platypush/platypush/backend/__init__.py

406 lines
15 KiB
Python

"""
.. moduleauthor:: Fabio Manganiello <blacklight86@gmail.com>
.. license: MIT
"""
import logging
import re
import socket
import time
from threading import Thread, Event as ThreadEvent, get_ident
from typing import Optional, Dict
from platypush.bus import Bus
from platypush.common import ExtensionWithManifest
from platypush.config import Config
from platypush.context import get_backend
from platypush.message.event.zeroconf import ZeroconfServiceAddedEvent, ZeroconfServiceRemovedEvent
from platypush.utils import set_timeout, clear_timeout, \
get_redis_queue_name_by_message, set_thread_name, get_backend_name_by_class
from platypush import __version__
from platypush.event import EventGenerator
from platypush.message import Message
from platypush.message.event import Event
from platypush.message.request import Request
from platypush.message.response import Response
class Backend(Thread, EventGenerator, ExtensionWithManifest):
"""
Parent class for backends.
A backend is basically a thread that checks for new events on some channel
(e.g. a network socket, a queue, some new entries on an API endpoint or an
RSS feed, a voice command through an assistant, a new measure from a sensor
etc.) and propagates event messages to the main application bus whenever a
new event happens. You can then build whichever type of custom logic you
want on such events.
"""
_default_response_timeout = 5
# Loop function, can be implemented by derived classes
loop = None
def __init__(self, bus: Optional[Bus] = None, poll_seconds: Optional[float] = None, **kwargs):
"""
:param bus: Reference to the bus object to be used in the backend
:param poll_seconds: If the backend implements a ``loop`` method, this parameter expresses how often the
loop should run in seconds.
:param kwargs: Key-value configuration for the backend
"""
self._thread_name = self.__class__.__name__
EventGenerator.__init__(self)
ExtensionWithManifest.__init__(self)
Thread.__init__(self, name=self._thread_name, daemon=True)
# If no bus is specified, create an internal queue where
# the received messages will be pushed
self.bus = bus or Bus()
self.poll_seconds = float(poll_seconds) if poll_seconds else None
self.device_id = Config.get('device_id')
self.thread_id = None
self._stop_event = ThreadEvent()
self._kwargs = kwargs
self.logger = logging.getLogger('platypush:backend:' + get_backend_name_by_class(self.__class__))
self.zeroconf = None
self.zeroconf_info = None
# Internal-only, we set the request context on a backend if that
# backend is intended to react for a response to a specific request
self._request_context = kwargs['_req_ctx'] if '_req_ctx' in kwargs \
else None
if 'logging' in kwargs:
self.logger.setLevel(getattr(logging, kwargs.get('logging').upper()))
def on_message(self, msg):
"""
Callback when a message is received on the backend.
It parses and posts the message on the main bus.
It should be called by the derived classes whenever
a new message should be processed.
:param msg: Received message. It can be either a key-value dictionary, a platypush.message.Message object,
or a string/byte UTF-8 encoded string
"""
msg = Message.build(msg)
if not getattr(msg, 'target') or msg.target != self.device_id:
return # Not for me
self.logger.debug('Message received on the {} backend: {}'.format(
self.__class__.__name__, msg))
if self._is_expected_response(msg):
# Expected response, trigger the response handler
clear_timeout()
self._request_context['on_response'](msg)
self.stop()
return
msg.backend = self # Augment message to be able to process responses
self.bus.post(msg)
def _is_expected_response(self, msg):
""" Internal only - returns true if we are expecting for a response
and msg is that response """
return self._request_context \
and isinstance(msg, Response) \
and msg.id == self._request_context['request'].id
def _get_backend_config(self):
config_name = 'backend.' + self.__class__.__name__.split('Backend')[0].lower()
return Config.get(config_name)
def _setup_response_handler(self, request, on_response, response_timeout):
def _timeout_hndl():
raise RuntimeError('Timed out while waiting for a response from {}'.
format(request.target))
req_ctx = {
'request': request,
'on_response': on_response,
'response_timeout': response_timeout,
}
resp_backend = self.__class__(bus=self.bus, _req_ctx=req_ctx,
**self._get_backend_config(), **self._kwargs)
# Set the response timeout
if response_timeout:
set_timeout(seconds=response_timeout, on_timeout=_timeout_hndl)
resp_backend.start()
def send_event(self, event, **kwargs):
"""
Send an event message on the backend.
