azure-servicebus 7.0.0b4

Microsoft Azure Service Bus Client Library for Python

Azure Service Bus client library for Python

Azure Service Bus is a high performance cloud-managed messaging service for providing real-time and fault-tolerant communication between distributed senders and receivers.

Service Bus provides multiple mechanisms for asynchronous highly reliable communication, such as structured first-in-first-out messaging, publish/subscribe capabilities, and the ability to easily scale as your needs grow.

Use the Service Bus client library for Python to communicate between applications and services and implement asynchronous messaging patterns.

• Create Service Bus namespaces, queues, topics, and subscriptions, and modify their settings.
• Send and receive messages within your Service Bus channels.
• Utilize message locks, sessions, and dead letter functionality to implement complex messaging patterns.

Source code | Package (PyPi) | API reference documentation | Product documentation | Samples | Changelog

NOTE: This document has instructions, links and code snippets for the preview of the next version of the azure-servicebus package which has different APIs than the current version (0.50). Please view the resources below for references on the existing library.

V0.50 Source code | V0.50 Package (PyPi) | V0.50 API reference documentation | V0.50 Product documentation | V0.50 Samples | V0.50 Changelog

We also provide a migration guide for users familiar with the existing package that would like to try the preview: migration guide to move from Service Bus V0.50 to Service Bus V7 Preview

Getting started

Install the package

Install the Azure Service Bus client library for Python with pip:

pip install azure-servicebus --pre

Prerequisites:

To use this package, you must have:

• Azure subscription - Create a free account
• Azure Service Bus - Namespace and management credentials
• Python 2.7, 3.5 or later - Install Python

If you need an Azure service bus namespace, you can create it via the Azure Portal. If you do not wish to use the graphical portal UI, you can use the Azure CLI via Cloud Shell, or Azure CLI run locally, to create one with this Azure CLI command:

az servicebus namespace create --resource-group <resource-group-name> --name <servicebus-namespace-name> --location <servicebus-namespace-location>

Authenticate the client

Interaction with Service Bus starts with an instance of the ServiceBusClient class. You either need a connection string with SAS key, or a namespace and one of its account keys to instantiate the client object.

Create client from connection string

• Get credentials: Use the Azure CLI snippet below to populate an environment variable with the service bus connection string (you can also find these values in the Azure Portal by following the step-by-step guide to Get a service bus connection string). The snippet is formatted for the Bash shell.

RES_GROUP=<resource-group-name>
NAMESPACE_NAME=<servicebus-namespace-name>

export SERVICE_BUS_CONN_STR=$(az servicebus namespace authorization-rule keys list --resource-group $RES_GROUP --namespace-name $NAMESPACE_NAME --name RootManageSharedAccessKey --query primaryConnectionString --output tsv)

Once you've populated the SERVICE_BUS_CONN_STR environment variable, you can create the ServiceBusClient.

from azure.servicebus import ServiceBusClient

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']

with ServiceBusClient.from_connection_string(connstr) as client:
    ...

Create client using the azure-identity library:

import os
from azure.servicebus import ServiceBusClient
from azure.identity import DefaultAzureCredential

credential = DefaultAzureCredential()

FULLY_QUALIFIED_NAMESPACE = os.environ['SERVICE_BUS_FULLY_QUALIFIED_NAMESPACE']
with ServiceBusClient(FULLY_QUALIFIED_NAMESPACE, credential):
    ...

• This constructor takes the fully qualified namespace of your Service Bus instance and a credential that implements the TokenCredential protocol. There are implementations of the TokenCredential protocol available in the azure-identity package. The fully qualified namespace is of the format <yournamespace.servicebus.windows.net>.
• When using Azure Active Directory, your principal must be assigned a role which allows access to Service Bus, such as the Azure Service Bus Data Owner role. For more information about using Azure Active Directory authorization with Service Bus, please refer to the associated documentation.

Note: client can be initialized without a context manager, but must be manually closed via client.close() to not leak resources.

Key concepts

Once you've initialized a ServiceBusClient, you can interact with the primary resource types within a Service Bus Namespace, of which multiple can exist and on which actual message transmission takes place, the namespace often serving as an application container:

• Queue: Allows for Sending and Receiving of message. Often used for point-to-point communication.

• Topic: As opposed to Queues, Topics are better suited to publish/subscribe scenarios. A topic can be sent to, but requires a subscription, of which there can be multiple in parallel, to consume from.

• Subscription: The mechanism to consume from a Topic. Each subscription is independent, and receives a copy of each message sent to the topic. Rules and Filters can be used to tailor which messages are received by a specific subscription.

For more information about these resources, see What is Azure Service Bus?.

