Innovenergy_trunk/firmware/Venus_Release/VenusReleaseFiles/pika-0.13.1/examples/twisted_service.py

"""
# -*- coding:utf-8 -*-
# based on:
#  - txamqp-helpers by Dan Siemon <dan@coverfire.com> (March 2010)
#    http://git.coverfire.com/?p=txamqp-twistd.git;a=tree
#  - Post by Brian Chandler
#    https://groups.google.com/forum/#!topic/pika-python/o_deVmGondk
#  - Pika Documentation
#    https://pika.readthedocs.io/en/latest/examples/twisted_example.html


Fire up this test application via `twistd -ny twisted_service.py`

The application will answer to requests to exchange "foobar" and any of the
routing_key values: "request1", "request2", or "request3"
with messages to the same exchange, but with routing_key "response"

When a routing_key of "task" is used on the exchange "foobar",
the application can asynchronously run a maximum of 2 tasks at once
as defined by PREFETCH_COUNT
"""

import pika
from pika import spec
from pika import exceptions
from pika.adapters import twisted_connection

from twisted.internet import protocol
from twisted.application import internet
from twisted.application import service
from twisted.internet.defer import inlineCallbacks
from twisted.internet import ssl, defer, task
from twisted.python import log
from twisted.internet import reactor

PREFETCH_COUNT = 2

class PikaService(service.MultiService):
    name = 'amqp'

    def __init__(self, parameter):
        service.MultiService.__init__(self)
        self.parameters = parameter

    def startService(self):
        self.connect()
        service.MultiService.startService(self)

    def getFactory(self):
        if len(self.services) > 0:
            return self.services[0].factory

    def connect(self):
        f = PikaFactory(self.parameters)
        if self.parameters.ssl:
            s = ssl.ClientContextFactory()
            serv = internet.SSLClient(host=self.parameters.host, port=self.parameters.port, factory=f, contextFactory=s)
        else:
            serv = internet.TCPClient(host=self.parameters.host, port=self.parameters.port, factory=f)
        serv.factory = f
        f.service = serv
        name = '%s%s:%d' % ('ssl:' if self.parameters.ssl else '', self.parameters.host, self.parameters.port)
        serv.__repr__ = lambda : '<AMQP Connection to %s>' % name
        serv.setName(name)
        serv.parent = self
        self.addService(serv)


class PikaProtocol(twisted_connection.TwistedProtocolConnection):
    connected = False
    name = 'AMQP:Protocol'

    @inlineCallbacks
    def connected(self, connection):
        self.channel = yield connection.channel()
        yield self.channel.basic_qos(prefetch_count=PREFETCH_COUNT)
        self.connected = True
        for (exchange, routing_key, callback,) in self.factory.read_list:
            yield self.setup_read(exchange, routing_key, callback)

        self.send()

    @inlineCallbacks
    def read(self, exchange, routing_key, callback):
        """Add an exchange to the list of exchanges to read from."""
        if self.connected:
            yield self.setup_read(exchange, routing_key, callback)

    @inlineCallbacks
    def setup_read(self, exchange, routing_key, callback):
        """This function does the work to read from an exchange."""
        if not exchange == '':
            yield self.channel.exchange_declare(exchange=exchange, exchange_type='topic', durable=True, auto_delete=False)

        yield self.channel.queue_declare(queue=routing_key, durable=True)
        yield self.channel.queue_bind(queue=routing_key, exchange=exchange, routing_key=routing_key)

        (queue, consumer_tag,) = yield self.channel.basic_consume(queue=routing_key, no_ack=False)
        d = queue.get()
        d.addCallback(self._read_item, queue, callback)
        d.addErrback(self._read_item_err)

    def _read_item(self, item, queue, callback):
        """Callback function which is called when an item is read."""
        d = queue.get()
        d.addCallback(self._read_item, queue, callback)
        d.addErrback(self._read_item_err)
        (channel, deliver, props, msg,) = item

        log.msg('%s (%s): %s' % (deliver.exchange, deliver.routing_key, repr(msg)), system='Pika:<=')
        d = defer.maybeDeferred(callback, item)
        d.addCallbacks(
            lambda _: channel.basic_ack(deliver.delivery_tag),
            lambda _: channel.basic_nack(deliver.delivery_tag)
        )

    def _read_item_err(self, error):
        print(error)

    def send(self):
        """If connected, send all waiting messages."""
        if self.connected:
            while len(self.factory.queued_messages) > 0:
                (exchange, r_key, message,) = self.factory.queued_messages.pop(0)
                self.send_message(exchange, r_key, message)

    @inlineCallbacks
    def send_message(self, exchange, routing_key, msg):
        """Send a single message."""
        log.msg('%s (%s): %s' % (exchange, routing_key, repr(msg)), system='Pika:=>')
        yield self.channel.exchange_declare(exchange=exchange, exchange_type='topic', durable=True, auto_delete=False)
        prop = spec.BasicProperties(delivery_mode=2)
        try:
            yield self.channel.basic_publish(exchange=exchange, routing_key=routing_key, body=msg, properties=prop)
        except Exception as error:
            log.msg('Error while sending message: %s' % error, system=self.name)


class PikaFactory(protocol.ReconnectingClientFactory):
    name = 'AMQP:Factory'

    def __init__(self, parameters):
        self.parameters = parameters
        self.client = None
        self.queued_messages = []
        self.read_list = []

    def startedConnecting(self, connector):
        log.msg('Started to connect.', system=self.name)

    def buildProtocol(self, addr):
        self.resetDelay()
        log.msg('Connected', system=self.name)
        self.client = PikaProtocol(self.parameters)
        self.client.factory = self
        self.client.ready.addCallback(self.client.connected)
        return self.client

    def clientConnectionLost(self, connector, reason):
        log.msg('Lost connection.  Reason: %s' % reason, system=self.name)
        protocol.ReconnectingClientFactory.clientConnectionLost(self, connector, reason)

    def clientConnectionFailed(self, connector, reason):
        log.msg('Connection failed. Reason: %s' % reason, system=self.name)
        protocol.ReconnectingClientFactory.clientConnectionFailed(self, connector, reason)

    def send_message(self, exchange = None, routing_key = None, message = None):
        self.queued_messages.append((exchange, routing_key, message))
        if self.client is not None:
            self.client.send()

    def read_messages(self, exchange, routing_key, callback):
        """Configure an exchange to be read from."""
        self.read_list.append((exchange, routing_key, callback))
        if self.client is not None:
            self.client.read(exchange, routing_key, callback)


application = service.Application("pikaapplication")

ps = PikaService(pika.ConnectionParameters(host="localhost", virtual_host="/", credentials=pika.PlainCredentials("guest", "guest")))
ps.setServiceParent(application)


class TestService(service.Service):

    def task(self, msg):
        """
        Method for a time consuming task.

        This function must return a deferred. If it is successfull,
        a `basic.ack` will be sent to AMQP. If the task was not completed a
        `basic.nack` will be sent. In this example it will always return
        successfully after a 2 second pause.
        """
        return task.deferLater(reactor, 2, lambda: log.msg("task completed"))

    def respond(self, msg):
        self.amqp.send_message('foobar', 'response', msg[3])

    def startService(self):
        self.amqp = self.parent.getServiceNamed("amqp").getFactory()
        self.amqp.read_messages("foobar", "request1", self.respond)
        self.amqp.read_messages("foobar", "request2", self.respond)
        self.amqp.read_messages("foobar", "request3", self.respond)
        self.amqp.read_messages("foobar", "task", self.task)

ts = TestService()
ts.setServiceParent(application)
add Venus Release document and scripts 2024-07-01 09:49:57 +00:00			`"""`
			`# -- coding:utf-8 --`
			`# based on:`
			`# - txamqp-helpers by Dan Siemon <dan@coverfire.com> (March 2010)`
			`# http://git.coverfire.com/?p=txamqp-twistd.git;a=tree`
			`# - Post by Brian Chandler`
			`# https://groups.google.com/forum/#!topic/pika-python/o_deVmGondk`
			`# - Pika Documentation`
			`# https://pika.readthedocs.io/en/latest/examples/twisted_example.html`