:param event: Event to send. It can be a dict, a string/bytes UTF-8 JSON, or a platypush.message.event.Event
object.
"""
event = Event.build(event)
assert isinstance(event, Event)
event.origin = self.device_id
if not hasattr(event, 'target'):
event.target = self.device_id
self.send_message(event, **kwargs)
def send_request(self, request, on_response=None,
response_timeout=_default_response_timeout, **kwargs):
"""
Send a request message on the backend.
:param request: The request, either a dict, a string/bytes UTF-8 JSON, or a platypush.message.request.Request
object.
:param on_response: Optional callback that will be called when a response is received. If set, this method will
synchronously wait for a response before exiting.
:type on_response: function
:param response_timeout: If on_response is set, the backend will raise an exception if the response isn't
received within this number of seconds (default: None)
:type response_timeout: float
"""
request = Request.build(request)
assert isinstance(request, Request)
request.origin = self.device_id
if on_response and response_timeout != 0:
self._setup_response_handler(request, on_response, response_timeout)
self.send_message(request, **kwargs)
def send_response(self, response, request, **kwargs):
"""
Send a response message on the backend.
:param response: The response, either a dict, a string/bytes UTF-8 JSON, or a
:class:`platypush.message.response.Response` object.
:param request: Associated request, used to set the response parameters that will link them
"""
assert isinstance(response, Response)
assert isinstance(request, Request)
self.send_message(response, **kwargs)
def send_message(self, msg, queue_name=None, **kwargs):
"""
Sends a platypush.message.Message to a node.
To be implemented in the derived classes. By default, if the Redis
backend is configured then it will try to deliver the message to
other consumers through the configured Redis main queue.
:param msg: The message to send
:param queue_name: Send the message on a specific queue (default: the queue_name configured on the Redis
backend)
"""
try:
redis = get_backend('redis')
if not redis:
raise KeyError()
except KeyError:
self.logger.warning("Backend {} does not implement send_message " +
"and the fallback Redis backend isn't configured")
return
redis.send_message(msg, queue_name=queue_name)
def run(self):
""" Starts the backend thread. To be implemented in the derived classes if the loop method isn't defined. """
self.thread_id = get_ident()
set_thread_name(self._thread_name)
if not callable(self.loop):
return
while not self.should_stop():
try:
with self:
has_error = False
while not self.should_stop() and not has_error:
try:
self.loop()
except Exception as e:
has_error = True
self.logger.error(str(e))
self.logger.exception(e)
finally:
if self.poll_seconds:
time.sleep(self.poll_seconds)
elif has_error:
time.sleep(5)
except Exception as e:
self.logger.error('{} initialization error: {}'.format(self.__class__.__name__, str(e)))
self.logger.exception(e)
time.sleep(self.poll_seconds or 5)
def __enter__(self):
""" Invoked when the backend is initialized, if the main logic is within a ``loop()`` function """
self.logger.info('Initialized backend {}'.format(self.__class__.__name__))
def __exit__(self, exc_type, exc_val, exc_tb):
""" Invoked when the backend is terminated, if the main logic is within a ``loop()`` function """
self.on_stop()
self.logger.info('Terminated backend {}'.format(self.__class__.__name__))
def on_stop(self):
""" Callback invoked when the process stops """
pass
def stop(self):
""" Stops the backend thread by sending a STOP event on its bus """
def _async_stop():
self._stop_event.set()
self.unregister_service()
self.on_stop()
Thread(target=_async_stop).start()
def should_stop(self):
return self._stop_event.is_set()
def wait_stop(self, timeout=None) -> bool:
return self._stop_event.wait(timeout)
def _get_redis(self):
import redis
redis_backend = get_backend('redis')
if not redis_backend:
self.logger.warning('Redis backend not configured - some ' +
'web server features may not be working properly')
redis_args = {}
else:
redis_args = redis_backend.redis_args
redis = redis.Redis(**redis_args)
return redis
def get_message_response(self, msg):
try:
redis = self._get_redis()
response = redis.blpop(get_redis_queue_name_by_message(msg), timeout=60)
if response and len(response) > 1:
response = Message.build(response[1])
else:
response = None
return response
except Exception as e:
self.logger.error('Error while processing response to {}: {}'.format(msg, str(e)))
@staticmethod
def _get_ip() -> str:
"""
Get the IP address of the machine.
