputFormatter(
fields=self.show_columns,
orders=[
[FIELD_MAX + FIELD_AVERAGE + FIELD_LIMIT + FIELD_USAGE, lambda x: round(x, 3)],
[['aCPU', 'lCPU', 'mCPU'], lambda item: round(float(item) / 100.0, 5)],
],
)
self.hide_maxuid_lve = str_to_bool(read_config().get(HIDE_MAX_UID_LVE_PARAMETER, 'true'))
def set_normalised_output(self):
# correct data obtained from database
# round EP IOPS Nproc output
self.result_corrector.add_order(
fields=['aEP', 'mEP', 'lEP', 'aNproc', 'mNproc', 'lNproc', 'aIOPS', 'mIOPS', 'lIOPS'],
order=lambda x: int(round(x)),
)
if self.dbengine.url.drivername != "sqlite":
self.result_corrector.add_order(
fields=[
'aVMem',
'mVMem',
'lVMem',
'aPMem',
'mPMem',
'lPMem',
'aIO',
'mIO',
'lIO',
'uCPU',
'uEP',
'uVMem',
'uPMem',
'uIO',
'uNproc',
'uIOPS',
],
order=float,
)
self.result_corrector.add_order(
fields=['EPf', 'VMemF', 'CPUf', 'PMemF', 'NprocF', 'IOf', 'IOPSf'], order=int
)
# convert Mem to bytes
self.result_corrector.add_order(
fields=['aVMem', 'mVMem', 'lVMem', 'aPMem', 'mPMem', 'lPMem'], order=mempages_to_bytes
)
def _where_time_period(self, table=None):
"""
Generate WHERE created BETWEEN xxxxxxxxx AND yyyyyyyy
:return:
"""
# filtering condition by time period
if table is None:
table = self.table
return table.c.created.between(self.period_from, self.period_to)
def _where_server_id(self):
"""
Generate WHERE server_id = 'server_name'
:return:
"""
return self.table.c.server_id == self.server_id
def _where_uid(self, uid=-1, table=None):
"""Generate WHERE id = 'user_uid'"""
if table is None:
table = self.table
if uid == -1:
uid = self.uid
if uid is None:
if self.hide_maxuid_lve:
# skip ids in range(MAX_UID, MAX_LVE_ID), because ids > MAX_LVE_ID may contain info
# about reseller`s limits
return and_(
table.c.id > 0, or_(not_(skip_user_by_maxuid(table.c.id)), table.c.id > get_current_max_lve_id())
)
return table.c.id > 0
elif isinstance(uid, (list, tuple)):
if self.dbengine.url.drivername == 'sqlite':
# little workaround for sqlite's limit of 999 variables
# let's compile query manually
return text(table.c.id.in_(list(uid)).expression.compile(compile_kwargs={"literal_binds": True}).string)
else:
# mysql or postgresql do not have such limit
return table.c.id.in_(list(uid))
else:
return table.c.id == uid
def get_time_count(self):
"""
SELECT count(*) FROM lve_stats2_history WHERE id = 0 AND created BETWEN xxxx AND yyyy server_id = 'localhost'
"""
where = and_(
history.created.between(self.period_from, self.period_to),
history.id == 0,
history.server_id == self.server_id,
)
query = select([text('count(*)')]).where(where)
time_start = time.time()
q = str(query.compile(compile_kwargs={"literal_binds": True})).replace('\n', ' ')
self.log.debug(q)
data = self.dbengine.execute(query)
self.log.debug('query time: %s', time.time() - time_start)
return data.fetchall()[0][0]
def _fun_avg(self, item):
"""
Generate aggregate function for calculate average
for example sum(lve_stats2_history.cpu) / 60
:param item:
:return:
"""
return cast(func.sum(item) / cast(self._fun_time_count(), Float), Float)
def _fun_limit(self, item):
"""
Generate aggregate function for calculate limit
if column_limit is zero its mean no limit
for example CASE WHEN (min(lve_stats2_history.cpu_limit) > 0) THEN max(lve_stats2_history.cpu_limit) ELSE 0 END
:param item:
:return:
"""
return case([(func.min(item) > 0, func.max(item))], else_=0)
def _fun_fault(self, item):
"""
Generate aggregate function for calculate fault
for example sum(lve_stats2_history.cpu_fault)
:param item:
:return:
"""
return func.sum(item)
def _fun_usage(self, item, item_limit):
"""
Generate aggregate function for calculate resource usage equivalent average/limit
for example
CASE
WHEN (
CASE
WHEN min(lve_stats2_history.cpu_limit) > 0 THEN max(lve_stats2_history.cpu_limit)
ELSE 0
END IS NULL
) THEN NULL
WHEN (
CASE
WHEN min(lve_stats2_history.cpu_limit) > 0 THEN max(lve_stats2_history.cpu_limit)
ELSE 0
END > 0
) THEN (
sum(lve_stats2_history.cpu) / 1422
) / CASE
WHEN min(lve_stats2_history.cpu_limit) > 0 THEN max(lve_stats2_history.cpu_limit)
ELSE 0
END
END
:param item:
:return:
"""
