mirror of
https://github.com/python-kasa/python-kasa.git
synced 2024-12-22 19:23:34 +00:00
296af3192e
Addresses an issue with how `asyncclick` deals with `KeyboardInterrupt` errors. Instead of the `click.main` receiving `KeyboardInterrupt` it receives `CancelledError` because it's a task running inside the loop. Also ensures that discovery catches the `CancelledError` and closes the http clients.
259 lines
8.2 KiB
Python
259 lines
8.2 KiB
Python
"""Common cli module."""
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from __future__ import annotations
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import asyncio
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import json
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import re
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import sys
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from collections.abc import Callable
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from contextlib import contextmanager
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from functools import singledispatch, update_wrapper, wraps
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from gettext import gettext
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from typing import TYPE_CHECKING, Any, Final
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import asyncclick as click
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from kasa import (
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Device,
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)
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# Value for optional options if passed without a value
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OPTIONAL_VALUE_FLAG: Final = "_FLAG_"
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# Block list of commands which require no update
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SKIP_UPDATE_COMMANDS = ["raw-command", "command"]
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pass_dev = click.make_pass_decorator(Device) # type: ignore[type-abstract]
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try:
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from rich import print as _echo
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except ImportError:
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# Strip out rich formatting if rich is not installed
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# but only lower case tags to avoid stripping out
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# raw data from the device that is printed from
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# the device state.
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rich_formatting = re.compile(r"\[/?[a-z]+]")
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def _strip_rich_formatting(echo_func):
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"""Strip rich formatting from messages."""
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@wraps(echo_func)
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def wrapper(message=None, *args, **kwargs) -> None:
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if message is not None:
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message = rich_formatting.sub("", message)
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echo_func(message, *args, **kwargs)
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return wrapper
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_echo = _strip_rich_formatting(click.echo)
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def echo(*args, **kwargs) -> None:
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"""Print a message."""
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ctx = click.get_current_context().find_root()
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if "json" not in ctx.params or ctx.params["json"] is False:
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_echo(*args, **kwargs)
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def error(msg: str) -> None:
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"""Print an error and exit."""
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echo(f"[bold red]{msg}[/bold red]")
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sys.exit(1)
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def json_formatter_cb(result: Any, **kwargs) -> None:
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"""Format and output the result as JSON, if requested."""
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if not kwargs.get("json"):
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return
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@singledispatch
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def to_serializable(val):
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"""Regular obj-to-string for json serialization.
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The singledispatch trick is from hynek: https://hynek.me/articles/serialization/
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"""
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return str(val)
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@to_serializable.register(Device)
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def _device_to_serializable(val: Device):
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"""Serialize smart device data, just using the last update raw payload."""
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return val.internal_state
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json_content = json.dumps(result, indent=4, default=to_serializable)
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print(json_content)
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def pass_dev_or_child(wrapped_function: Callable) -> Callable:
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"""Pass the device or child to the click command based on the child options."""
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child_help = (
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"Child ID or alias for controlling sub-devices. "
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"If no value provided will show an interactive prompt allowing you to "
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"select a child."
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)
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child_index_help = "Child index controlling sub-devices"
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@contextmanager
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def patched_device_update(parent: Device, child: Device):
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try:
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orig_update = child.update
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# patch child update method. Can be removed once update can be called
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# directly on child devices
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child.update = parent.update # type: ignore[method-assign]
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yield child
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finally:
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child.update = orig_update # type: ignore[method-assign]
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@click.pass_obj
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@click.pass_context
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@click.option(
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"--child",
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"--name",
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is_flag=False,
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flag_value=OPTIONAL_VALUE_FLAG,
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default=None,
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required=False,
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type=click.STRING,
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help=child_help,
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)
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@click.option(
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"--child-index",
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"--index",
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required=False,
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default=None,
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type=click.INT,
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help=child_index_help,
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)
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async def wrapper(ctx: click.Context, dev, *args, child, child_index, **kwargs):
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if child := await _get_child_device(dev, child, child_index, ctx.info_name):
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ctx.obj = ctx.with_resource(patched_device_update(dev, child))
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dev = child
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return await ctx.invoke(wrapped_function, dev, *args, **kwargs)
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# Update wrapper function to look like wrapped function
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return update_wrapper(wrapper, wrapped_function)
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async def _get_child_device(
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device: Device,
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child_option: str | None,
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child_index_option: int | None,
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info_command: str | None,
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) -> Device | None:
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def _list_children():
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return "\n".join(
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[
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f"{idx}: {child.device_id} ({child.alias})"
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for idx, child in enumerate(device.children)
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]
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)
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if child_option is None and child_index_option is None:
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return None
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if info_command in SKIP_UPDATE_COMMANDS:
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# The device hasn't had update called (e.g. for cmd_command)
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# The way child devices are accessed requires a ChildDevice to
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# wrap the communications. Doing this properly would require creating
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# a common interfaces for both IOT and SMART child devices.
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# As a stop-gap solution, we perform an update instead.
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await device.update()
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if not device.children:
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error(f"Device: {device.host} does not have children")
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if child_option is not None and child_index_option is not None:
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raise click.BadOptionUsage(
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"child", "Use either --child or --child-index, not both."
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)
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if child_option is not None:
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if child_option is OPTIONAL_VALUE_FLAG:
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msg = _list_children()
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child_index_option = click.prompt(
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f"\n{msg}\nEnter the index number of the child device",
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type=click.IntRange(0, len(device.children) - 1),
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)
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elif child := device.get_child_device(child_option):
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echo(f"Targeting child device {child.alias}")
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return child
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else:
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error(
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"No child device found with device_id or name: "
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f"{child_option} children are:\n{_list_children()}"
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)
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if TYPE_CHECKING:
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assert isinstance(child_index_option, int)
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if child_index_option + 1 > len(device.children) or child_index_option < 0:
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error(
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f"Invalid index {child_index_option}, "
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f"device has {len(device.children)} children"
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)
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child_by_index = device.children[child_index_option]
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echo(f"Targeting child device {child_by_index.alias}")
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return child_by_index
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def CatchAllExceptions(cls):
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"""Capture all exceptions and prints them nicely.
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Idea from https://stackoverflow.com/a/44347763 and
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https://stackoverflow.com/questions/52213375
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"""
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def _handle_exception(debug, exc) -> None:
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if isinstance(exc, click.ClickException):
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raise
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# Handle exit request from click.
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if isinstance(exc, click.exceptions.Exit):
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sys.exit(exc.exit_code)
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if isinstance(exc, click.exceptions.Abort):
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sys.exit(0)
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echo(f"Raised error: {exc}")
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if debug:
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raise
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echo("Run with --debug enabled to see stacktrace")
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sys.exit(1)
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class _CommandCls(cls):
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_debug = False
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async def make_context(self, info_name, args, parent=None, **extra):
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self._debug = any(
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[arg for arg in args if arg in ["--debug", "-d", "--verbose", "-v"]]
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)
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try:
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return await super().make_context(
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info_name, args, parent=parent, **extra
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)
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except Exception as exc:
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_handle_exception(self._debug, exc)
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async def invoke(self, ctx):
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try:
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return await super().invoke(ctx)
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except Exception as exc:
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_handle_exception(self._debug, exc)
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def __call__(self, *args, **kwargs):
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"""Run the coroutine in the event loop and print any exceptions.
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python click catches KeyboardInterrupt in main, raises Abort()
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and does sys.exit. asyncclick doesn't properly handle a coroutine
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receiving CancelledError on a KeyboardInterrupt, so we catch the
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KeyboardInterrupt here once asyncio.run has re-raised it. This
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avoids large stacktraces when a user presses Ctrl-C.
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"""
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try:
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asyncio.run(self.main(*args, **kwargs))
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except KeyboardInterrupt:
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click.echo(gettext("\nAborted!"), file=sys.stderr)
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sys.exit(1)
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return _CommandCls
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