			Fire up this test application via `twistd -ny twisted_service.py`

			`The application will answer to requests to exchange "foobar" and any of the`
			`routing_key values: "request1", "request2", or "request3"`
			`with messages to the same exchange, but with routing_key "response"`

			`When a routing_key of "task" is used on the exchange "foobar",`
			`the application can asynchronously run a maximum of 2 tasks at once`
			`as defined by PREFETCH_COUNT`
			`"""`

			`import pika`
			`from pika import spec`
			`from pika import exceptions`
			`from pika.adapters import twisted_connection`

			`from twisted.internet import protocol`
			`from twisted.application import internet`
			`from twisted.application import service`
			`from twisted.internet.defer import inlineCallbacks`
			`from twisted.internet import ssl, defer, task`
			`from twisted.python import log`
			`from twisted.internet import reactor`

			`PREFETCH_COUNT = 2`

			`class PikaService(service.MultiService):`
			`name = 'amqp'`

			`def __init__(self, parameter):`
			`service.MultiService.__init__(self)`
			`self.parameters = parameter`

			`def startService(self):`
			`self.connect()`
			`service.MultiService.startService(self)`

			`def getFactory(self):`
			`if len(self.services) > 0:`
			`return self.services[0].factory`

			`def connect(self):`
			`f = PikaFactory(self.parameters)`
			`if self.parameters.ssl:`
			`s = ssl.ClientContextFactory()`
			`serv = internet.SSLClient(host=self.parameters.host, port=self.parameters.port, factory=f, contextFactory=s)`
			`else:`
			`serv = internet.TCPClient(host=self.parameters.host, port=self.parameters.port, factory=f)`
			`serv.factory = f`
			`f.service = serv`
			`name = '%s%s:%d' % ('ssl:' if self.parameters.ssl else '', self.parameters.host, self.parameters.port)`
			`serv.__repr__ = lambda : '<AMQP Connection to %s>' % name`
			`serv.setName(name)`
			`serv.parent = self`
			`self.addService(serv)`


			`class PikaProtocol(twisted_connection.TwistedProtocolConnection):`
			`connected = False`
			`name = 'AMQP:Protocol'`

			`@inlineCallbacks`
			`def connected(self, connection):`
			`self.channel = yield connection.channel()`
			`yield self.channel.basic_qos(prefetch_count=PREFETCH_COUNT)`
			`self.connected = True`
			`for (exchange, routing_key, callback,) in self.factory.read_list:`
			`yield self.setup_read(exchange, routing_key, callback)`

			`self.send()`

			`@inlineCallbacks`
			`def read(self, exchange, routing_key, callback):`
			`"""Add an exchange to the list of exchanges to read from."""`
			`if self.connected:`
			`yield self.setup_read(exchange, routing_key, callback)`

			`@inlineCallbacks`
			`def setup_read(self, exchange, routing_key, callback):`
			`"""This function does the work to read from an exchange."""`
			`if not exchange == '':`
			`yield self.channel.exchange_declare(exchange=exchange, exchange_type='topic', durable=True, auto_delete=False)`

			`yield self.channel.queue_declare(queue=routing_key, durable=True)`
			`yield self.channel.queue_bind(queue=routing_key, exchange=exchange, routing_key=routing_key)`

			`(queue, consumer_tag,) = yield self.channel.basic_consume(queue=routing_key, no_ack=False)`
			`d = queue.get()`
			`d.addCallback(self._read_item, queue, callback)`
			`d.addErrback(self._read_item_err)`

			`def _read_item(self, item, queue, callback):`
			`"""Callback function which is called when an item is read."""`
			`d = queue.get()`
			`d.addCallback(self._read_item, queue, callback)`
			`d.addErrback(self._read_item_err)`
			`(channel, deliver, props, msg,) = item`

			`log.msg('%s (%s): %s' % (deliver.exchange, deliver.routing_key, repr(msg)), system='Pika:<=')`
			`d = defer.maybeDeferred(callback, item)`
			`d.addCallbacks(`
			`lambda _: channel.basic_ack(deliver.delivery_tag),`
			`lambda _: channel.basic_nack(deliver.delivery_tag)`
			`)`

			`def _read_item_err(self, error):`
			`print(error)`

			`def send(self):`
			`"""If connected, send all waiting messages."""`
			`if self.connected:`
			`while len(self.factory.queued_messages) > 0:`
			`(exchange, r_key, message,) = self.factory.queued_messages.pop(0)`
			`self.send_message(exchange, r_key, message)`

			`@inlineCallbacks`
			`def send_message(self, exchange, routing_key, msg):`
			`"""Send a single message."""`
			`log.msg('%s (%s): %s' % (exchange, routing_key, repr(msg)), system='Pika:=>')`
			`yield self.channel.exchange_declare(exchange=exchange, exchange_type='topic', durable=True, auto_delete=False)`
			`prop = spec.BasicProperties(delivery_mode=2)`
			`try:`
			`yield self.channel.basic_publish(exchange=exchange, routing_key=routing_key, body=msg, properties=prop)`
			`except Exception as error:`
			`log.msg('Error while sending message: %s' % error, system=self.name)`


			`class PikaFactory(protocol.ReconnectingClientFactory):`
			`name = 'AMQP:Factory'`

			`def __init__(self, parameters):`
			`self.parameters = parameters`
			`self.client = None`
			`self.queued_messages = []`
			`self.read_list = []`

			`def startedConnecting(self, connector):`
			`log.msg('Started to connect.', system=self.name)`

			`def buildProtocol(self, addr):`
			`self.resetDelay()`
			`log.msg('Connected', system=self.name)`
			`self.client = PikaProtocol(self.parameters)`
			`self.client.factory = self`
			`self.client.ready.addCallback(self.client.connected)`
			`return self.client`

			`def clientConnectionLost(self, connector, reason):`
			`log.msg('Lost connection. Reason: %s' % reason, system=self.name)`
			`protocol.ReconnectingClientFactory.clientConnectionLost(self, connector, reason)`

			`def clientConnectionFailed(self, connector, reason):`
			`log.msg('Connection failed. Reason: %s' % reason, system=self.name)`
			`protocol.ReconnectingClientFactory.clientConnectionFailed(self, connector, reason)`

			`def send_message(self, exchange = None, routing_key = None, message = None):`
			`self.queued_messages.append((exchange, routing_key, message))`
			`if self.client is not None:`
			`self.client.send()`

			`def read_messages(self, exchange, routing_key, callback):`
			`"""Configure an exchange to be read from."""`
			`self.read_list.append((exchange, routing_key, callback))`
			`if self.client is not None:`
			`self.client.read(exchange, routing_key, callback)`


			`application = service.Application("pikaapplication")`

			`ps = PikaService(pika.ConnectionParameters(host="localhost", virtual_host="/", credentials=pika.PlainCredentials("guest", "guest")))`
			`ps.setServiceParent(application)`


			`class TestService(service.Service):`

			`def task(self, msg):`
			`"""`
			`Method for a time consuming task.`

			`This function must return a deferred. If it is successfull,`
			a `basic.ack` will be sent to AMQP. If the task was not completed a
			`basic.nack` will be sent. In this example it will always return
			`successfully after a 2 second pause.`
			`"""`
			`return task.deferLater(reactor, 2, lambda: log.msg("task completed"))`

			`def respond(self, msg):`
			`self.amqp.send_message('foobar', 'response', msg[3])`

			`def startService(self):`
			`self.amqp = self.parent.getServiceNamed("amqp").getFactory()`
			`self.amqp.read_messages("foobar", "request1", self.respond)`
			`self.amqp.read_messages("foobar", "request2", self.respond)`
			`self.amqp.read_messages("foobar", "request3", self.respond)`
			`self.amqp.read_messages("foobar", "task", self.task)`

			`ts = TestService()`
			`ts.setServiceParent(application)`