"""
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.connect(('8.8.8.8', 80))
addr = s.getsockname()[0]
s.close()
return addr
def register_service(self,
port: Optional[int] = None,
name: Optional[str] = None,
srv_type: Optional[str] = None,
srv_name: Optional[str] = None,
udp: bool = False,
properties: Optional[Dict] = None):
"""
Initialize the Zeroconf service configuration for this backend.
:param port: Service listen port (default: the backend ``port`` attribute if available, or ``None``).
:param name: Service short name (default: backend name).
:param srv_type: Service type (default: ``_platypush-{name}._{proto}.local.``).
:param srv_name: Full service name (default: ``{hostname or device_id}.{type}``).
:param udp: Set to True if this is a UDP service.
:param properties: Extra properties to be passed on the service. Default:
.. code-block:: json
{
"name": "Platypush",
"vendor": "Platypush",
"version": "{platypush_version}"
}
"""
try:
from zeroconf import ServiceInfo, Zeroconf
from platypush.plugins.zeroconf import ZeroconfListener
except ImportError:
self.logger.warning('zeroconf package not available, service discovery will be disabled.')
return
self.zeroconf = Zeroconf()
srv_desc = {
'name': 'Platypush',
'vendor': 'Platypush',
'version': __version__,
**(properties or {}),
}
name = name or re.sub(r'Backend$', '', self.__class__.__name__).lower()
srv_type = srv_type or '_platypush-{name}._{proto}.local.'.format(name=name, proto='udp' if udp else 'tcp')
srv_name = srv_name or '{host}.{type}'.format(host=self.device_id, type=srv_type)
if port:
srv_port = port
else:
srv_port = self.port if hasattr(self, 'port') else None
self.zeroconf_info = ServiceInfo(srv_type, srv_name,
addresses=[socket.inet_aton(self._get_ip())],
port=srv_port,
weight=0,
priority=0,
properties=srv_desc)
if not self.zeroconf_info:
self.logger.warning('Could not register Zeroconf service')
return
self.zeroconf.register_service(self.zeroconf_info)
self.bus.post(ZeroconfServiceAddedEvent(service_type=srv_type, service_name=srv_name,
service_info=ZeroconfListener.parse_service_info(self.zeroconf_info)))
def unregister_service(self):
"""
Unregister the Zeroconf service configuration if available.
"""
if self.zeroconf and self.zeroconf_info:
try:
self.zeroconf.unregister_service(self.zeroconf_info)
except Exception as e:
self.logger.warning('Could not register Zeroconf service {}: {}: {}'.format(
self.zeroconf_info.name, type(e).__name__, str(e)))
if self.zeroconf:
self.zeroconf.close()
if self.zeroconf_info:
self.bus.post(ZeroconfServiceRemovedEvent(service_type=self.zeroconf_info.type,
service_name=self.zeroconf_info.name))
else:
self.bus.post(ZeroconfServiceRemovedEvent(service_type=None, service_name=None))
self.zeroconf_info = None
self.zeroconf = None
# vim:sw=4:ts=4:et: