def abort(self): self._aborted = True for future, task in self.futures.items(): future.cancel() if len(self.futures): log.info("Waiting for tasks to finish, please be patient") self.strategy.executors.shutdown()
def on_queue_declareok(self, _unused_frame, userdata): """Method invoked by pika when the Queue.Declare RPC call made in setup_queue has completed. In this method we will bind the queue and exchange together with the routing key by issuing the Queue.Bind RPC command. When this command is complete, the on_bindok method will be invoked by pika. :param pika.frame.Method _unused_frame: The Queue.DeclareOk frame :param str|unicode userdata: Extra user data (queue name) """ queue_name = userdata log.info('Binding {} to {} with {}', self.EXCHANGE, queue_name, self._routing_key) cb = functools.partial(self.on_bindok, userdata=queue_name) self._channel.queue_bind( queue_name, self.EXCHANGE, routing_key=self._routing_key, callback=cb) log.info('Binding {} to {} with jolt_{}', self.EXCHANGE, queue_name, self._routing_key) self._channel.queue_bind( queue_name, self.EXCHANGE, routing_key="jolt_" + self._routing_key)
def add_on_channel_close_callback(self): """This method tells pika to call the on_channel_closed method if RabbitMQ unexpectedly closes the channel. """ log.info('Adding channel close callback') self._channel.add_on_close_callback(self.on_channel_closed)
def close_channel(self): """Call to close the channel with RabbitMQ cleanly by issuing the Channel.Close RPC command. """ log.info('Closing the channel') self._channel.close()
def close_connection(self): self._consuming = False if self._connection.is_closing or self._connection.is_closed: log.info('Connection is closing or already closed') else: log.info('Closing connection') self._connection.close()
def _maybe_reconnect(self): if self._consumer.should_reconnect: self._consumer.stop() reconnect_delay = self._get_reconnect_delay() log.info('Reconnecting after {} seconds', reconnect_delay) time.sleep(reconnect_delay) self._consumer = WorkerTaskConsumer(self._amqp_url)
def display(ctx, task, reverse=None, show_cache=False): """ Display a task and its dependencies visually. """ registry = TaskRegistry.get() gb = graph.GraphBuilder(registry, ctx.obj["manifest"]) dag = gb.build(task, influence=show_cache) options = JoltOptions() acache = cache.ArtifactCache.get(options) if reverse: def iterator(task): return list(dag.predecessors(task)) reverse = utils.as_list(reverse) tasklist = dag.select(lambda graph, node: node.short_qualified_name in reverse or node.qualified_name in reverse) else: def iterator(task): return task.children tasklist = dag.requested_goals if dag.has_tasks(): def _display(task, indent=0, last=None): header = "" if indent > 0: for pipe in last[:-1]: if pipe: header += "\u2502 " else: header += " " if last[-1]: header += "\u251c\u2574" else: header += "\u2514\u2574" if not show_cache: colorize = str elif task.is_cacheable() and not acache.is_available(task): colorize = colors.red else: colorize = colors.green print(header + colorize(task.short_qualified_name)) children = iterator(task) for i in range(0, len(children)): _display(children[i], indent + 1, last=(last or []) + [i + 1 != len(children)]) for task in tasklist: _display(task) else: log.info("no tasks to display")
def send_report(self, report): self.annotate_report(report) self.shorten_task_names(report) if self._artifact: dirname = fs.path.dirname(self._artifact) if dirname: fs.makedirs(dirname) with open(self._artifact, "w") as f: f.write(report.transform(self._stylesheet)) if report.has_failure(): if not self._failure: return else: if not self._success: return msg = EmailMessage() msg['Subject'] = self._subject msg['From'] = self._from msg['To'] = ", ".join(utils.unique_list(self._to.split())) msg.set_content( "Your e-mail client cannot display HTML formatted e-mails.") msg.add_alternative(report.transform(self._stylesheet), subtype='html') with smtplib.SMTP(self._server) as server: log.info("Sending email report to {}", self._to) server.send_message(msg)
def fetch(self): refspec = " ".join(self.default_refspecs + self.refspecs) with self.tools.cwd(self.path): log.info("Fetching {0} from {1}", refspec or 'commits', self.url) self.tools.run("git fetch {url} {refspec}", url=self.url, refspec=refspec or '', output_on_error=True)
def open_channel(self): """Open a new channel with RabbitMQ by issuing the Channel.Open RPC command. When RabbitMQ responds that the channel is open, the on_channel_open callback will be invoked by pika. """ log.info('Creating a new channel') self._connection.channel(on_open_callback=self.on_channel_open)
