This document describes the current stable version of Kombu (4.0). For development docs, go here.

Source code for kombu.transport.base

"""Base transport interface."""
from __future__ import absolute_import, unicode_literals

import errno
import socket

from amqp.exceptions import RecoverableConnectionError

from kombu.exceptions import ChannelError, ConnectionError
from kombu.five import items
from kombu.message import Message
from kombu.utils.functional import dictfilter
from kombu.utils.objects import cached_property
from kombu.utils.time import maybe_s_to_ms

__all__ = ['Message', 'StdChannel', 'Management', 'Transport']

RABBITMQ_QUEUE_ARGUMENTS = {  # type: Mapping[str, Tuple[str, Callable]]
    'expires': ('x-expires', maybe_s_to_ms),
    'message_ttl': ('x-message-ttl', maybe_s_to_ms),
    'max_length': ('x-max-length', int),
    'max_length_bytes': ('x-max-length-bytes', int),
    'max_priority': ('x-max-priority', int),

def to_rabbitmq_queue_arguments(arguments, **options):
    # type: (Mapping, **Any) -> Dict
    """Convert queue arguments to RabbitMQ queue arguments.

    This is the implementation for Channel.prepare_queue_arguments
    for AMQP-based transports.  It's used by both the pyamqp and librabbitmq

        arguments (Mapping):
            User-supplied arguments (``Queue.queue_arguments``).

    Keyword Arguments:
        expires (float): Queue expiry time in seconds.
            This will be converted to ``x-expires`` in int milliseconds.
        message_ttl (float): Message TTL in seconds.
            This will be converted to ``x-message-ttl`` in int milliseconds.
        max_length (int): Max queue length (in number of messages).
            This will be converted to ``x-max-length`` int.
        max_length_bytes (int): Max queue size in bytes.
            This will be converted to ``x-max-length-bytes`` int.
        max_priority (int): Max priority steps for queue.
            This will be converted to ``x-max-priority`` int.

        Dict: RabbitMQ compatible queue arguments.
    prepared = dictfilter(dict(
        _to_rabbitmq_queue_argument(key, value)
        for key, value in items(options)
    return dict(arguments, **prepared) if prepared else arguments

def _to_rabbitmq_queue_argument(key, value):
    # type: (str, Any) -> Tuple[str, Any]
    opt, typ = RABBITMQ_QUEUE_ARGUMENTS[key]
    return opt, typ(value) if value is not None else value

def _LeftBlank(obj, method):
    return NotImplementedError(
        'Transport {0.__module__}.{0.__name__} does not implement {1}'.format(
            obj.__class__, method))

class StdChannel(object):
    """Standard channel base class."""

    no_ack_consumers = None

    def Consumer(self, *args, **kwargs):
        from kombu.messaging import Consumer
        return Consumer(self, *args, **kwargs)

    def Producer(self, *args, **kwargs):
        from kombu.messaging import Producer
        return Producer(self, *args, **kwargs)

    def get_bindings(self):
        raise _LeftBlank(self, 'get_bindings')

    def after_reply_message_received(self, queue):
        """Callback called after RPC reply received.

           Reply queue semantics: can be used to delete the queue
           after transient reply message received.

    def prepare_queue_arguments(self, arguments, **kwargs):
        return arguments

    def __enter__(self):
        return self

    def __exit__(self, *exc_info):

class Management(object):
    """AMQP Management API (incomplete)."""

    def __init__(self, transport):
        self.transport = transport

    def get_bindings(self):
        raise _LeftBlank(self, 'get_bindings')

class Implements(dict):
    """Helper class used to define transport features."""

    def __getattr__(self, key):
            return self[key]
        except KeyError:
            raise AttributeError(key)

    def __setattr__(self, key, value):
        self[key] = value

    def extend(self, **kwargs):
        return self.__class__(self, **kwargs)

default_transport_capabilities = Implements(
    exchange_type=frozenset(['direct', 'topic', 'fanout', 'headers']),

[docs]class Transport(object): """Base class for transports.""" Management = Management #: The :class:`~kombu.Connection` owning this instance. client = None #: Set to True if :class:`~kombu.Connection` should pass the URL #: unmodified. can_parse_url = False #: Default port used when no port has been specified. default_port = None #: Tuple of errors that can happen due to connection failure. connection_errors = (ConnectionError,) #: Tuple of errors that can happen due to channel/method failure. channel_errors = (ChannelError,) #: Type of driver, can be used to separate transports #: using the AMQP protocol (driver_type: 'amqp'), #: Redis (driver_type: 'redis'), etc... driver_type = 'N/A' #: Name of driver library (e.g. 'py-amqp', 'redis'). driver_name = 'N/A' __reader = None implements = default_transport_capabilities.extend() def __init__(self, client, **kwargs): self.client = client
[docs] def establish_connection(self): raise _LeftBlank(self, 'establish_connection')
[docs] def close_connection(self, connection): raise _LeftBlank(self, 'close_connection')
[docs] def create_channel(self, connection): raise _LeftBlank(self, 'create_channel')
[docs] def close_channel(self, connection): raise _LeftBlank(self, 'close_channel')
[docs] def drain_events(self, connection, **kwargs): raise _LeftBlank(self, 'drain_events')
def heartbeat_check(self, connection, rate=2): pass def driver_version(self): return 'N/A' def get_heartbeat_interval(self, connection): return 0 def register_with_event_loop(self, connection, loop): pass def unregister_from_event_loop(self, connection, loop): pass def verify_connection(self, connection): return True def _make_reader(self, connection, timeout=socket.timeout, error=socket.error, _unavail=(errno.EAGAIN, errno.EINTR)): drain_events = connection.drain_events def _read(loop): if not connection.connected: raise RecoverableConnectionError('Socket was disconnected') try: drain_events(timeout=0) except timeout: return except error as exc: if exc.errno in _unavail: return raise loop.call_soon(_read, loop) return _read def qos_semantics_matches_spec(self, connection): return True def on_readable(self, connection, loop): reader = self.__reader if reader is None: reader = self.__reader = self._make_reader(connection) reader(loop) @property def default_connection_params(self): return {} def get_manager(self, *args, **kwargs): return self.Management(self) @cached_property def manager(self): return self.get_manager() @property def supports_heartbeats(self): return self.implements.heartbeats @property def supports_ev(self): return self.implements.async