ha_xiaomi_home/custom_components/xiaomi_home/miot/miot_ev.py

# -*- coding: utf-8 -*-
"""
Copyright (C) 2024 Xiaomi Corporation.

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Integration and related Xiaomi cloud service API interface provided under this
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MIoT event loop.
"""
import selectors
import heapq
import time
import traceback
from typing import Callable, TypeVar
import logging
import threading

from .miot_error import MIoTEvError

_LOGGER = logging.getLogger(__name__)

TimeoutHandle = TypeVar('TimeoutHandle')


class MIoTFdHandler:
    """File descriptor handler."""
    fd: int
    read_handler: Callable[[any], None]
    read_handler_ctx: any
    write_handler: Callable[[any], None]
    write_handler_ctx: any

    def __init__(
            self, fd: int,
            read_handler: Callable[[any], None] = None,
            read_handler_ctx: any = None,
            write_handler: Callable[[any], None] = None,
            write_handler_ctx: any = None
    ) -> None:
        self.fd = fd
        self.read_handler = read_handler
        self.read_handler_ctx = read_handler_ctx
        self.write_handler = write_handler
        self.write_handler_ctx = write_handler_ctx


class MIoTTimeout:
    """Timeout handler."""
    key: TimeoutHandle
    target: int
    handler: Callable[[any], None]
    handler_ctx: any

    def __init__(
            self, key: str = None, target: int = None,
            handler: Callable[[any], None] = None,
            handler_ctx: any = None
    ) -> None:
        self.key = key
        self.target = target
        self.handler = handler
        self.handler_ctx = handler_ctx

    def __lt__(self, other):
        return self.target < other.target


class MIoTEventLoop:
    """MIoT event loop."""
    _poll_fd: selectors.DefaultSelector

    _fd_handlers: dict[str, MIoTFdHandler]

    _timer_heap: list[MIoTTimeout]
    _timer_handlers: dict[str, MIoTTimeout]
    _timer_handle_seed: int

    # Label if the current fd handler is freed inside a read handler to
    # avoid invalid reading.
    _fd_handler_freed_in_read_handler: bool

    def __init__(self) -> None:
        self._poll_fd = selectors.DefaultSelector()
        self._timer_heap = []
        self._timer_handlers = {}
        self._timer_handle_seed = 1
        self._fd_handlers = {}
        self._fd_handler_freed_in_read_handler = False

    def loop_forever(self) -> None:
        """Run an event loop in current thread."""
        next_timeout: int
        while True:
            next_timeout = 0
            # Handle timer
            now_ms: int = self.__get_monotonic_ms
            while len(self._timer_heap) > 0:
                timer: MIoTTimeout = self._timer_heap[0]
                if timer is None:
                    break
                if timer.target <= now_ms:
                    heapq.heappop(self._timer_heap)
                    del self._timer_handlers[timer.key]
                    if timer.handler:
                        timer.handler(timer.handler_ctx)
                else:
                    next_timeout = timer.target-now_ms
                    break
            # Are there any files to listen to
            if next_timeout == 0 and self._fd_handlers:
                next_timeout = None  # None == infinite
            # Wait for timers & fds
            if next_timeout == 0:
                # Neither timer nor fds exist, exit loop
                break
            # Handle fd event
            events = self._poll_fd.select(
                timeout=next_timeout/1000.0 if next_timeout else next_timeout)
            for key, mask in events:
                fd_handler: MIoTFdHandler = key.data
                if fd_handler is None:
                    continue
                self._fd_handler_freed_in_read_handler = False
                fd_key = str(id(fd_handler.fd))
                if fd_key not in self._fd_handlers:
                    continue
                if (
                    mask & selectors.EVENT_READ > 0
                    and fd_handler.read_handler
                ):
                    fd_handler.read_handler(fd_handler.read_handler_ctx)
                if (
                    mask & selectors.EVENT_WRITE > 0
                    and self._fd_handler_freed_in_read_handler is False
                    and fd_handler.write_handler
                ):
                    fd_handler.write_handler(fd_handler.write_handler_ctx)

    def loop_stop(self) -> None:
        """Stop the event loop."""
        if self._poll_fd:
            self._poll_fd.close()
            self._poll_fd = None
            self._fd_handlers = {}
            self._timer_heap = []
            self._timer_handlers = {}

    def set_timeout(
        self, timeout_ms: int, handler: Callable[[any], None],
        handler_ctx: any = None
    ) -> TimeoutHandle:
        """Set a timer."""
        if timeout_ms is None or handler is None:
            raise MIoTEvError('invalid params')
        new_timeout: MIoTTimeout = MIoTTimeout()
        new_timeout.key = self.__get_next_timeout_handle
        new_timeout.target = self.__get_monotonic_ms + timeout_ms
        new_timeout.handler = handler
        new_timeout.handler_ctx = handler_ctx
        heapq.heappush(self._timer_heap, new_timeout)
        self._timer_handlers[new_timeout.key] = new_timeout
        return new_timeout.key

    def clear_timeout(self, timer_key: TimeoutHandle) -> None:
        """Stop and remove the timer."""
        if timer_key is None:
            return
        timer: MIoTTimeout = self._timer_handlers.pop(timer_key, None)
        if timer:
            self._timer_heap = list(self._timer_heap)
            self._timer_heap.remove(timer)
            heapq.heapify(self._timer_heap)

    def set_read_handler(
        self, fd: int, handler: Callable[[any], None], handler_ctx: any = None
    ) -> bool:
        """Set a read handler for a file descriptor.

        Returns:
            bool: True, success. False, failed.
        """
        self.__set_handler(
            fd, is_read=True, handler=handler, handler_ctx=handler_ctx)

    def set_write_handler(
        self, fd: int, handler: Callable[[any], None], handler_ctx: any = None
    ) -> bool:
        """Set a write handler for a file descriptor.

        Returns:
            bool: True, success. False, failed.
        """
        self.__set_handler(
            fd, is_read=False, handler=handler, handler_ctx=handler_ctx)

    def __set_handler(
        self, fd, is_read: bool, handler: Callable[[any], None],
        handler_ctx: any = None
    ) -> bool:
        """Set a handler."""
        if fd is None:
            raise MIoTEvError('invalid params')

        fd_key: str = str(id(fd))
        fd_handler = self._fd_handlers.get(fd_key, None)

        if fd_handler is None:
            fd_handler = MIoTFdHandler(fd=fd)
            fd_handler.fd = fd
            self._fd_handlers[fd_key] = fd_handler

        read_handler_existed = fd_handler.read_handler is not None
        write_handler_existed = fd_handler.write_handler is not None
        if is_read is True:
            fd_handler.read_handler = handler
            fd_handler.read_handler_ctx = handler_ctx
        else:
            fd_handler.write_handler = handler
            fd_handler.write_handler_ctx = handler_ctx

        if fd_handler.read_handler is None and fd_handler.write_handler is None:
            # Remove from epoll and map
            try:
                self._poll_fd.unregister(fd)
            except (KeyError, ValueError, OSError) as e:
                del e
            self._fd_handlers.pop(fd_key, None)
            # May be inside a read handler, if not, this has no effect
            self._fd_handler_freed_in_read_handler = True
        elif read_handler_existed is False and write_handler_existed is False:
            # Add to epoll
            events = 0x0
            if fd_handler.read_handler:
                events |= selectors.EVENT_READ
            if fd_handler.write_handler:
                events |= selectors.EVENT_WRITE
            try:
                self._poll_fd.register(fd, events=events, data=fd_handler)
            except (KeyError, ValueError, OSError) as e:
                _LOGGER.error(
                    '%s, register fd, error, %s, %s, %s, %s, %s',
                    threading.current_thread().name,
                    'read' if is_read else 'write',
                    fd_key, handler, e, traceback.format_exc())
                self._fd_handlers.pop(fd_key, None)
                return False
        elif (
            read_handler_existed != (fd_handler.read_handler is not None)
            or write_handler_existed != (fd_handler.write_handler is not None)
        ):
            # Modify epoll
            events = 0x0
            if fd_handler.read_handler:
                events |= selectors.EVENT_READ
            if fd_handler.write_handler:
                events |= selectors.EVENT_WRITE
            try:
                self._poll_fd.modify(fd, events=events, data=fd_handler)
            except (KeyError, ValueError, OSError) as e:
                _LOGGER.error(
                    '%s, modify fd, error, %s, %s, %s, %s, %s',
                    threading.current_thread().name,
                    'read' if is_read else 'write',
                    fd_key, handler, e, traceback.format_exc())
                self._fd_handlers.pop(fd_key, None)
                return False

        return True

    @property
    def __get_next_timeout_handle(self) -> str:
        # Get next timeout handle, that is not larger than the maximum
        # value of UINT64 type.
        self._timer_handle_seed += 1
        # uint64 max
        self._timer_handle_seed %= 0xFFFFFFFFFFFFFFFF
        return str(self._timer_handle_seed)

    @property
    def __get_monotonic_ms(self) -> int:
        """Get monotonic ms timestamp."""
        return int(time.monotonic()*1000)