def add_on_cancel_callback(self): """Add a callback that will be invoked if RabbitMQ cancels the consumer for some reason. If RabbitMQ does cancel the consumer, on_consumer_cancelled will be invoked by pika. """ log.info('Adding consumer cancellation callback') self._channel.add_on_cancel_callback(self.on_consumer_cancelled)
def acknowledge_message(self, delivery_tag): """Acknowledge the message delivery from RabbitMQ by sending a Basic.Ack RPC method for the delivery tag. :param int delivery_tag: The delivery tag from the Basic.Deliver frame """ log.info('Acknowledging message {}', delivery_tag) self._channel.basic_ack(delivery_tag)
def on_exchange_declareok(self, _unused_frame, userdata): """Invoked by pika when RabbitMQ has finished the Exchange.Declare RPC command. :param pika.Frame.Method unused_frame: Exchange.DeclareOk response frame :param str|unicode userdata: Extra user data (exchange name) """ log.info('Exchange declared: {}', userdata) self.setup_queue(self._queue)
def on_connection_open(self, _unused_connection): """This method is called by pika once the connection to RabbitMQ has been established. It passes the handle to the connection object in case we need it, but in this case, we'll just mark it unused. :param pika.SelectConnection _unused_connection: The connection """ log.info('Connection opened') self.open_channel()
def patch(self, patch): if not patch: return with self.tools.cwd(self.path), self.tools.tmpdir("git") as t: patchfile = fs.path.join(t.path, "jolt.diff") with open(patchfile, "wb") as f: f.write(patch.encode()) log.info("Applying patch to {0}", self.path) self.tools.run("git apply --whitespace=nowarn {patchfile}", patchfile=patchfile)
def on_basic_qos_ok(self, _unused_frame): """Invoked by pika when the Basic.QoS method has completed. At this point we will start consuming messages by calling start_consuming which will invoke the needed RPC commands to start the process. :param pika.frame.Method _unused_frame: The Basic.QosOk response frame """ log.info('QOS set to: {}', self._prefetch_count) self.start_consuming()
def on_bindok(self, _unused_frame, userdata): """Invoked by pika when the Queue.Bind method has completed. At this point we will set the prefetch count for the channel. :param pika.frame.Method _unused_frame: The Queue.BindOk response frame :param str|unicode userdata: Extra user data (queue name) """ log.info('Queue bound: {}', userdata) self.set_qos()
def stop_consuming(self): """Tell RabbitMQ that you would like to stop consuming by sending the Basic.Cancel RPC command. """ if self._channel: log.info('Sending a Basic.Cancel RPC command to RabbitMQ') cb = functools.partial(self.on_cancelok, userdata=self._consumer_tag) self._channel.basic_cancel(self._consumer_tag, cb)
def on_consumer_cancelled(self, method_frame): """Invoked by pika when RabbitMQ sends a Basic.Cancel for a consumer receiving messages. :param pika.frame.Method method_frame: The Basic.Cancel frame """ log.info('Consumer was cancelled remotely, shutting down: {}', method_frame) if self._channel: self._channel.close()
def checkout(self, rev): log.info("Checking out {0} in {1}", rev, self.path) with self.tools.cwd(self.path): try: return self.tools.run("git checkout -f {rev}", rev=rev, output=False) except Exception: self.fetch() return self.tools.run("git checkout -f {rev}", rev=rev, output_on_error=True) self._original_head = False
def on_channel_open(self, channel): """This method is invoked by pika when the channel has been opened. The channel object is passed in so we can make use of it. Since the channel is now open, we'll declare the exchange to use. :param pika.channel.Channel channel: The channel object """ log.info('Channel opened') self._channel = channel self.add_on_channel_close_callback() self.setup_exchange(self.EXCHANGE)
def connect(self): """This method connects to RabbitMQ, returning the connection handle. When the connection is established, the on_connection_open method will be invoked by pika. :rtype: pika.SelectConnection """ log.info('Connecting to {}', self._url) return pika.SelectConnection( parameters=pika.URLParameters(self._url), on_open_callback=self.on_connection_open, on_open_error_callback=self.on_connection_open_error, on_close_callback=self.on_connection_closed)
def on_cancelok(self, _unused_frame, userdata): """This method is invoked by pika when RabbitMQ acknowledges the cancellation of a consumer. At this point we will close the channel. This will invoke the on_channel_closed method once the channel has been closed, which will in-turn close the connection. :param pika.frame.Method _unused_frame: The Basic.CancelOk frame :param str|unicode userdata: Extra user data (consumer tag) """ self._consuming = False log.info('RabbitMQ acknowledged the cancellation of the consumer: {}', userdata) self.close_channel()
def setup_exchange(self, exchange_name): """Setup the exchange on RabbitMQ by invoking the Exchange.Declare RPC command. When it is complete, the on_exchange_declareok method will be invoked by pika. :param str|unicode exchange_name: The name of the exchange to declare """ log.info('Declaring exchange: {}', exchange_name) # Note: using functools.partial is not required, it is demonstrating # how arbitrary data can be passed to the callback when it is called cb = functools.partial(self.on_exchange_declareok, userdata=exchange_name) self._channel.exchange_declare(exchange=exchange_name, exchange_type=self.EXCHANGE_TYPE, callback=cb)
def setup_queue(self, queue_name): """Setup the queue on RabbitMQ by invoking the Queue.Declare RPC command. When it is complete, the on_queue_declareok method will be invoked by pika. :param str|unicode queue_name: The name of the queue to declare. """ log.info('Declaring queue {}', queue_name) cb = functools.partial(self.on_queue_declareok, userdata=queue_name) self._channel.queue_declare(queue=queue_name, callback=cb, arguments={ "x-message-deduplication": True, "x-max-priority": self._max_priority })
def on_job_completed(self, job): job.join() if job.channel is self._channel: self._channel.basic_publish( exchange=self.RESULT_EXCHANGE, routing_key=job.properties.correlation_id, properties=pika.BasicProperties( correlation_id=job.properties.correlation_id, expiration="600000"), body=str(job.response)) self.acknowledge_message(job.basic_deliver.delivery_tag) log.info("Result published") else: log.info("Result not published as connection was lost") self._job = None
def clone(self): log.info("Cloning into {0}", self.path) if fs.path.exists(self.path): with self.tools.cwd(self.path): self.tools.run( "git init && git remote add origin {} && git fetch", self.url, output_on_error=True) else: self.tools.run("git clone {0} {1}", self.url, self.path, output_on_error=True) raise_error_if(not fs.path.exists(self._git_folder()), "git: failed to clone repository '{0}'", self.relpath) self._init_repo()
def start_consuming(self): """This method sets up the consumer by first calling add_on_cancel_callback so that the object is notified if RabbitMQ cancels the consumer. It then issues the Basic.Consume RPC command which returns the consumer tag that is used to uniquely identify the consumer with RabbitMQ. We keep the value to use it when we want to cancel consuming. The on_message method is passed in as a callback pika will invoke when a message is fully received. """ log.info('Issuing consumer related RPC commands') self.add_on_cancel_callback() self._consumer_tag = self._channel.basic_consume( self._queue, self.on_message) self.was_consuming = True self._consuming = True
def selfdeploy(self): """ Installs the correct version of Jolt as specified in execution request. """ tools = Tools() manifest = JoltManifest() try: manifest.parse() ident = manifest.get_parameter("jolt_identity") url = manifest.get_parameter("jolt_url") if not ident or not url: return "jolt" requires = manifest.get_parameter("jolt_requires") log.info("Jolt version: {}", ident) src = "build/selfdeploy/{}/src".format(ident) env = "build/selfdeploy/{}/env".format(ident) if not fs.path.exists(env): try: fs.makedirs(src) tools.run("curl {} | tar zx -C {}", url, src) tools.run("virtualenv {}", env) tools.run(". {}/bin/activate && pip install -e {}", env, src) if requires: tools.run( ". {}/bin/activate && pip install {}", env, requires) except Exception as e: tools.rmtree("build/selfdeploy/{}", ident, ignore_errors=True) raise e return ". {}/bin/activate && jolt".format(env) except Exception as e: log.exception() raise e
def stop(self): """Cleanly shutdown the connection to RabbitMQ by stopping the consumer with RabbitMQ. When RabbitMQ confirms the cancellation, on_cancelok will be invoked by pika, which will then closing the channel and connection. The IOLoop is started again because this method is invoked when CTRL-C is pressed raising a KeyboardInterrupt exception. This exception stops the IOLoop which needs to be running for pika to communicate with RabbitMQ. All of the commands issued prior to starting the IOLoop will be buffered but not processed. """ if not self._closing: self._closing = True log.info('Stopping') if self._consuming: self.stop_consuming() self._connection.ioloop.start() else: self._connection.ioloop.stop() log.info('Stopped') if self._job: self.on_job_completed(self._job)