To interact with these resources, one should be familiar with the following SDK concepts:

• ServiceBusClient: This is the object a user should first initialize to connect to a Service Bus Namespace. To interact with a queue, topic, or subscription, one would spawn a sender or receiver off of this client.

• Sender: To send messages to a Queue or Topic, one would use the corresponding get_queue_sender or get_topic_sender method off of a ServiceBusClient instance as seen here.

• Receiver: To receive messages from a Queue or Subscription, one would use the corresponding get_queue_receiver or get_subscription_receiver method off of a ServiceBusClient instance as seen here.

• Message: When sending, this is the type you will construct to contain your payload. When receiving, this is where you will access the payload and control how the message is "settled" (completed, dead-lettered, etc); these functions are only available on a received message.

Examples

The following sections provide several code snippets covering some of the most common Service Bus tasks, including:

• Send messages to a queue
• Receive messages from a queue
• Send and receive a message from a session enabled queue
• Working with topics and subscriptions
• Settle a message after receipt

To perform management tasks such as creating and deleting queues/topics/subscriptions, please utilize the azure-mgmt-servicebus library, available here.

Please find further examples in the samples directory demonstrating common Service Bus scenarios such as sending, receiving, session management and message handling.

Send messages to a queue

This example sends single message and array of messages to a queue that is assumed to already exist, created via the Azure portal or az commands.

from azure.servicebus import ServiceBusClient, Message

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']

with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_queue_sender(queue_name) as sender:
        # Sending a single message
        single_message = Message("Single message")
        sender.send_messages(single_message)

        # Sending a list of messages
        messages = [Message("First message"), Message("Second message")]
        sender.send_messages(messages)

NOTE: A message may be scheduled for delayed delivery using the ServiceBusSender.schedule_messages() method, or by specifying Message.scheduled_enqueue_time_utc before calling ServiceBusSender.send_messages() For more detail on scheduling and schedule cancellation please see a sample here.

Receive messages from a queue

To receive from a queue, you can either perform an ad-hoc receive via "receiver.receive_messages()" or receive persistently through the receiver itself.

Receive messages from a queue through iterating over ServiceBusReceiver

from azure.servicebus import ServiceBusClient

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']

with ServiceBusClient.from_connection_string(connstr) as client:
    # idle_timeout specifies how long the receiver should wait with no incoming messages before stopping receipt.  
    # Default is None; to receive forever.
    with client.get_queue_receiver(queue_name, idle_timeout=30) as receiver:
        for msg in receiver:  # ServiceBusReceiver instance is a generator
            print(str(msg))
            # If it is desired to halt receiving early, one can break out of the loop here safely.

NOTE: Any message received with mode=PeekLock (this is the default, with the alternative ReceiveAndDelete removing the message from the queue immediately on receipt) has a lock that must be renewed via message.renew_lock() before it expires if processing would take longer than the lock duration.
See AutoLockRenewer for a helper to perform this in the background automatically. Lock duration is set in Azure on the queue or topic itself.

Receive messages from a queue through ServiceBusReceiver.receive_messages()

NOTE: ServiceBusReceiver.receive_messages() receives a single or constrained list of messages through an ad-hoc method call, as opposed to receiving perpetually from the generator. It always returns a list.

from azure.servicebus import ServiceBusClient

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']

with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_queue_receiver(queue_name) as receiver:
        received_message_array = receiver.receive_messages(max_wait_time=10)  # try to receive a single message within 10 seconds
        if received_message_array:
            print(str(received_message_array[0]))

    with client.get_queue_receiver(queue_name, prefetch=5) as receiver:
        received_message_array = receiver.receive_messages(max_batch_size=5, max_wait_time=10)  # try to receive maximum 5 messages in a batch within 10 seconds
        for message in received_message_array:
            print(str(message))

In this example, max_batch_size (and prefetch, as required by max_batch_size) declares the maximum number of messages to attempt receiving before hitting a max_wait_time as specified in seconds.

NOTE: It should also be noted that ServiceBusReceiver.peek_messages() is subtly different than receiving, as it does not lock the messages being peeked, and thus they cannot be settled.

