A lightweight message queue for Python that requires no dedicated queue server. Just a Redis server.
This is a Python implementation of https://github.com/smrchy/rsmq)
-
0.6.0
- Bugfix: Allow for recovery in RedisSMQConsumerThread when redis is temporarily unavailable.
-
0.5.1
- Bugfix: Fix crash on non-existent queue name (Thanks @rwl4)
-
0.5.0
- Require Python 3.6+
- Code cleanup
- Fix for scenario where consumer breaks if redis is restarted (#4)
-
0.4.5
- Re-release to push to PyPi
-
0.4.4
-
0.4.3
-
0.4.2
- Fix typo in
setClient
method #3- Note this is a breaking change if you use this method, (which seems like nobody does)
- Fix typo in
-
0.4.1
- Add auto-decode option for messages from JSON (when possible) in Consumer (on by default)
-
0.4.0
- Ability to import
RedisSMQ
from package rather than from the module (i.e. you can now usefrom rsmq import RedisSMQ
instead offrom rsmq.rsmq import RedisSMQ
) - Add quiet option to most commands to allow to hide errors if exceptions are disabled
- Additional unit tests
- Auto-encoding of non-string messages to JSON for sendMessage
- Add
RedisSMQConsumer
andRedisSMQConsumerThread
for easier creation of queue consumers - Add examples for simple producers/consumers
- Ability to import
-
0.3.1
- Fix message id generation match RSMQ algorithm
-
0.3.0
- Make message id generation match RSMQ algorithm
- Allow any character in queue name other than
:
-
0.2.1
- Allow uppercase characters in queue names
-
0.2.0 - Adding Python 2 support
- Some Python 2 support
- Some Unit tests
- Change
.exec()
to.execute()
for P2 compatibility
-
0.1.0 - initial version
- Initial port
- Missing "Realtime" mode
- Missing unit tests
RSMQ is trying to emulate Amazon's SQS-like functionality, where there is a named queue (name consists of "namespace" and "qname") that is backed by Redis. Queue must be created before used. Once created, Producers will place messages in queue and Consumers will retrieve them. Messages have a property of "visibility" - where any "visible" message may be consumed, but "invisbile" messages stay in the queue until they become visible or deleted.
Once queue exists, a Producer can push messages into it. When pushing to queue, message gets a unique ID that is used to track the message. The ID can be used to delete message by Producer or Consumer or to control its "visibility"
During insertion, a message may have a delay
associated with it. "Delay" will mark message
"invisible" for specified delay duration, and thus prevent it from being consumed. Delay may be
specified at time of message creation or, if not specified, default value set in queue attributes
is used.
Consumer will retrieve next message in queue via either receiveMessage()
or popMessage()
command. If we do not care about reliability of the message beyond delivery, a good and simple way
to retrieve it is via popMessage()
. When using popMessage()
the message is automatically
deleted at the same time it is received.
However in many cases we want to ensure that the message is not only received, but is also
processed before being deleted. For this, receiveMessage()
is best. When using receiveMessage()
,
the message is kept in the queue, but is marked "invisible" for some amount of time. The amount of
time is specified by queue attribute vt
(visibility timeout), which may also be overridden by
specifying a custom vt
value in receiveMessage()
call. When using receiveMessage()
,
Consumer' is responsible for deleting the message before vt
timeout occurs, otherwise the
message may be picked up by another Consumer. Consumer can also extend the timeout if it needs
more time, or clear the timeout if processing failed.
A "Realtime" mode can be specified when using the RSMQ queue. "Realtime" mode adds a Redis PUBSUB based notification that would allow Consumers to be notified whenever a new message is added to the queue. This can remove the need for Consumer to constantly poll the queue when it is empty (NOTE: as of this writing, "Realtime" is not yet implemented in python version)
NOTE This project is written for Python 3.x. While some attempts to get Python2 support were made I am not sure how stable it would be under Python 2
This version is heavily based on Java version (https://github.com/igr/jrsmq), which in turn is based on the original Node.JS version.
To start with, best effort is made to maintain same method/parameter/usablity named of both version (which, admittedly, resulted in a not very pythonic API)
Although much of the original API is still present, some alternatives are added to make life a bit easier.
For example, while you can set any available parameter to command using the "setter" method, you can also simply specify the parameters when creating the command. So these two commands do same thing:
rqsm.createQueue().qname("my-queue").vt(20).execute()
rqsm.createQueue(qname="my-queue", vt=20).execute()
In addition, when creating a main controller, any non-controller parameters specified will become defaults for all commands created via this controller - so, for example, you if you plan to work with only one queue using this controller, you can specify the qname parameter during creation of the controller and not need to specify it in every command.
In addition to all the APIs in the original RSMQ project, a simple to use consumer implementation
is included in this project as RedisSMQConsumer
and RedisSMQConsumerThread
classes.
The RedisSMQConsumer
instance wraps an RSMQ Controller and is configured with a processor method
which is called every time a new message is received. The processor method returns true or false
to indicate if message was successfully received and the message is deleted or returned to the
queue based on that. The consumer auto-extends the visibility timeout as long as the processor is
running, reducing the concern that item will become visible again if processing takes too long and
visibility timeout elapses.
NOTE: Since currently the realtime
functionality is not implemented, Consumer implementation is
currently using polling to check for queue items.
Example usage:
from rsmq.consumer import RedisSMQConsumer
# define Processor
def processor(id, message, rc, ts):
''' process the message '''
# Do something
return True
# create consumer
consumer = RedisSMQConsumer('my-queue', processor, host='127.0.0.1')
# run consumer
consumer.run()
For a more complete example, see examples directory.
RedisSMQConsumerThread
is simply a version of RedisSMQConsumer
that extends Thread class.
Once created you can start it like any other thread, or stop it using stop(wait)
method, where
wait specifies maximum time to wait for the thread to stop before returning (the thread would still
be trying to stop if the wait
time expires)
Note that the thread is by default set to be a daemon
thread, so on exit of your main thread it
will be stopped. If you wish to disable daemon flag, just disable it before starting the thread as
with any other thread
Example usage:
from rsmq.consumer import RedisSMQConsumerThread
# define Processor
def processor(id, message, rc, ts):
''' process the message '''
# Do something
return True
# create consumer
consumer = RedisSMQConsumerThread('my-queue', processor, host='127.0.0.1')
# start consumer
consumer.start()
# do what else you need to, then stop the consumer
# (waiting for 10 seconds for it to stop):
consumer.stop(10)
For a more complete example, see examples directory.
As copied from other versions, the general approach is to create a controller object and use that object to create, configure and then execute commands
Commands follow the pattern of other versions and throw exceptions on error.
Exceptions are all extending RedisSMQException()
and include:
InvalidParameterValue()
- Invalid Parameter specifiedQueueAlreadyExists()
- attempt to create queue which already existsQueueDoesNotExist()
- attempt to use/delete queue that does not existNoMessageInQueue()
- attempt to retrieve message from queue that has no visible messaged
However, if you do not wish to use exceptions, you can turn them off on per-command or
per-controller basis by using .exceptions(False)
on the relevant object. For example, the
following will create Queue only if it does not exist without throwing an exception:
rsmq.createQueue().exceptions(False).execute()
In this example we will create a new queue named "my-queue", deleting previous version, if one exists, and then send a message with a 2 second delay. We will then demonstrate both the lack of message before delay expires and getting the message after timeout
from pprint import pprint
import time
from rsmq import RedisSMQ
# Create controller.
# In this case we are specifying the host and default queue name
queue = RedisSMQ(host="127.0.0.1", qname="myqueue")
# Delete Queue if it already exists, ignoring exceptions
queue.deleteQueue().exceptions(False).execute()
# Create Queue with default visibility timeout of 20 and delay of 0
# demonstrating here both ways of setting parameters
queue.createQueue(delay=0).vt(20).execute()
# Send a message with a 2 second delay
message_id = queue.sendMessage(delay=2).message("Hello World").execute()
pprint({'queue_status': queue.getQueueAttributes().execute()})
# Try to get a message - this will not succeed, as our message has a delay and no other
# messages are in the queue
msg = queue.receiveMessage().exceptions(False).execute()
# Message should be False as we got no message
pprint({"Message": msg})
print("Waiting for our message to become visible")
# Wait for our message to become visible
time.sleep(2)
pprint({'queue_status': queue.getQueueAttributes().execute()})
# Get our message
msg = queue.receiveMessage().execute()
# Message should now be there
pprint({"Message": msg})
# Delete Message
queue.deleteMessage(id=msg['id'])
pprint({'queue_status': queue.getQueueAttributes().execute()})
# delete our queue
queue.deleteQueue().execute()
# No action
queue.quit()
Usage: rsmq.rqsm.RedisSMQ([options])
- Options (all options are provided as keyword options):
- Redis Connection arguments:
client
- provide an existing, configured redis client orhost
