ai_v/venv/Lib/site-packages/redis/multidb/client.py

import logging
import threading
from concurrent.futures import as_completed
from concurrent.futures.thread import ThreadPoolExecutor
from typing import Any, Callable, List, Optional

from redis.background import BackgroundScheduler
from redis.client import PubSubWorkerThread
from redis.commands import CoreCommands, RedisModuleCommands
from redis.multidb.circuit import CircuitBreaker
from redis.multidb.circuit import State as CBState
from redis.multidb.command_executor import DefaultCommandExecutor
from redis.multidb.config import DEFAULT_GRACE_PERIOD, MultiDbConfig
from redis.multidb.database import Database, Databases, SyncDatabase
from redis.multidb.exception import NoValidDatabaseException, UnhealthyDatabaseException
from redis.multidb.failure_detector import FailureDetector
from redis.multidb.healthcheck import HealthCheck, HealthCheckPolicy
from redis.utils import experimental

logger = logging.getLogger(__name__)


@experimental
class MultiDBClient(RedisModuleCommands, CoreCommands):
    """
    Client that operates on multiple logical Redis databases.
    Should be used in Active-Active database setups.
    """

    def __init__(self, config: MultiDbConfig):
        self._databases = config.databases()
        self._health_checks = (
            config.default_health_checks()
            if not config.health_checks
            else config.health_checks
        )
        self._health_check_interval = config.health_check_interval
        self._health_check_policy: HealthCheckPolicy = config.health_check_policy.value(
            config.health_check_probes, config.health_check_probes_delay
        )
        self._failure_detectors = (
            config.default_failure_detectors()
            if not config.failure_detectors
            else config.failure_detectors
        )

        self._failover_strategy = (
            config.default_failover_strategy()
            if config.failover_strategy is None
            else config.failover_strategy
        )
        self._failover_strategy.set_databases(self._databases)
        self._auto_fallback_interval = config.auto_fallback_interval
        self._event_dispatcher = config.event_dispatcher
        self._command_retry = config.command_retry
        self._command_retry.update_supported_errors((ConnectionRefusedError,))
        self.command_executor = DefaultCommandExecutor(
            failure_detectors=self._failure_detectors,
            databases=self._databases,
            command_retry=self._command_retry,
            failover_strategy=self._failover_strategy,
            failover_attempts=config.failover_attempts,
            failover_delay=config.failover_delay,
            event_dispatcher=self._event_dispatcher,
            auto_fallback_interval=self._auto_fallback_interval,
        )
        self.initialized = False
        self._hc_lock = threading.RLock()
        self._bg_scheduler = BackgroundScheduler()
        self._config = config

    def initialize(self):
        """
        Perform initialization of databases to define their initial state.
        """

        def raise_exception_on_failed_hc(error):
            raise error

        # Initial databases check to define initial state
        self._check_databases_health(on_error=raise_exception_on_failed_hc)

        # Starts recurring health checks on the background.
        self._bg_scheduler.run_recurring(
            self._health_check_interval,
            self._check_databases_health,
        )

        is_active_db_found = False

        for database, weight in self._databases:
            # Set on state changed callback for each circuit.
            database.circuit.on_state_changed(self._on_circuit_state_change_callback)

            # Set states according to a weights and circuit state
            if database.circuit.state == CBState.CLOSED and not is_active_db_found:
                self.command_executor.active_database = database
                is_active_db_found = True

        if not is_active_db_found:
            raise NoValidDatabaseException(
                "Initial connection failed - no active database found"
            )

        self.initialized = True

    def get_databases(self) -> Databases:
        """
        Returns a sorted (by weight) list of all databases.
        """
        return self._databases

    def set_active_database(self, database: SyncDatabase) -> None:
        """
        Promote one of the existing databases to become an active.
        """
        exists = None

        for existing_db, _ in self._databases:
            if existing_db == database:
                exists = True
                break

        if not exists:
            raise ValueError("Given database is not a member of database list")

        self._check_db_health(database)

        if database.circuit.state == CBState.CLOSED:
            highest_weighted_db, _ = self._databases.get_top_n(1)[0]
            self.command_executor.active_database = database
            return

        raise NoValidDatabaseException(
            "Cannot set active database, database is unhealthy"
        )

    def add_database(self, database: SyncDatabase):
        """
        Adds a new database to the database list.
        """
        for existing_db, _ in self._databases:
            if existing_db == database:
                raise ValueError("Given database already exists")

        self._check_db_health(database)

        highest_weighted_db, highest_weight = self._databases.get_top_n(1)[0]
        self._databases.add(database, database.weight)
        self._change_active_database(database, highest_weighted_db)

    def _change_active_database(
        self, new_database: SyncDatabase, highest_weight_database: SyncDatabase
    ):
        if (
            new_database.weight > highest_weight_database.weight
            and new_database.circuit.state == CBState.CLOSED
        ):
            self.command_executor.active_database = new_database

    def remove_database(self, database: Database):
        """
        Removes a database from the database list.
        """
        weight = self._databases.remove(database)
        highest_weighted_db, highest_weight = self._databases.get_top_n(1)[0]

        if (
            highest_weight <= weight
            and highest_weighted_db.circuit.state == CBState.CLOSED
        ):
            self.command_executor.active_database = highest_weighted_db

    def update_database_weight(self, database: SyncDatabase, weight: float):
        """
        Updates a database from the database list.
        """
        exists = None

        for existing_db, _ in self._databases:
            if existing_db == database:
                exists = True
                break

        if not exists:
            raise ValueError("Given database is not a member of database list")

        highest_weighted_db, highest_weight = self._databases.get_top_n(1)[0]
        self._databases.update_weight(database, weight)
        database.weight = weight
        self._change_active_database(database, highest_weighted_db)

    def add_failure_detector(self, failure_detector: FailureDetector):
        """
        Adds a new failure detector to the database.
        """
        self._failure_detectors.append(failure_detector)

    def add_health_check(self, healthcheck: HealthCheck):
        """
        Adds a new health check to the database.
        """
        with self._hc_lock:
            self._health_checks.append(healthcheck)

    def execute_command(self, *args, **options):
        """
        Executes a single command and return its result.
        """
        if not self.initialized:
            self.initialize()

        return self.command_executor.execute_command(*args, **options)

    def pipeline(self):
        """
        Enters into pipeline mode of the client.
        """
        return Pipeline(self)

    def transaction(self, func: Callable[["Pipeline"], None], *watches, **options):
        """
        Executes callable as transaction.
        """
        if not self.initialized:
            self.initialize()

        return self.command_executor.execute_transaction(func, *watches, *options)

    def pubsub(self, **kwargs):
        """
        Return a Publish/Subscribe object. With this object, you can
        subscribe to channels and listen for messages that get published to
        them.
        """
        if not self.initialized:
            self.initialize()

        return PubSub(self, **kwargs)

    def _check_db_health(self, database: SyncDatabase) -> bool:
        """
        Runs health checks on the given database until first failure.
        """
        # Health check will setup circuit state
        is_healthy = self._health_check_policy.execute(self._health_checks, database)

        if not is_healthy:
            if database.circuit.state != CBState.OPEN:
                database.circuit.state = CBState.OPEN
            return is_healthy
        elif is_healthy and database.circuit.state != CBState.CLOSED:
            database.circuit.state = CBState.CLOSED

        return is_healthy

    def _check_databases_health(self, on_error: Callable[[Exception], None] = None):
        """
        Runs health checks as a recurring task.
        Runs health checks against all databases.
        """
        with ThreadPoolExecutor(max_workers=len(self._databases)) as executor:
            # Submit all health checks
            futures = {
                executor.submit(self._check_db_health, database)
                for database, _ in self._databases
            }

            try:
                for future in as_completed(
                    futures, timeout=self._health_check_interval
                ):
                    try:
                        future.result()
                    except UnhealthyDatabaseException as e:
                        unhealthy_db = e.database
                        unhealthy_db.circuit.state = CBState.OPEN

                        logger.exception(
                            "Health check failed, due to exception",
                            exc_info=e.original_exception,
                        )

                        if on_error:
                            on_error(e.original_exception)
            except TimeoutError:
                raise TimeoutError(
                    "Health check execution exceeds health_check_interval"
                )

    def _on_circuit_state_change_callback(
        self, circuit: CircuitBreaker, old_state: CBState, new_state: CBState
    ):
        if new_state == CBState.HALF_OPEN:
            self._check_db_health(circuit.database)
            return

        if old_state == CBState.CLOSED and new_state == CBState.OPEN:
            self._bg_scheduler.run_once(
                DEFAULT_GRACE_PERIOD, _half_open_circuit, circuit
            )

    def close(self):
        """
        Closes the client and all its resources.
        """
        if self._bg_scheduler:
            self._bg_scheduler.stop()
        if self.command_executor.active_database:
            self.command_executor.active_database.client.close()


def _half_open_circuit(circuit: CircuitBreaker):
    circuit.state = CBState.HALF_OPEN


class Pipeline(RedisModuleCommands, CoreCommands):
    """
    Pipeline implementation for multiple logical Redis databases.
    """

    def __init__(self, client: MultiDBClient):
        self._command_stack = []
        self._client = client

    def __enter__(self) -> "Pipeline":
        return self

    def __exit__(self, exc_type, exc_value, traceback):
        self.reset()

    def __del__(self):
        try:
            self.reset()
        except Exception:
            pass

    def __len__(self) -> int:
        return len(self._command_stack)

    def __bool__(self) -> bool:
        """Pipeline instances should always evaluate to True"""
        return True

    def reset(self) -> None:
        self._command_stack = []

    def close(self) -> None:
        """Close the pipeline"""
        self.reset()

    def pipeline_execute_command(self, *args, **options) -> "Pipeline":
        """
        Stage a command to be executed when execute() is next called

        Returns the current Pipeline object back so commands can be
        chained together, such as:

        pipe = pipe.set('foo', 'bar').incr('baz').decr('bang')

        At some other point, you can then run: pipe.execute(),
        which will execute all commands queued in the pipe.
        """
        self._command_stack.append((args, options))
        return self

    def execute_command(self, *args, **kwargs):
        """Adds a command to the stack"""
        return self.pipeline_execute_command(*args, **kwargs)

    def execute(self) -> List[Any]:
        """Execute all the commands in the current pipeline"""
        if not self._client.initialized:
            self._client.initialize()

        try:
            return self._client.command_executor.execute_pipeline(
                tuple(self._command_stack)
            )
        finally:
            self.reset()


class PubSub:
    """
    PubSub object for multi database client.
    """

    def __init__(self, client: MultiDBClient, **kwargs):
        """Initialize the PubSub object for a multi-database client.

        Args:
            client: MultiDBClient instance to use for pub/sub operations
            **kwargs: Additional keyword arguments to pass to the underlying pubsub implementation
        """

        self._client = client
        self._client.command_executor.pubsub(**kwargs)

    def __enter__(self) -> "PubSub":
        return self

    def __del__(self) -> None:
        try:
            # if this object went out of scope prior to shutting down
            # subscriptions, close the connection manually before
            # returning it to the connection pool
            self.reset()
        except Exception:
            pass

    def reset(self) -> None:
        return self._client.command_executor.execute_pubsub_method("reset")

    def close(self) -> None:
        self.reset()

    @property
    def subscribed(self) -> bool:
        return self._client.command_executor.active_pubsub.subscribed

    def execute_command(self, *args):
        return self._client.command_executor.execute_pubsub_method(
            "execute_command", *args
        )

    def psubscribe(self, *args, **kwargs):
        """
        Subscribe to channel patterns. Patterns supplied as keyword arguments
        expect a pattern name as the key and a callable as the value. A
        pattern's callable will be invoked automatically when a message is
        received on that pattern rather than producing a message via
        ``listen()``.
        """
        return self._client.command_executor.execute_pubsub_method(
            "psubscribe", *args, **kwargs
        )

    def punsubscribe(self, *args):
        """
        Unsubscribe from the supplied patterns. If empty, unsubscribe from
        all patterns.
        """
        return self._client.command_executor.execute_pubsub_method(
            "punsubscribe", *args
        )

    def subscribe(self, *args, **kwargs):
        """
        Subscribe to channels. Channels supplied as keyword arguments expect
        a channel name as the key and a callable as the value. A channel's
        callable will be invoked automatically when a message is received on
        that channel rather than producing a message via ``listen()`` or
        ``get_message()``.
        """
        return self._client.command_executor.execute_pubsub_method(
            "subscribe", *args, **kwargs
        )

    def unsubscribe(self, *args):
        """
        Unsubscribe from the supplied channels. If empty, unsubscribe from
        all channels
        """
        return self._client.command_executor.execute_pubsub_method("unsubscribe", *args)

    def ssubscribe(self, *args, **kwargs):
        """
        Subscribes the client to the specified shard channels.
        Channels supplied as keyword arguments expect a channel name as the key
        and a callable as the value. A channel's callable will be invoked automatically
        when a message is received on that channel rather than producing a message via
        ``listen()`` or ``get_sharded_message()``.
        """
        return self._client.command_executor.execute_pubsub_method(
            "ssubscribe", *args, **kwargs
        )

    def sunsubscribe(self, *args):
        """
        Unsubscribe from the supplied shard_channels. If empty, unsubscribe from
        all shard_channels
        """
        return self._client.command_executor.execute_pubsub_method(
            "sunsubscribe", *args
        )

    def get_message(
        self, ignore_subscribe_messages: bool = False, timeout: float = 0.0
    ):
        """
        Get the next message if one is available, otherwise None.

        If timeout is specified, the system will wait for `timeout` seconds
        before returning. Timeout should be specified as a floating point
        number, or None, to wait indefinitely.
        """
        return self._client.command_executor.execute_pubsub_method(
            "get_message",
            ignore_subscribe_messages=ignore_subscribe_messages,
            timeout=timeout,
        )

    def get_sharded_message(
        self, ignore_subscribe_messages: bool = False, timeout: float = 0.0
    ):
        """
        Get the next message if one is available in a sharded channel, otherwise None.

        If timeout is specified, the system will wait for `timeout` seconds
        before returning. Timeout should be specified as a floating point
        number, or None, to wait indefinitely.
        """
        return self._client.command_executor.execute_pubsub_method(
            "get_sharded_message",
            ignore_subscribe_messages=ignore_subscribe_messages,
            timeout=timeout,
        )

    def run_in_thread(
        self,
        sleep_time: float = 0.0,
        daemon: bool = False,
        exception_handler: Optional[Callable] = None,
        sharded_pubsub: bool = False,
    ) -> "PubSubWorkerThread":
        return self._client.command_executor.execute_pubsub_run(
            sleep_time,
            daemon=daemon,
            exception_handler=exception_handler,
            pubsub=self,
            sharded_pubsub=sharded_pubsub,
        )
feat(api): 实现图像生成及后台同步功能 - 新增图像生成接口，支持试用、积分和自定义API Key模式 - 实现生成图片结果异步上传至MinIO存储，带重试机制 - 优化积分预扣除和异常退还逻辑，保障用户积分准确 - 添加获取生成历史记录接口，支持时间范围和分页 - 提供本地字典配置接口，支持模型、比例、提示模板和尺寸 - 实现图片批量上传接口，支持S3兼容对象存储 feat(admin): 增加管理员角色管理与权限分配接口 - 实现角色列表查询、角色创建、更新及删除功能 - 增加权限列表查询接口 - 实现用户角色分配接口，便于统一管理用户权限 - 增加系统字典增删查改接口，支持分类过滤和排序 - 权限控制全面覆盖管理接口，保证安全访问 feat(auth): 完善用户登录注册及权限相关接口与页面 - 实现手机号验证码发送及校验功能，保障注册安全 - 支持手机号注册、登录及退出接口，集成日志记录 - 增加修改密码功能，验证原密码后更新 - 提供动态导航菜单接口，基于权限展示不同菜单 - 实现管理界面路由及日志、角色、字典管理页面访问权限控制 - 添加系统日志查询接口，支持关键词和等级筛选 feat(app): 初始化Flask应用并配置蓝图与数据库 - 创建应用程序工厂，加载配置，初始化数据库和Redis客户端 - 注册认证、API及管理员蓝图，整合路由 - 根路由渲染主页模板 - 应用上下文中自动创建数据库表，保证运行环境准备完毕 feat(database): 提供数据库创建与迁移支持脚本 - 新增数据库创建脚本，支持自动检测是否已存在 - 添加数据库表初始化脚本，支持创建和删除所有表 - 实现RBAC权限初始化，包含基础权限和角色创建 - 新增字段手动修复脚本，添加用户API Key和积分字段 - 强制迁移脚本支持清理连接和修复表结构，初始化默认数据及角色分配 feat(config): 新增系统配置参数 - 配置数据库、Redis、Session和MinIO相关参数 - 添加AI接口地址及试用Key配置 - 集成阿里云短信服务配置及开发模式相关参数 feat(extensions): 初始化数据库、Redis和MinIO客户端 - 创建全局SQLAlchemy数据库实例和Redis客户端 - 配置基于boto3的MinIO兼容S3客户端 chore(logs): 添加示例系统日志文件 - 记录用户请求、验证码发送成功与失败的日志信息 2026-01-12 00:53:31 +08:00			`import logging`
			`import threading`
			`from concurrent.futures import as_completed`
			`from concurrent.futures.thread import ThreadPoolExecutor`
			`from typing import Any, Callable, List, Optional`

			`from redis.background import BackgroundScheduler`
			`from redis.client import PubSubWorkerThread`
			`from redis.commands import CoreCommands, RedisModuleCommands`
			`from redis.multidb.circuit import CircuitBreaker`
			`from redis.multidb.circuit import State as CBState`
			`from redis.multidb.command_executor import DefaultCommandExecutor`
			`from redis.multidb.config import DEFAULT_GRACE_PERIOD, MultiDbConfig`
			`from redis.multidb.database import Database, Databases, SyncDatabase`
			`from redis.multidb.exception import NoValidDatabaseException, UnhealthyDatabaseException`
			`from redis.multidb.failure_detector import FailureDetector`
			`from redis.multidb.healthcheck import HealthCheck, HealthCheckPolicy`
			`from redis.utils import experimental`

			`logger = logging.getLogger(__name__)`


			`@experimental`
			`class MultiDBClient(RedisModuleCommands, CoreCommands):`
			`"""`
			`Client that operates on multiple logical Redis databases.`
			`Should be used in Active-Active database setups.`
			`"""`

			`def __init__(self, config: MultiDbConfig):`
			`self._databases = config.databases()`
			`self._health_checks = (`
			`config.default_health_checks()`
			`if not config.health_checks`
			`else config.health_checks`
			`)`
			`self._health_check_interval = config.health_check_interval`
			`self._health_check_policy: HealthCheckPolicy = config.health_check_policy.value(`
			`config.health_check_probes, config.health_check_probes_delay`
			`)`
			`self._failure_detectors = (`
			`config.default_failure_detectors()`
			`if not config.failure_detectors`
			`else config.failure_detectors`
			`)`

			`self._failover_strategy = (`
			`config.default_failover_strategy()`
			`if config.failover_strategy is None`
			`else config.failover_strategy`
			`)`
			`self._failover_strategy.set_databases(self._databases)`
			`self._auto_fallback_interval = config.auto_fallback_interval`
			`self._event_dispatcher = config.event_dispatcher`
			`self._command_retry = config.command_retry`
			`self._command_retry.update_supported_errors((ConnectionRefusedError,))`
			`self.command_executor = DefaultCommandExecutor(`
			`failure_detectors=self._failure_detectors,`
			`databases=self._databases,`
			`command_retry=self._command_retry,`
			`failover_strategy=self._failover_strategy,`
			`failover_attempts=config.failover_attempts,`
			`failover_delay=config.failover_delay,`
			`event_dispatcher=self._event_dispatcher,`
			`auto_fallback_interval=self._auto_fallback_interval,`
			`)`
			`self.initialized = False`
			`self._hc_lock = threading.RLock()`
			`self._bg_scheduler = BackgroundScheduler()`
			`self._config = config`

			`def initialize(self):`
			`"""`
			`Perform initialization of databases to define their initial state.`
			`"""`

			`def raise_exception_on_failed_hc(error):`
			`raise error`

			`# Initial databases check to define initial state`
			`self._check_databases_health(on_error=raise_exception_on_failed_hc)`

			`# Starts recurring health checks on the background.`
			`self._bg_scheduler.run_recurring(`
			`self._health_check_interval,`
			`self._check_databases_health,`
			`)`

			`is_active_db_found = False`

			`for database, weight in self._databases:`
			`# Set on state changed callback for each circuit.`
			`database.circuit.on_state_changed(self._on_circuit_state_change_callback)`

			`# Set states according to a weights and circuit state`
			`if database.circuit.state == CBState.CLOSED and not is_active_db_found:`
			`self.command_executor.active_database = database`
			`is_active_db_found = True`

			`if not is_active_db_found:`
			`raise NoValidDatabaseException(`
			`"Initial connection failed - no active database found"`
			`)`

			`self.initialized = True`

			`def get_databases(self) -> Databases:`
			`"""`
			`Returns a sorted (by weight) list of all databases.`
			`"""`
			`return self._databases`

			`def set_active_database(self, database: SyncDatabase) -> None:`
			`"""`
			`Promote one of the existing databases to become an active.`
			`"""`
			`exists = None`

			`for existing_db, _ in self._databases:`
			`if existing_db == database:`
			`exists = True`
			`break`

			`if not exists:`
			`raise ValueError("Given database is not a member of database list")`

			`self._check_db_health(database)`

			`if database.circuit.state == CBState.CLOSED:`
			`highest_weighted_db, _ = self._databases.get_top_n(1)[0]`
			`self.command_executor.active_database = database`
			`return`

			`raise NoValidDatabaseException(`
			`"Cannot set active database, database is unhealthy"`
			`)`

			`def add_database(self, database: SyncDatabase):`
			`"""`
			`Adds a new database to the database list.`
			`"""`
			`for existing_db, _ in self._databases:`
			`if existing_db == database:`
			`raise ValueError("Given database already exists")`

			`self._check_db_health(database)`

			`highest_weighted_db, highest_weight = self._databases.get_top_n(1)[0]`
			`self._databases.add(database, database.weight)`
			`self._change_active_database(database, highest_weighted_db)`

			`def _change_active_database(`
			`self, new_database: SyncDatabase, highest_weight_database: SyncDatabase`
			`):`
			`if (`
			`new_database.weight > highest_weight_database.weight`
			`and new_database.circuit.state == CBState.CLOSED`
			`):`
			`self.command_executor.active_database = new_database`

			`def remove_database(self, database: Database):`
			`"""`
			`Removes a database from the database list.`
			`"""`
			`weight = self._databases.remove(database)`
			`highest_weighted_db, highest_weight = self._databases.get_top_n(1)[0]`

			`if (`
			`highest_weight <= weight`
			`and highest_weighted_db.circuit.state == CBState.CLOSED`
			`):`
			`self.command_executor.active_database = highest_weighted_db`

			`def update_database_weight(self, database: SyncDatabase, weight: float):`
			`"""`
			`Updates a database from the database list.`
			`"""`
			`exists = None`

			`for existing_db, _ in self._databases:`
			`if existing_db == database:`
			`exists = True`
			`break`

			`if not exists:`
			`raise ValueError("Given database is not a member of database list")`

			`highest_weighted_db, highest_weight = self._databases.get_top_n(1)[0]`
			`self._databases.update_weight(database, weight)`
			`database.weight = weight`
			`self._change_active_database(database, highest_weighted_db)`

			`def add_failure_detector(self, failure_detector: FailureDetector):`
			`"""`
			`Adds a new failure detector to the database.`
			`"""`
			`self._failure_detectors.append(failure_detector)`

			`def add_health_check(self, healthcheck: HealthCheck):`
			`"""`
			`Adds a new health check to the database.`
			`"""`
			`with self._hc_lock:`
			`self._health_checks.append(healthcheck)`

			`def execute_command(self, args, *options):`
			`"""`
			`Executes a single command and return its result.`
			`"""`
			`if not self.initialized:`
			`self.initialize()`

			`return self.command_executor.execute_command(args, *options)`

			`def pipeline(self):`
			`"""`
			`Enters into pipeline mode of the client.`
			`"""`
			`return Pipeline(self)`

			`def transaction(self, func: Callable[["Pipeline"], None], watches, *options):`
			`"""`
			`Executes callable as transaction.`
			`"""`
			`if not self.initialized:`
			`self.initialize()`

			`return self.command_executor.execute_transaction(func, watches, options)`

			`def pubsub(self, **kwargs):`
			`"""`
			`Return a Publish/Subscribe object. With this object, you can`
			`subscribe to channels and listen for messages that get published to`
			`them.`
			`"""`
			`if not self.initialized:`
			`self.initialize()`

			`return PubSub(self, **kwargs)`

			`def _check_db_health(self, database: SyncDatabase) -> bool:`
			`"""`
			`Runs health checks on the given database until first failure.`
			`"""`
			`# Health check will setup circuit state`
			`is_healthy = self._health_check_policy.execute(self._health_checks, database)`

			`if not is_healthy:`
			`if database.circuit.state != CBState.OPEN:`
			`database.circuit.state = CBState.OPEN`
			`return is_healthy`
			`elif is_healthy and database.circuit.state != CBState.CLOSED:`
			`database.circuit.state = CBState.CLOSED`

			`return is_healthy`

			`def _check_databases_health(self, on_error: Callable[[Exception], None] = None):`
			`"""`
			`Runs health checks as a recurring task.`
			`Runs health checks against all databases.`
			`"""`
			`with ThreadPoolExecutor(max_workers=len(self._databases)) as executor:`
			`# Submit all health checks`
			`futures = {`
			`executor.submit(self._check_db_health, database)`
			`for database, _ in self._databases`
			`}`

			`try:`
			`for future in as_completed(`
			`futures, timeout=self._health_check_interval`
			`):`
			`try:`
			`future.result()`
			`except UnhealthyDatabaseException as e:`
			`unhealthy_db = e.database`
			`unhealthy_db.circuit.state = CBState.OPEN`

			`logger.exception(`
			`"Health check failed, due to exception",`
			`exc_info=e.original_exception,`
			`)`

			`if on_error:`
			`on_error(e.original_exception)`
			`except TimeoutError:`
			`raise TimeoutError(`
			`"Health check execution exceeds health_check_interval"`
			`)`

			`def _on_circuit_state_change_callback(`
			`self, circuit: CircuitBreaker, old_state: CBState, new_state: CBState`
			`):`
			`if new_state == CBState.HALF_OPEN:`
			`self._check_db_health(circuit.database)`
			`return`

			`if old_state == CBState.CLOSED and new_state == CBState.OPEN:`
			`self._bg_scheduler.run_once(`
			`DEFAULT_GRACE_PERIOD, _half_open_circuit, circuit`
			`)`

			`def close(self):`
			`"""`
			`Closes the client and all its resources.`
			`"""`
			`if self._bg_scheduler:`
			`self._bg_scheduler.stop()`
			`if self.command_executor.active_database:`
			`self.command_executor.active_database.client.close()`


			`def _half_open_circuit(circuit: CircuitBreaker):`
			`circuit.state = CBState.HALF_OPEN`


			`class Pipeline(RedisModuleCommands, CoreCommands):`
			`"""`
			`Pipeline implementation for multiple logical Redis databases.`
			`"""`

			`def __init__(self, client: MultiDBClient):`
			`self._command_stack = []`
			`self._client = client`

			`def __enter__(self) -> "Pipeline":`
			`return self`

			`def __exit__(self, exc_type, exc_value, traceback):`
			`self.reset()`

			`def __del__(self):`
			`try:`
			`self.reset()`
			`except Exception:`
			`pass`

			`def __len__(self) -> int:`
			`return len(self._command_stack)`

			`def __bool__(self) -> bool:`
			`"""Pipeline instances should always evaluate to True"""`
			`return True`

			`def reset(self) -> None:`
			`self._command_stack = []`

			`def close(self) -> None:`
			`"""Close the pipeline"""`
			`self.reset()`

			`def pipeline_execute_command(self, args, *options) -> "Pipeline":`
			`"""`
			`Stage a command to be executed when execute() is next called`

			`Returns the current Pipeline object back so commands can be`
			`chained together, such as:`

			`pipe = pipe.set('foo', 'bar').incr('baz').decr('bang')`

			`At some other point, you can then run: pipe.execute(),`
			`which will execute all commands queued in the pipe.`
			`"""`
			`self._command_stack.append((args, options))`
			`return self`

			`def execute_command(self, args, *kwargs):`
			`"""Adds a command to the stack"""`
			`return self.pipeline_execute_command(args, *kwargs)`

			`def execute(self) -> List[Any]:`
			`"""Execute all the commands in the current pipeline"""`
			`if not self._client.initialized:`
			`self._client.initialize()`

			`try:`
			`return self._client.command_executor.execute_pipeline(`
			`tuple(self._command_stack)`
			`)`
			`finally:`
			`self.reset()`


			`class PubSub:`
			`"""`
			`PubSub object for multi database client.`
			`"""`

			`def __init__(self, client: MultiDBClient, **kwargs):`
			`"""Initialize the PubSub object for a multi-database client.`

			`Args:`
			`client: MultiDBClient instance to use for pub/sub operations`
			`**kwargs: Additional keyword arguments to pass to the underlying pubsub implementation`
			`"""`

			`self._client = client`
			`self._client.command_executor.pubsub(**kwargs)`

			`def __enter__(self) -> "PubSub":`
			`return self`

			`def __del__(self) -> None:`
			`try:`
			`# if this object went out of scope prior to shutting down`
			`# subscriptions, close the connection manually before`
			`# returning it to the connection pool`
			`self.reset()`
			`except Exception:`
			`pass`

			`def reset(self) -> None:`
			`return self._client.command_executor.execute_pubsub_method("reset")`

			`def close(self) -> None:`
			`self.reset()`

			`@property`
			`def subscribed(self) -> bool:`
			`return self._client.command_executor.active_pubsub.subscribed`

			`def execute_command(self, *args):`
			`return self._client.command_executor.execute_pubsub_method(`
			`"execute_command", *args`
			`)`

			`def psubscribe(self, args, *kwargs):`
			`"""`
			`Subscribe to channel patterns. Patterns supplied as keyword arguments`
			`expect a pattern name as the key and a callable as the value. A`
			`pattern's callable will be invoked automatically when a message is`
			`received on that pattern rather than producing a message via`
			``listen()``.
			`"""`
			`return self._client.command_executor.execute_pubsub_method(`
			`"psubscribe", args, *kwargs`
			`)`

			`def punsubscribe(self, *args):`
			`"""`
			`Unsubscribe from the supplied patterns. If empty, unsubscribe from`
			`all patterns.`
			`"""`
			`return self._client.command_executor.execute_pubsub_method(`
			`"punsubscribe", *args`
			`)`

			`def subscribe(self, args, *kwargs):`
			`"""`
			`Subscribe to channels. Channels supplied as keyword arguments expect`
			`a channel name as the key and a callable as the value. A channel's`
			`callable will be invoked automatically when a message is received on`
			that channel rather than producing a message via ``listen()`` or
			``get_message()``.
			`"""`
			`return self._client.command_executor.execute_pubsub_method(`
			`"subscribe", args, *kwargs`
			`)`

			`def unsubscribe(self, *args):`
			`"""`
			`Unsubscribe from the supplied channels. If empty, unsubscribe from`
			`all channels`
			`"""`
			`return self._client.command_executor.execute_pubsub_method("unsubscribe", *args)`

			`def ssubscribe(self, args, *kwargs):`
			`"""`
			`Subscribes the client to the specified shard channels.`
			`Channels supplied as keyword arguments expect a channel name as the key`
			`and a callable as the value. A channel's callable will be invoked automatically`
			`when a message is received on that channel rather than producing a message via`
			``listen()`` or ``get_sharded_message()``.
			`"""`
			`return self._client.command_executor.execute_pubsub_method(`
			`"ssubscribe", args, *kwargs`
			`)`

			`def sunsubscribe(self, *args):`
			`"""`
			`Unsubscribe from the supplied shard_channels. If empty, unsubscribe from`
			`all shard_channels`
			`"""`
			`return self._client.command_executor.execute_pubsub_method(`
			`"sunsubscribe", *args`
			`)`

			`def get_message(`
			`self, ignore_subscribe_messages: bool = False, timeout: float = 0.0`
			`):`
			`"""`
			`Get the next message if one is available, otherwise None.`

			If timeout is specified, the system will wait for `timeout` seconds
			`before returning. Timeout should be specified as a floating point`
			`number, or None, to wait indefinitely.`
			`"""`
			`return self._client.command_executor.execute_pubsub_method(`
			`"get_message",`
			`ignore_subscribe_messages=ignore_subscribe_messages,`
			`timeout=timeout,`
			`)`

			`def get_sharded_message(`
			`self, ignore_subscribe_messages: bool = False, timeout: float = 0.0`
			`):`
			`"""`
			`Get the next message if one is available in a sharded channel, otherwise None.`

			If timeout is specified, the system will wait for `timeout` seconds
			`before returning. Timeout should be specified as a floating point`
			`number, or None, to wait indefinitely.`
			`"""`
			`return self._client.command_executor.execute_pubsub_method(`
			`"get_sharded_message",`
			`ignore_subscribe_messages=ignore_subscribe_messages,`
			`timeout=timeout,`
			`)`

			`def run_in_thread(`
			`self,`
			`sleep_time: float = 0.0,`
			`daemon: bool = False,`
			`exception_handler: Optional[Callable] = None,`
			`sharded_pubsub: bool = False,`
			`) -> "PubSubWorkerThread":`
			`return self._client.command_executor.execute_pubsub_run(`
			`sleep_time,`
			`daemon=daemon,`
			`exception_handler=exception_handler,`
			`pubsub=self,`
			`sharded_pubsub=sharded_pubsub,`
			`)`