Send and receive a message from a session enabled queue

Sessions provide first-in-first-out and single-receiver semantics on top of a queue or subscription. While the actual receive syntax is the same, initialization differs slightly.

from azure.servicebus import ServiceBusClient, Message

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']
session_id = os.environ['SERVICE_BUS_SESSION_ID']

with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_queue_sender(queue_name) as sender:
        sender.send_messages(Message("Session Enabled Message", session_id=session_id))

    # If session_id is null here, will receive from the first available session.
    with client.get_queue_session_receiver(queue_name, session_id) as receiver:
        for msg in receiver:
            print(str(msg))

NOTE: Messages received from a session do not need their locks renewed like a non-session receiver; instead the lock management occurs at the session level with a session lock that may be renewed with receiver.session.renew_lock()

Working with topics and subscriptions

Topics and subscriptions give an alternative to queues for sending and receiving messages. See documents here for more overarching detail, and of how these differ from queues.

from azure.servicebus import ServiceBusClient, Message

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
topic_name = os.environ['SERVICE_BUS_TOPIC_NAME']
subscription_name = os.environ['SERVICE_BUS_SUBSCRIPTION_NAME']

with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_topic_sender(topic_name) as sender:
        sender.send_messages(Message("Data"))

    # If session_id is null here, will receive from the first available session.
    with client.get_subscription_receiver(topic_name, subscription_name) as receiver:
        for msg in receiver:
            print(str(msg))

Settle a message after receipt

When receiving from a queue, you have multiple actions you can take on the messages you receive.

NOTE: You can only settle ReceivedMessage objects which are received in ReceiveSettleMode.PeekLock mode (this is the default). ReceiveSettleMode.ReceiveAndDelete mode removes the message from the queue on receipt. PeekMessage messages returned from peek() cannot be settled, as the message lock is not taken like it is in the aforementioned receive methods. Sessionful messages have a similar limitation.

If the message has a lock as mentioned above, settlement will fail if the message lock has expired.
If processing would take longer than the lock duration, it must be maintained via message.renew_lock() before it expires.
Lock duration is set in Azure on the queue or topic itself. See AutoLockRenewer for a helper to perform this in the background automatically.

Complete

Declares the message processing to be successfully completed, removing the message from the queue.

from azure.servicebus import ServiceBusClient

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']

with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_queue_receiver(queue_name) as receiver:
        for msg in receiver:
            print(str(msg))
            msg.complete()

Abandon

Abandon processing of the message for the time being, returning the message immediately back to the queue to be picked up by another (or the same) receiver.

from azure.servicebus import ServiceBusClient

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']

with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_queue_receiver(queue_name) as receiver:
        for msg in receiver:
            print(str(msg))
            msg.abandon()

DeadLetter

Transfer the message from the primary queue into a special "dead-letter sub-queue" where it can be accessed using the ServiceBusClient.get_<queue|subscription>_deadletter_receiver function and consumed from like any other receiver. (see sample here)

from azure.servicebus import ServiceBusClient

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']

with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_queue_receiver(queue_name) as receiver:
        for msg in receiver:
            print(str(msg))
            msg.dead_letter()

Defer

Defer is subtly different from the prior settlement methods. It prevents the message from being directly received from the queue by setting it aside such that it must be received by sequence number in a call to ServiceBusReceiver.receive_deferred_messages (see sample here)

from azure.servicebus import ServiceBusClient

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']

with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_queue_receiver(queue_name) as receiver:
        for msg in receiver:
            print(str(msg))
            msg.defer()

Troubleshooting

Logging

• Enable azure.servicebus logger to collect traces from the library.
• Enable uamqp logger to collect traces from the underlying uAMQP library.
• Enable AMQP frame level trace by setting logging_enable=True when creating the client.

Timeouts

There are various timeouts a user should be aware of within the library.

• 10 minute service side link closure: A link, once opened, will be closed after 10 minutes idle to protect the service against resource leakage. This should largely be transparent to a user, but if you notice a reconnect occurring after such a duration, this is why. Performing any operations, including management operations, on the link will extend this timeout.
• idle_timeout: Provided on creation of a receiver, the time after which the underlying UAMQP link will be closed after no traffic. This primarily dictates the length a generator-style receive will run for before exiting if there are no messages. Passing None (default) will wait forever, up until the 10 minute threshold if no other action is taken.
• max_wait_time: Provided when calling receive() to fetch a list of messages. Dictates an upper bound for how long the receive() will wait for more messages before returning, similarly up to the aformentioned limits. The "receive()" will return as soon as at least one message is received within the max_wait_time.

NOTE: If processing of a message or session is sufficiently long as to cause timeouts, as an alternative to calling renew_lock() manually, one can leverage the AutoLockRenew functionality detailed below.