- redis hostname (Default:127.0.0.1
)port
- redis port (Default:6379
)options
- additional redis client options. Defaults:encoding
:utf-8
decode_responses
:True
- Controller Options
ns
- namespace - all redis keys are prepended with<ns>:
. Default:rsmq
realtime
- if set to True, enables realtime option. Default:False
exceptions
- if set to True, throw exceptions for all commands. Default:True
- Default Command Options. Anything else is passed to each command as defaults. Examples:
qname
- default Queue Name
- Redis Connection arguments:
exceptions(True/False)
- enable/disable exceptionssetClient(client)
- specify new redis client objectns(namespace)
- set new namespacequit()
- disconnect from redis. This is mainly for compatibility with other versions. Does not do much
-
createQueue()
- Create new queue- Parameters:
qname
- (Required) name of the queuevt
- default visibility timeout in seconds. Default:30
delay
- default delay (visibility timeout on insert). Default:0
maxsize
- maximum message size (1024-65535, Default: 65535)quiet
- if set toTrue
and exceptions are disabled, do not produce error log entries
- Returns:
True
if queue was created
- Parameters:
-
deleteQueue()
- Delete Existing queue- Parameters:
qname
- (Required) name of the queuequiet
- if set toTrue
and exceptions are disabled, do not produce error log entries
- Returns:
True
if queue was deleted
- Parameters:
-
setQueueAttributes()
- Update queue attributes. If value is not specified, it is not updated.- Parameters:
qname
- (Required) name of the queuevt
- default visibility timeout in seconds. Default:30
delay
- default delay (visibility timeout on insert). Default:0
maxsize
- maximum message size (1024-65535, Default: 65535)quiet
- if set toTrue
and exceptions are disabled, do not produce error log entries
- Returns:
- output of
getQueueAttributes()
call
- output of
- Parameters:
-
getQueueAttributes()
- Get Queue Attributes and statistics- Parameters:
qname
- (Required) name of the queuequiet
- if set toTrue
and exceptions are disabled, do not produce error log entries
- Returns a dictionary with following fields:
vt
- default visibility timeoutdelay
- default insertion delaymaxsize
- max size of the messagetotalrecv
- number of messages consumed. Note, this is incremented each time message is retrieved, so if it was not deleted and made visible again, it will show up here multiple times.totalsent
- number of messages sent to queue.created
- unix timestamp (seconds since epoch) of when the queue was createdmodified
- unix timestamp (seconds since epoch) of when the queue was last updatedmsgs
- Total number of messages currently in the queuehiddenmsgs
- Number of messages in queue that are not visible
- Parameters:
-
listQueues()
- List all queues in this namespace- Parameters:
- Returns:
- All queue names in this namespace as a
set()
- All queue names in this namespace as a
-
changeMessageVisibility()
- Change Message Visibility- Parameters:
qname
- (Required) name of the queueid
- (Required) message idquiet
- if set toTrue
and exceptions are disabled, do not produce error log entries- ???
- Returns:
- ???
- Parameters:
-
sendMessage()
- Send message into queue- Parameters:
qname
- (Required) name of the queuemessage
- (Required) message iddelay
- Optional override of thedelay
for this message (If not specified, default for queue is used)quiet
- if set toTrue
and exceptions are disabled, do not produce error log entriesencode
if set toTrue
, force encode message as JSON string. If False, try to auto-detect if message needs to be encoded
- Returns:
- message id of the sent message
- Parameters:
-
receiveMessage()
- Receive Message from queue and mark it invisible- Parameters:
qname
- (Required) name of the queuevt
- Optional override for visibility timeout for this message (If not specified, default for queue is used)quiet
- if set toTrue
and exceptions are disabled, do not produce error log entries
- Returns dictionary for following fields:
id
- message idmessage
- message contentrc
- receive count - how many times this message was receivedts
- unix timestamp of when the message was originally sent
- Parameters:
-
popMessage()
- Receive Message from queue and delete it from queue- Parameters:
qname
- (Required) name of the queuequiet
- if set toTrue
and exceptions are disabled, do not produce error log entries
- Returns dictionary for following fields:
id
- message idmessage
- message contentrc
- receive count - how many times this message was receivedts
- unix timestamp of when the message was originally sent
- Parameters:
-
deleteMessage()
- Delete Message from queue- Parameters:
qname
- (Required) name of the queueid
- (Required) message idquiet
- if set toTrue
and exceptions are disabled, do not produce error log entries
- Returns:
True
if message was deleted
- Parameters: