/usr/lib/python2.7/dist-packages/kombu/transport/SQS.py is in python-kombu 3.0.35-1.1.
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kombu.transport.SQS
===================
Amazon SQS transport module for Kombu. This package implements an AMQP-like
interface on top of Amazons SQS service, with the goal of being optimized for
high performance and reliability.
The default settings for this module are focused now on high performance in
task queue situations where tasks are small, idempotent and run very fast.
SQS Features supported by this transport:
Long Polling:
http://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/
sqs-long-polling.html
Long polling is enabled by setting the `wait_time_seconds` transport
option to a number > 1. Amazon supports up to 20 seconds. This is
disabled for now, but will be enabled by default in the near future.
Batch API Actions:
http://docs.aws.amazon.com/AWSSimpleQueueService/latest/SQSDeveloperGuide/
sqs-batch-api.html
The default behavior of the SQS Channel.drain_events() method is to
request up to the 'prefetch_count' messages on every request to SQS.
These messages are stored locally in a deque object and passed back
to the Transport until the deque is empty, before triggering a new
API call to Amazon.
This behavior dramatically speeds up the rate that you can pull tasks
from SQS when you have short-running tasks (or a large number of workers).
When a Celery worker has multiple queues to monitor, it will pull down
up to 'prefetch_count' messages from queueA and work on them all before
moving on to queueB. If queueB is empty, it will wait up until
'polling_interval' expires before moving back and checking on queueA.
"""
from __future__ import absolute_import
import collections
import socket
import string
from anyjson import loads, dumps
import boto
from boto import exception
from boto import sdb as _sdb
from boto import sqs as _sqs
from boto.sdb.domain import Domain
from boto.sdb.connection import SDBConnection
from boto.sqs.connection import SQSConnection
from boto.sqs.message import Message
from kombu.five import Empty, range, text_t
from kombu.log import get_logger
from kombu.utils import cached_property, uuid
from kombu.utils.encoding import bytes_to_str, safe_str
from kombu.transport.virtual import scheduling
from . import virtual
logger = get_logger(__name__)
# dots are replaced by dash, all other punctuation
# replaced by underscore.
CHARS_REPLACE_TABLE = dict((ord(c), 0x5f)
for c in string.punctuation if c not in '-_.')
CHARS_REPLACE_TABLE[0x2e] = 0x2d # '.' -> '-'
def maybe_int(x):
try:
return int(x)
except ValueError:
return x
BOTO_VERSION = tuple(maybe_int(part) for part in boto.__version__.split('.'))
W_LONG_POLLING = BOTO_VERSION >= (2, 8)
#: SQS bulk get supports a maximum of 10 messages at a time.
SQS_MAX_MESSAGES = 10
class Table(Domain):
"""Amazon SimpleDB domain describing the message routing table."""
# caches queues already bound, so we don't have to declare them again.
_already_bound = set()
def routes_for(self, exchange):
"""Iterator giving all routes for an exchange."""
return self.select("""WHERE exchange = '%s'""" % exchange)
def get_queue(self, queue):
"""Get binding for queue."""
qid = self._get_queue_id(queue)
if qid:
return self.get_item(qid)
def create_binding(self, queue):
"""Get binding item for queue.
Creates the item if it doesn't exist.
"""
item = self.get_queue(queue)
if item:
return item, item['id']
id = uuid()
return self.new_item(id), id
def queue_bind(self, exchange, routing_key, pattern, queue):
if queue not in self._already_bound:
binding, id = self.create_binding(queue)
binding.update(exchange=exchange,
routing_key=routing_key or '',
pattern=pattern or '',
queue=queue or '',
id=id)
binding.save()
self._already_bound.add(queue)
def queue_delete(self, queue):
"""delete queue by name."""
self._already_bound.discard(queue)
item = self._get_queue_item(queue)
if item:
self.delete_item(item)
def exchange_delete(self, exchange):
"""Delete all routes for `exchange`."""
for item in self.routes_for(exchange):
self.delete_item(item['id'])
def get_item(self, item_name):
"""Uses `consistent_read` by default."""
# Domain is an old-style class, can't use super().
for consistent_read in (False, True):
item = Domain.get_item(self, item_name, consistent_read)
if item:
return item
def select(self, query='', next_token=None,
consistent_read=True, max_items=None):
"""Uses `consistent_read` by default."""
query = """SELECT * FROM `%s` %s""" % (self.name, query)
return Domain.select(self, query, next_token,
consistent_read, max_items)
def _try_first(self, query='', **kwargs):
for c in (False, True):
for item in self.select(query, consistent_read=c, **kwargs):
return item
def get_exchanges(self):
return list(set(i['exchange'] for i in self.select()))
def _get_queue_item(self, queue):
return self._try_first("""WHERE queue = '%s' limit 1""" % queue)
def _get_queue_id(self, queue):
item = self._get_queue_item(queue)
if item:
return item['id']
class Channel(virtual.Channel):
Table = Table
default_region = 'us-east-1'
default_visibility_timeout = 1800 # 30 minutes.
default_wait_time_seconds = 0 # disabled see #198
domain_format = 'kombu%(vhost)s'
_sdb = None
_sqs = None
_queue_cache = {}
_noack_queues = set()
def __init__(self, *args, **kwargs):
super(Channel, self).__init__(*args, **kwargs)
# SQS blows up when you try to create a new queue if one already
# exists with a different visibility_timeout, so this prepopulates
# the queue_cache to protect us from recreating
# queues that are known to already exist.
queues = self.sqs.get_all_queues(prefix=self.queue_name_prefix)
for queue in queues:
self._queue_cache[queue.name] = queue
self._fanout_queues = set()
# The drain_events() method stores extra messages in a local
# Deque object. This allows multiple messages to be requested from
# SQS at once for performance, but maintains the same external API
# to the caller of the drain_events() method.
self._queue_message_cache = collections.deque()
def basic_consume(self, queue, no_ack, *args, **kwargs):
if no_ack:
self._noack_queues.add(queue)
return super(Channel, self).basic_consume(
queue, no_ack, *args, **kwargs
)
def basic_cancel(self, consumer_tag):
if consumer_tag in self._consumers:
queue = self._tag_to_queue[consumer_tag]
self._noack_queues.discard(queue)
return super(Channel, self).basic_cancel(consumer_tag)
def drain_events(self, timeout=None):
"""Return a single payload message from one of our queues.
:raises Empty: if no messages available.
"""
# If we're not allowed to consume or have no consumers, raise Empty
if not self._consumers or not self.qos.can_consume():
raise Empty()
message_cache = self._queue_message_cache
# Check if there are any items in our buffer. If there are any, pop
# off that queue first.
try:
return message_cache.popleft()
except IndexError:
pass
# At this point, go and get more messages from SQS
res, queue = self._poll(self.cycle, timeout=timeout)
message_cache.extend((r, queue) for r in res)
# Now try to pop off the queue again.
try:
return message_cache.popleft()
except IndexError:
raise Empty()
def _reset_cycle(self):
"""Reset the consume cycle.
:returns: a FairCycle object that points to our _get_bulk() method
rather than the standard _get() method. This allows for multiple
messages to be returned at once from SQS (based on the prefetch
limit).
"""
self._cycle = scheduling.FairCycle(
self._get_bulk, self._active_queues, Empty,
)
def entity_name(self, name, table=CHARS_REPLACE_TABLE):
"""Format AMQP queue name into a legal SQS queue name."""
return text_t(safe_str(name)).translate(table)
def _new_queue(self, queue, **kwargs):
"""Ensure a queue with given name exists in SQS."""
# Translate to SQS name for consistency with initial
# _queue_cache population.
queue = self.entity_name(self.queue_name_prefix + queue)
try:
return self._queue_cache[queue]
except KeyError:
q = self._queue_cache[queue] = self.sqs.create_queue(
queue, self.visibility_timeout,
)
return q
def queue_bind(self, queue, exchange=None, routing_key='',
arguments=None, **kwargs):
super(Channel, self).queue_bind(queue, exchange, routing_key,
arguments, **kwargs)
if self.typeof(exchange).type == 'fanout':
self._fanout_queues.add(queue)
def _queue_bind(self, *args):
"""Bind ``queue`` to ``exchange`` with routing key.
Route will be stored in SDB if so enabled.
"""
if self.supports_fanout:
self.table.queue_bind(*args)
def get_table(self, exchange):
"""Get routing table.
Retrieved from SDB if :attr:`supports_fanout`.
"""
if self.supports_fanout:
return [(r['routing_key'], r['pattern'], r['queue'])
for r in self.table.routes_for(exchange)]
return super(Channel, self).get_table(exchange)
def get_exchanges(self):
if self.supports_fanout:
return self.table.get_exchanges()
return super(Channel, self).get_exchanges()
def _delete(self, queue, *args):
"""delete queue by name."""
if self.supports_fanout:
self.table.queue_delete(queue)
super(Channel, self)._delete(queue)
self._queue_cache.pop(queue, None)
def exchange_delete(self, exchange, **kwargs):
"""Delete exchange by name."""
if self.supports_fanout:
self.table.exchange_delete(exchange)
super(Channel, self).exchange_delete(exchange, **kwargs)
def _has_queue(self, queue, **kwargs):
"""Return True if ``queue`` was previously declared."""
if self.supports_fanout:
return bool(self.table.get_queue(queue))
return super(Channel, self)._has_queue(queue)
def _put(self, queue, message, **kwargs):
"""Put message onto queue."""
q = self._new_queue(queue)
m = Message()
m.set_body(dumps(message))
q.write(m)
def _put_fanout(self, exchange, message, routing_key, **kwargs):
"""Deliver fanout message to all queues in ``exchange``."""
for route in self.table.routes_for(exchange):
self._put(route['queue'], message, **kwargs)
def _get_from_sqs(self, queue, count=1):
"""Retrieve messages from SQS and returns the raw SQS message objects.
:returns: List of SQS message objects
"""
q = self._new_queue(queue)
if W_LONG_POLLING and queue not in self._fanout_queues:
return q.get_messages(
count, wait_time_seconds=self.wait_time_seconds,
)
else: # boto < 2.8
return q.get_messages(count)
def _message_to_python(self, message, queue_name, queue):
payload = loads(bytes_to_str(message.get_body()))
if queue_name in self._noack_queues:
queue.delete_message(message)
else:
payload['properties']['delivery_info'].update({
'sqs_message': message, 'sqs_queue': queue,
})
return payload
def _messages_to_python(self, messages, queue):
"""Convert a list of SQS Message objects into Payloads.
This method handles converting SQS Message objects into
Payloads, and appropriately updating the queue depending on
the 'ack' settings for that queue.
:param messages: A list of SQS Message objects.
:param queue: String name representing the queue they came from
:returns: A list of Payload objects
"""
q = self._new_queue(queue)
return [self._message_to_python(m, queue, q) for m in messages]
def _get_bulk(self, queue, max_if_unlimited=SQS_MAX_MESSAGES):
"""Try to retrieve multiple messages off ``queue``.
Where _get() returns a single Payload object, this method returns a
list of Payload objects. The number of objects returned is determined
by the total number of messages available in the queue and the
number of messages that the QoS object allows (based on the
prefetch_count).
.. note::
Ignores QoS limits so caller is responsible for checking
that we are allowed to consume at least one message from the
queue. get_bulk will then ask QoS for an estimate of
the number of extra messages that we can consume.
args:
queue: The queue name (string) to pull from
returns:
payloads: A list of payload objects returned
"""
# drain_events calls `can_consume` first, consuming
# a token, so we know that we are allowed to consume at least
# one message.
maxcount = self.qos.can_consume_max_estimate()
maxcount = max_if_unlimited if maxcount is None else max(maxcount, 1)
if maxcount:
messages = self._get_from_sqs(
queue, count=min(maxcount, SQS_MAX_MESSAGES),
)
if messages:
return self._messages_to_python(messages, queue)
raise Empty()
def _get(self, queue):
"""Try to retrieve a single message off ``queue``."""
messages = self._get_from_sqs(queue, count=1)
if messages:
return self._messages_to_python(messages, queue)[0]
raise Empty()
def _restore(self, message,
unwanted_delivery_info=('sqs_message', 'sqs_queue')):
for unwanted_key in unwanted_delivery_info:
# Remove objects that aren't JSON serializable (Issue #1108).
message.delivery_info.pop(unwanted_key, None)
return super(Channel, self)._restore(message)
def basic_ack(self, delivery_tag):
delivery_info = self.qos.get(delivery_tag).delivery_info
try:
queue = delivery_info['sqs_queue']
except KeyError:
pass
else:
queue.delete_message(delivery_info['sqs_message'])
super(Channel, self).basic_ack(delivery_tag)
def _size(self, queue):
"""Return the number of messages in a queue."""
return self._new_queue(queue).count()
def _purge(self, queue):
"""Delete all current messages in a queue."""
q = self._new_queue(queue)
# SQS is slow at registering messages, so run for a few
# iterations to ensure messages are deleted.
size = 0
for i in range(10):
size += q.count()
if not size:
break
q.clear()
return size
def close(self):
super(Channel, self).close()
for conn in (self._sqs, self._sdb):
if conn:
try:
conn.close()
except AttributeError as exc: # FIXME ???
if "can't set attribute" not in str(exc):
raise
def _get_regioninfo(self, regions):
if self.region:
for _r in regions:
if _r.name == self.region:
return _r
def _aws_connect_to(self, fun, regions):
conninfo = self.conninfo
region = self._get_regioninfo(regions)
return fun(region=region,
aws_access_key_id=conninfo.userid,
aws_secret_access_key=conninfo.password,
port=conninfo.port)
@property
def sqs(self):
if self._sqs is None:
self._sqs = self._aws_connect_to(SQSConnection, _sqs.regions())
return self._sqs
@property
def sdb(self):
if self._sdb is None:
self._sdb = self._aws_connect_to(SDBConnection, _sdb.regions())
return self._sdb
@property
def table(self):
name = self.entity_name(
self.domain_format % {'vhost': self.conninfo.virtual_host})
d = self.sdb.get_object(
'CreateDomain', {'DomainName': name}, self.Table)
d.name = name
return d
@property
def conninfo(self):
return self.connection.client
@property
def transport_options(self):
return self.connection.client.transport_options
@cached_property
def visibility_timeout(self):
return (self.transport_options.get('visibility_timeout') or
self.default_visibility_timeout)
@cached_property
def queue_name_prefix(self):
return self.transport_options.get('queue_name_prefix', '')
@cached_property
def supports_fanout(self):
return self.transport_options.get('sdb_persistence', False)
@cached_property
def region(self):
return self.transport_options.get('region') or self.default_region
@cached_property
def wait_time_seconds(self):
return self.transport_options.get('wait_time_seconds',
self.default_wait_time_seconds)
class Transport(virtual.Transport):
Channel = Channel
polling_interval = 1
wait_time_seconds = 0
default_port = None
connection_errors = (
virtual.Transport.connection_errors +
(exception.SQSError, socket.error)
)
channel_errors = (
virtual.Transport.channel_errors + (exception.SQSDecodeError, )
)
driver_type = 'sqs'
driver_name = 'sqs'
|