# noinspection PyComparisonWithNone
return case(
[
# Don't use "is None" here.
(self._fun_limit(item_limit) == None, None), # NOQA
(self._fun_limit(item_limit) > 0, self._fun_avg(item) / self._fun_limit(item_limit)),
],
else_=None,
)
def _fun_max(self, item, item_limit, item_fault):
"""
Generate aggregate function for calculate maximum resource usage; for backward capability with lve-stats 0.x
for example:
CASE
WHEN
(sum(lve_stats2_history.cpu_fault) > 0)
THEN
max(lve_stats2_history.cpu_limit)
ELSE
max(lve_stats2_history.cpu) END
:param item:
:param item_limit:
:param item_fault:
:return:
"""
return case([(func.sum(item_fault) > 0, func.max(item_limit))], else_=func.max(item))
def _fun_time_count(self):
if self._check_need_join():
return text('count(*)')
else:
return self.time_count
def _fun_time_from(self):
if self._is_multi_uids:
return self.period_from
else:
if self._check_need_join():
_table = self._table_alive
else:
_table = self.table
if self.dbengine.url.drivername == 'sqlite':
# cast(..., Integer) using for compatibility with lve-stats-2.1-8 database; 'created' saved as float
return (
cast((_table.c.created - self.period_from) / self.time_unit, Integer) * self.time_unit
+ self.period_from
)
else:
return (
func.floor((_table.c.created - self.period_from) / self.time_unit) * self.time_unit
+ self.period_from
)
def _fun_time_to(self):
# in case of changes here don't forget to check _group_by_query
if self._is_multi_uids:
return self.period_to
else:
return self._fun_time_from() + self.time_unit
def _fun_user_id(self):
if self._is_multi_uids:
return label('ID', self.table.c.id)
else:
return label('ID', text(str(self.uid)))
def _aggregate_fun_case(self, item):
"""
Function for obtain aggregate function (or column name) by column name
:param item: 'aCPU', 'aVMem', 'aPMem', 'aEP', 'aNproc', 'aIO', 'aIOPS', 'lCPU', 'lVMem', 'lPMem', 'lEP',
'lNproc', 'lIO', 'lIOPS', 'CPUf', 'VMemF', 'PMemF', 'EPf', 'NprocF', 'IOf', 'IOPSf', 'uCPU',
'uVMem', 'uPMem', 'uEP', 'uNproc', 'uIO', 'uIOPS', 'mCPU', 'mVMem', 'mPMem', 'mEP', 'mNproc',
'mIO', 'mIOPS', 'anyF', 'ID', 'From', 'To'
:type item: str
:return:
"""
if item == 'anyF':
fun_ = func.sum(
self.table.c.mem_fault
+ self.table.c.memphy_fault
+ self.table.c.mep_fault
+ self.table.c.nproc_fault
+ self.table.c.cpu_fault
+ self.table.c.io_fault
+ self.table.c.iops_fault
)
elif item == 'ID':
fun_ = self._fun_user_id()
elif item == 'From':
fun_ = self._fun_time_from()
elif item == 'To':
fun_ = self._fun_time_to()
else:
column_name = FIELD_TO_TABLE_COLUMN[item]
table_column = getattr(self.table.c, column_name)
if item in FIELD_AVERAGE:
fun_ = self._fun_avg(table_column)
elif item in FIELD_LIMIT:
fun_ = self._fun_limit(table_column)
elif item in FIELD_FAULT:
fun_ = self._fun_fault(table_column)
elif item in FIELD_USAGE:
column_name_limit = FIELD_TO_TABLE_COLUMN[FIELD_LIMIT[FIELD_USAGE.index(item)]]
table_column_limit = getattr(self.table.c, column_name_limit)
fun_ = self._fun_usage(table_column, table_column_limit)
elif item in FIELD_MAX:
column_name_limit = FIELD_TO_TABLE_COLUMN[FIELD_LIMIT[FIELD_MAX.index(item)]]
column_name_fault = FIELD_TO_TABLE_COLUMN[FIELD_FAULT[FIELD_MAX.index(item)]]
table_column_limit = getattr(self.table.c, column_name_limit)
table_column_fault = getattr(self.table.c, column_name_fault)
fun_ = self._fun_max(table_column, table_column_limit, table_column_fault)
return fun_
def _group_by_query(self, select_query):
by_usage_list = convert_to_list(self.by_usage)
by_fault_list = convert_to_list(self.by_fault)
if self._is_multi_uids:
query = select_query.group_by(self.table.c.id)
else:
# it is correct because in query result all records having the same _fun_time_from()
# also have same _fun_time_to()
# so .group_by(_fun_time_to()) doesn't create new groups after .group_by(_fun_time_from())
# but we need both this group conditions because mysql throws an error otherwise
query = select_query.group_by(self._fun_time_from()).group_by(self._fun_time_to())
if self.order_by:
order_by_aggregate_func = self._aggregate_fun_case(self.order_by)
query.append_order_by(desc(order_by_aggregate_func))
else:
if self._is_multi_uids:
query.append_order_by(asc(self.table.c.id))
else:
query.append_order_by(self._fun_time_from())
# add filter for having grouped data
if by_usage_list: # add filtering by user id
filter_fun_list = []
for item in by_usage_list:
if item in FIELD_AVERAGE:
index = FIELD_AVERAGE.index(item)
filter_fun = self.by_usage_percentage <= self._aggregate_fun_case(FIELD_USAGE[index])
else:
index = FIELD_MAX.index(item)
filter_fun = self.by_usage_percentage * self._aggregate_fun_case(
FIELD_LIMIT[index]
) <= self._aggregate_fun_case(item)
filter_fun_list.append(filter_fun)
query.append_having(or_(*filter_fun_list))
if by_fault_list:
by_fault_filter = [self.threshold <= self._aggregate_fun_case(funk_key_) for funk_key_ in by_fault_list]
query.append_having(or_(*by_fault_filter))
if self.limit != 0 and self.limit is not None:
query = query.limit(self.limit)
return query
def _columns_query(self):
"""
Generate output columns for SELECT <_columns_query(self)> FROM ...
:return:
"""
columns_agregate_func = []
for column_key in self.show_columns:
column_fun = self._aggregate_fun_case(column_key)
if isinstance(column_fun, list):
columns_agregate_func.extend(column_fun)
else:
if column_key not in ('From', 'To'): # digest not support label
column_fun = label(column_key, column_fun)
columns_agregate_func.append(column_fun) # add label
return columns_agregate_func
def _check_need_time_count(self):
columns = {
'aCPU',
'uCPU',
'aEP',
'uEP',
'aVMem',
'uVMem',
'aPMem',
'uPMem',
'aNproc',
'uNproc',
'aIO',
'uIO',
'aIOPS',
'uIOPS',
}
return bool(columns & (set(self.show_columns) | {self.order_by} | set(self.by_usage or set())))
def _check_need_join(self):
return self._check_need_time_count() and not self._is_multi_uids
def select_query(self, columns_=None, need_join=False):
"""
:type need_join: bool
"""
if columns_ is None:
columns_ = self._columns_query()
if need_join:
where_query = and_(
self._where_time_period(table=self._table_alive), self._where_uid(uid=0, table=self._table_alive)
)
else:
where_query = and_(self._where_time_period(), self._where_uid())
if self.server_id: # add filtering by server id
where_query = and_(where_query, self._where_server_id())
query = select(columns_).where(where_query)
if need_join:
_table_joined = self._table_alive.outerjoin(
self.table, and_(self._table_alive.c.created == self.table.c.created, self._where_uid(uid=self.uid))
)
query = query.select_from(_table_joined)
return query
def main_query(self):
columns_ = self._columns_query()
query = self.select_query(columns_=columns_, need_join=self._check_need_join())
query = self._group_by_query(query)
return query
def _min_max_created(self):
"""
SELECT
MIN(created) AS MinCreated,
MAX(created) AS MaxCreated
FROM
lve_stats2_history
WHERE
id = <ID> AND
created BETWEEN 'xxxx' AND 'yyyy' AND
server_id = 'localhost';
"""
where_query = and_(self._where_time_period(), self._where_uid(), self._where_server_id())
query = select([func.min(self.table.c.created), func.max(self.table.c.created)]).where(where_query)
time_start = time.time()
q = str(query.compile(compile_kwargs={"literal_binds": True})).replace('\n', ' ')
self.log.debug(q)
data = self.dbengine.execute(query)
self.log.debug('query time: %s', time.time() - time_start)
return data.fetchall()[0]
def proceed_dyn_time_unit(self):
min_created, max_created = self._min_max_created()
if max_created is None: # no data
return self.result_corrector
# we need manipulate with datetime data in local timezone
period_from = gm_to_local(unixtimestamp_to_gm_datetime(min_created))
period_to = gm_to_local(unixtimestamp_to_gm_datetime(max_created))
time_unit_groups = dyn_time_unit_groups(period_from, period_to)
rows = []
for _from, _to, _time_unit in reversed(time_unit_groups):
# create instance copy for modify some attributes
self_copy = copy.copy(self)
self_copy.period_from = gm_datetime_to_unixtimestamp(local_to_gm(_from))
self_copy.period_to = gm_datetime_to_unixtimestamp(local_to_gm(_to)) - 1
self_copy.time_unit = _time_unit
self_copy.limit = 0
rows.extend(self_copy.proceed())
return rows
def proceed(self):
# check and return some data without run sql query
if self.uid == tuple() or self.uid == []:
return []
if self.uid is not None and not isinstance(self.uid, (list, tuple)) and self.uid <= 0:
return []
query = self.main_query()
time_start = time.time()
q = str(query.compile(compile_kwargs={"literal_binds": True}))
self.log.debug(q.replace('\n', ' '))
conn = self.dbengine.connect()
try:
cursor = conn.execute(query)
self.log.debug('query time: %s', time.time() - time_start)
self.result_corrector.rows = cursor.fetchall()
except LveStatsPluginTerminated as e:
conn.close()
raise LveStatsPluginTerminated() from e
else:
conn.close()
return self.result_corrector
def proceed_dict(self):
return [dict(zip(self.show_columns, items_val)) for items_val in self.proceed()]
class _HistoryShowX1(HistoryShow):
def __init__(self, *args, **kwargs):
HistoryShow.__init__(self, *args, **kwargs)
if 'ID' not in self.show_columns:
self.show_columns = ['ID'] + self.show_columns
self._labels = [] # variable for control duplicated labels
def _aggregate_fun_case(self, item):
"""
:type item: str
"""
if item == 'anyF':
fun_ = [
self.table.c.mem_fault,
self.table.c.memphy_fault,
self.table.c.mep_fault,
self.table.c.nproc_fault,
self.table.c.cpu_fault,
self.table.c.io_fault,
self.table.c.iops_fault,
]
elif item == 'ID':
fun_ = label('id', self.table.c.id)
elif item == 'From':
fun_ = self.period_from
elif item == 'To':
fun_ = self.period_to
else:
column_name = FIELD_TO_TABLE_COLUMN[item]
table_column = getattr(self.table.c, column_name)
if item in (FIELD_AVERAGE + FIELD_LIMIT + FIELD_FAULT):
fun_ = label(column_name, table_column)
elif item in FIELD_USAGE:
column_name_limit = FIELD_TO_TABLE_COLUMN[FIELD_LIMIT[FIELD_USAGE.index(item)]]
table_column_limit = label(column_name_limit, getattr(self.table.c, column_name_limit))
fun_ = [table_column, table_column_limit]
elif item in FIELD_MAX:
column_name_limit = FIELD_TO_TABLE_COLUMN[FIELD_LIMIT[FIELD_MAX.index(item)]]
column_name_fault = FIELD_TO_TABLE_COLUMN[FIELD_FAULT[FIELD_MAX.index(item)]]
table_column_fault = label(column_name_fault, getattr(self.table.c, column_name_fault))
table_column_limit = label(column_name_limit, getattr(self.table.c, column_name_limit))
table_column_max = label(column_name + '_max', table_column)
fun_ = [table_column, table_column_limit, table_column_fault, table_column_max]
return fun_
def _columns_query(self):
columns_agregate_func = []
show_columns = self.show_columns + (self.by_fault or [])
if self.by_usage:
for item in convert_to_list(self.by_usage):
if item in FIELD_AVERAGE:
index = FIELD_AVERAGE.index(item)
show_columns.append(FIELD_USAGE[index])
else:
index = FIELD_MAX.index(item)
show_columns.extend([FIELD_FAULT[index], item])
if self.order_by:
show_columns.append(self.order_by)
for column_key in show_columns:
column_fun = self._aggregate_fun_case(column_key)
if isinstance(column_fun, list):
for fun_ in column_fun:
if hasattr(fun_, 'name') and fun_.name not in self._labels: # prevent alias duplication
columns_agregate_func.append(fun_)
self._labels.append(fun_.name)
else:
if hasattr(column_fun, 'name') and column_fun.name not in self._labels: # prevent alias duplication
columns_agregate_func.append(column_fun)
self._labels.append(column_fun.name)
return columns_agregate_func
class _HistoryShowX60(_HistoryShowX1):
AGGREGATE_PERIOD = 60 * 60
def __init__(self, *args, **kwargs):
_HistoryShowX1.__init__(self, *args, table=history_x60.__table__, **kwargs)
# correct and rewrite time count and period
self.period_from, self.period_to = self.get_history_x60_from_to()
self.time_count = kwargs.get('time_count') or self.get_time_count()
def get_time_count(self):
if (self.period_from, self.period_to) == (None, None):
return 0
return _HistoryShowX1.get_time_count(self)
def get_history_x60_from_to(self):
"""
calculate present in aggregate table from and to time
"""
if self.period_to - self.period_from <= self.AGGREGATE_PERIOD:
return None, None
between_query = self.table.c.created.between(self.period_from + self.AGGREGATE_PERIOD, self.period_to)
query = select([func.min(self.table.c.created), func.max(self.table.c.created)]).where(
and_(between_query, self._where_server_id())
)
time_start = time.time()
self.log.debug(str(query.compile(compile_kwargs={"literal_binds": True})).replace('\n', ' '))
result = self.dbengine.execute(query).fetchall()[0]
self.log.debug('query time: %s', time.time() - time_start)
create_min, create_max = result
if create_max is not None:
return create_min - self.AGGREGATE_PERIOD + 1, create_max # "+1" for exclude from timestamp
else:
return result
# rewrite average function generating
def _aggregate_fun_case(self, item):
"""
:type item: str
"""
if item in FIELD_AVERAGE:
column_name = FIELD_TO_TABLE_COLUMN[item]
table_column = getattr(self.table.c, column_name)
return label(column_name, table_column * self.table.c.time)
else:
return _HistoryShowX1._aggregate_fun_case(self, item)
class HistoryShowUnion(HistoryShow):
"""
Class for retrieve statistics data using two tables
"""
def __init__(self, *args, **kwargs):
HistoryShow.__init__(self, *args, **kwargs)
self._alias = LVE_STATS_2_TABLENAME_PREFIX + 'union'
kwargs.update({"time_count": self.time_count})
self.x60 = _HistoryShowX60(*args, **kwargs)
self.x1 = _HistoryShowX1(*args, **kwargs)
self._need_union = self.x60.period_to is not None and self._is_multi_uids # detect need union tables
if self._need_union:
self.table = self._select_union_query()
# rewrite '_aggregate_fun_case' for correct calculate maximum
def _aggregate_fun_case(self, item):
"""
:type item: str
"""
if self._need_union and item in FIELD_MAX:
column_name = FIELD_TO_TABLE_COLUMN[item]
column_name_limit = FIELD_TO_TABLE_COLUMN[FIELD_LIMIT[FIELD_MAX.index(item)]]
column_name_fault = FIELD_TO_TABLE_COLUMN[FIELD_FAULT[FIELD_MAX.index(item)]]
column_limit = getattr(self.table.c, column_name_limit)
column_fault = getattr(self.table.c, column_name_fault)
column_max = getattr(self.table.c, column_name + '_max')
fun_ = self._fun_max(column_max, column_limit, column_fault)
return fun_
else:
return HistoryShow._aggregate_fun_case(self, item)
def _select_union_query(self):
"""
union two tables
"""
with warnings.catch_warnings():
warnings.simplefilter("ignore", category=sa_exc.SAWarning)
union_query = self.x1.select_query().where(
not_(self.x1.table.c.created.between(self.x60.period_from, self.x60.period_to))
)
union_query = union_query.union_all(self.x60.select_query())
union_query = alias(union_query, self._alias)
return union_query
def select_query(self, columns_=None, need_join=None):
if self._need_union:
return select(columns_)
else:
return HistoryShow.select_query(self, columns_=columns_, need_join=need_join)
def get_supported_columns(lve_version=None, mode=None):
"""
preparation list columns depending of the lve version
:type mode: Union[None, str]
:type lve_version: Union[None, int]
"""
columns = []
if mode == 'v1':
columns = [
'aCPU',
'mCPU',
'lCPU',
'aEP',
'mEP',
'lEP',
'aVMem',
'mVMem',
'lVMem',
'VMemF',
'EPf',
'aPMem',
'mPMem',
'lPMem',
'aNproc',
'mNproc',
'lNproc',
'PMemF',
'NprocF',
'aIO',
'mIO',
'lIO',
]
if lve_version is None or lve_version > 6:
columns.extend(['aIOPS', 'mIOPS', 'lIOPS'])
elif mode == 'v2':
columns = [
'aCPU',
'lCPU',
'CPUf',
'aEP',
'lEP',
'EPf',
'aVMem',
'lVMem',
'VMemF',
'aPMem',
'lPMem',
'PMemF',
'aNproc',
'lNproc',
'NprocF',
'aIO',
'lIO',
'IOf',
]
if lve_version is None or lve_version > 6:
columns.extend(['aIOPS', 'lIOPS', 'IOPSf'])
elif mode is None: # show all columns, v1 and v2
columns = [
'aCPU',
'uCPU',
'mCPU',
'lCPU',
'CPUf',
'aEP',
'uEP',
'mEP',
'lEP',
'EPf',
'aVMem',
'uVMem',
'mVMem',
'lVMem',
'VMemF',
'aPMem',
'uPMem',
'mPMem',
'lPMem',
'PMemF',
'aNproc',
'uNproc',
'mNproc',
'lNproc',
'NprocF',
'aIO',
'uIO',
'mIO',
'lIO',
'IOf',
]
if lve_version is None or lve_version > 6:
columns.extend(['aIOPS', 'mIOPS', 'uIOPS', 'lIOPS', 'IOPSf'])
return columns