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GR0V Shell
GR0V shell
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# coding=utf-8
#
# Copyright © Cloud Linux GmbH & Cloud Linux Software, Inc 2010-2023 All Rights Reserved
#
# Licensed under CLOUD LINUX LICENSE AGREEMENT
# http://cloudlinux.com/docs/LICENSE.TXT
import logging
import typing
import pprint
from dataclasses import dataclass
from functools import cached_property
from datetime import timedelta
from types import MappingProxyType
from typing import Callable, Mapping
from collections.abc import Set
from ._logs import logger
from .notify import Emitter, Signal
from .common import (
BurstingMultipliers,
LveId,
Timestamp,
LveLimits,
ApplyLveSettings,
SerializedLveId,
get_deserialized_lve_id,
LveStats,
LveUsage,
LveState,
empty_usage,
)
from .history import IntervalType, LveHistory
from .lve_sm import LveStateManager, LveStateSummary
@dataclass(frozen=True)
class LveStateManagerFactory:
_lve_to_history: dict[LveId, LveHistory]
_apply_lve_settings: ApplyLveSettings
_quota: timedelta
_quota_window: timedelta
_bursting_multipliers: BurstingMultipliers
_fail_fast: bool = True
def __post_init__(self):
lves_with_broken_history = {
str(lve_id)
for lve_id, history
in self._lve_to_history.items()
if history.ongoing_interval_type == IntervalType.OVERUSING
}
if lves_with_broken_history:
raise ValueError(
'LVEs ' + ', '.join(lves_with_broken_history) + ' are marked as "overusing" '
' in initial history loaded from persistent storage!'
)
def __call__(
self,
lve_id: LveId,
now: Timestamp,
normal_limits: LveLimits,
stats: LveStats,
usage: LveUsage,
) -> LveStateManager:
try:
history = self._lve_to_history.pop(lve_id)
except KeyError:
history = LveHistory()
else:
cutoff = typing.cast(Timestamp, now - self._quota_window.total_seconds())
history = history.trim(cutoff)
return LveStateManager(
now=now,
lve_id=lve_id,
initial_history=history,
bursting_multipliers=self._bursting_multipliers,
initial_normal_limits=normal_limits,
initial_stats=stats,
initial_usage=usage,
quota=self._quota,
quota_window=self._quota_window,
apply_lve_settings=self._apply_lve_settings,
fail_fast=self._fail_fast,
)
class LvesTracker:
def __init__(
self,
create_lve_manager: LveStateManagerFactory,
fail_fast: bool = True,
deserialize_lve_id: Callable[[SerializedLveId], LveId] = get_deserialized_lve_id,
) -> None:
self._create_lve_manager = create_lve_manager
self._fail_fast = fail_fast
self._deserialize_lve_id = deserialize_lve_id
self._serialized_id_to_manager = dict[SerializedLveId, LveStateManager]()
# FIXME(vlebedev): Remove these state-sets and replace them with signals and external handlers,
# which are interested in state switches.
self._state_sets = (
self._bursted,
self._unbursted,
self._overusing,
self._exceeded,
) = (
set[LveStateManager](),
set[LveStateManager](),
set[LveStateManager](),
set[LveStateManager](),
)
self._on_manager_added = Emitter()
@cached_property
def serialized_id_to_manager(self) -> Mapping[SerializedLveId, LveStateManager]:
return MappingProxyType(self._serialized_id_to_manager)
@property
def bursted(self) -> Set[LveStateManager]:
return self._bursted
@property
def unbursted(self) -> Set[LveStateManager]:
return self._unbursted
@property
def overusing(self) -> Set[LveStateManager]:
return self._overusing
@property
def quota_exceeded(self) -> Set[LveStateManager]:
return self._exceeded
@property
def on_manager_added(self) -> Signal:
return self._on_manager_added
def update(
self,
now: Timestamp,
normal_limits_by_id: Mapping[LveId, LveLimits],
stats_by_id: Mapping[SerializedLveId, LveStats],
usages_by_id: Mapping[SerializedLveId, LveUsage],
) -> None:
# TODO(vlebedev): Filter out users belonging to resellers (LVEStat contains reseller_id field)
currently_existing_ids = stats_by_id.keys()
newly_appeared_raw_ids = currently_existing_ids - self._serialized_id_to_manager.keys()
for serialized_lve_id in newly_appeared_raw_ids:
if serialized_lve_id == 0:
continue
# NOTE(vlebedev): Users under resellers are not supported for now.
if stats_by_id[serialized_lve_id].reseller_id != 0:
continue
lve_id: LveId = self._deserialize_lve_id(serialized_lve_id)
# TODO(vlebedev): Can it be that there are no normal limits and/or stats are available?
# What to do in this case?
errors = []
try:
normal_limits = normal_limits_by_id[lve_id]
except KeyError:
errors.append('normal limits')
try:
stats = stats_by_id[serialized_lve_id]
except KeyError:
errors.append('stats')
if errors:
# TODO(vlebedev): Raise exception when `fail_fast` is set.
logger.warn(
'LVE "%s": some "get_initial_readings" listeners failed: ' +
' and '.join(f'"{e}"' for e in errors) + ' readings are absent!', lve_id
)
continue
manager = self._create_lve_manager(
now=now,
lve_id=lve_id,
normal_limits=normal_limits,
stats=stats,
usage=usages_by_id.get(serialized_lve_id, empty_usage),
)
self._serialized_id_to_manager[serialized_lve_id] = manager
logger.debug('LVE "%s": unknown LVE appeared - created manager for it', lve_id)
if logger.isEnabledFor(logging.DEBUG):
logger.debug('LVEs known to adjuster: \n%s', pprint.pformat({
slid: str(LveStateSummary.for_lve(m))
for slid, m
in self._serialized_id_to_manager.items()
}, width=-1))
disappeared_exc, to_delete = LveStateManager.Disappered(now=now), set()
for serialized_lve_id, manager in self._serialized_id_to_manager.items():
lve_id = manager.lve_id
manager.trim_history(now)
manager.step(LveStateManager.UpdateReadings(
now=now,
normal_limits=normal_limits_by_id.get(lve_id),
stats=stats_by_id.get(serialized_lve_id),
usage=usages_by_id.get(serialized_lve_id, empty_usage),
))
if serialized_lve_id not in currently_existing_ids and manager.state != LveState.EXISTED:
manager.step(disappeared_exc)
for state_set in self._state_sets:
state_set.discard(manager)
if not manager.history_contains_overusing:
to_delete.add(serialized_lve_id)
continue
lve_quota_exceeded = manager.check_quota_exceeded(now)
(self._overusing.add if manager.is_overusing else self._overusing.discard)(manager)
(self._bursted.add if manager.is_bursted else self._bursted.discard)(manager)
(self._unbursted.add if manager.is_unbursted else self._unbursted.discard)(manager)
(self._exceeded.add if lve_quota_exceeded else self._exceeded.discard)(manager)
if self._fail_fast:
if self._bursted.intersection(self._unbursted) != set():
raise AssertionError('LVEs can`t be both bursted and unbursted!')
if self._overusing.intersection(self._unbursted) != set():
raise AssertionError('LVEs can`t be both overusing and unbursted!')
for serialized_lve_id in to_delete:
manager = self._serialized_id_to_manager.pop(serialized_lve_id)
logger.debug(
'LVE "%s": LVE is no longer active and has empty history - forgetting corresponding manager',
manager.lve_id,
)
# NOTE(vlebedev): Trigger signal listeners only after internal state is finished to be updated.
for serialized_id in newly_appeared_raw_ids:
try:
manager = self._serialized_id_to_manager[serialized_id]
except KeyError:
continue
try:
self._on_manager_added(manager)
except Exception:
if self._fail_fast:
raise
logger.exception('LVE "%s": some "on_manager_created" listeners failed!', manager.lve_id)
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