AutoLockRenew

AutoLockRenew is a simple method for ensuring your message or session remains locked even over long periods of time, if calling renew_lock() is impractical or undesired. Internally, it is not much more than shorthand for creating a concurrent watchdog to call renew_lock() if the object is nearing expiry. It should be used as follows:

from azure.servicebus import ServiceBusClient, AutoLockRenew

import os
connstr = os.environ['SERVICE_BUS_CONN_STR']
queue_name = os.environ['SERVICE_BUS_QUEUE_NAME']
session_id = os.environ['SERVICE_BUS_SESSION_ID']

# Can also be called via "with AutoLockRenew() as renewer" to automate shutdown.
renewer = AutoLockRenew()
with ServiceBusClient.from_connection_string(connstr) as client:
    with client.get_queue_session_receiver(queue_name, session_id=session_id) as receiver:
        renewer.register(receiver.session, timeout=300) # Timeout for how long to maintain the lock for, in seconds.
        for msg in receiver.receive_messages():
            renewer.register(msg, timeout=60)
            # Do your application logic here
            msg.complete()
renewer.shutdown()

If for any reason auto-renewal has been interrupted or failed, this can be observed via the auto_renew_error property on the object being renewed. It would also manifest when trying to take action (such as completing a message) on the specified object.

Common Exceptions

Please view the exceptions reference docs for detailed descriptions of our common Exception types.

Next steps

More sample code

Please find further examples in the samples directory demonstrating common Service Bus scenarios such as sending, receiving, session management and message handling.

Additional documentation

For more extensive documentation on the Service Bus service, see the Service Bus documentation on docs.microsoft.com.

Management capabilities and documentation

For users seeking to perform management operations against ServiceBus (Creating a queue/topic/etc, altering filter rules, enumerating entities) please see the azure-mgmt-servicebus documentation for API documentation. Terse usage examples can be found here as well.

Contributing

This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.microsoft.com.

When you submit a pull request, a CLA-bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., label, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repos using our CLA.

This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.

Release History

7.0.0b4 (2020-07-06)

New Features

• Added support for management of topics, subscriptions, and rules.
• receive_messages() (formerly receive()) now supports receiving a batch of messages (max_batch_size > 1) without the need to set prefetch parameter during ServiceBusReceiver initialization.

BugFixes

• Fixed bug where sync AutoLockRenew does not shutdown itself timely.
• Fixed bug where async AutoLockRenew does not support context manager.

Breaking Changes

• Renamed receive(), peek() schedule() and send() to receive_messages(), peek_messages(), schedule_messages() and send_messages() to align with other service bus SDKs.
• receive_messages() (formerly receive()) no longer raises a ValueError if max_batch_size is less than the prefetch parameter set during ServiceBusReceiver initialization.

7.0.0b3 (2020-06-08)

New Features

• Added support for management of queue entities.
  • Use azure.servicebus.management.ServiceBusManagementClient (azure.servicebus.management.aio.ServiceBusManagementClient for aio) to create, update, delete, list queues and get settings as well as runtime information of queues under a ServiceBus namespace.
• Added methods get_queue_deadletter_receiver and get_subscription_deadletter_receiver in ServiceBusClient to get a ServiceBusReceiver for the dead-letter sub-queue of the target entity.

BugFixes

• Updated uAMQP dependency to 1.2.8.
  • Fixed bug where reason and description were not being set when dead-lettering messages.

7.0.0b2 (2020-05-04)

New Features

• Added method get_topic_sender in ServiceBusClient to get a ServiceBusSender for a topic.
• Added method get_subscription_receiver in ServiceBusClient to get a ServiceBusReceiver for a subscription under specific topic.
• Added support for scheduling messages and scheduled message cancellation.
  • Use ServiceBusSender.schedule(messages, schedule_time_utc) for scheduling messages.
  • Use ServiceBusSender.cancel_scheduled_messages(sequence_numbers) for scheduled messages cancellation.
• ServiceBusSender.send() can now send a list of messages in one call, if they fit into a single batch. If they do not fit a ValueError is thrown.
• BatchMessage.add() and ServiceBusSender.send() would raise MessageContentTooLarge if the content is over-sized.
• ServiceBusReceiver.receive() raises ValueError if its param max_batch_size is greater than param prefetch of ServiceBusClient.
• Added exception classes MessageError, MessageContentTooLarge, ServiceBusAuthenticationError.
  • MessageError: when you send a problematic message, such as an already sent message or an over-sized message.
  • MessageContentTooLarge: when you send an over-sized message. A subclass of ValueError and MessageError.
  • ServiceBusAuthenticationError: on failure to be authenticated by the service.
• Removed exception class InvalidHandlerState.

BugFixes

• Fixed bug where http_proxy and transport_type in ServiceBusClient are not propagated into Sender/Receiver creation properly.
• Updated uAMQP dependency to 1.2.7.
  • Fixed bug in setting certificate of tlsio on MacOS. #7201
  • Fixed bug that caused segmentation fault in network tracing on MacOS when setting logging_enable to True in ServiceBusClient.

Breaking Changes

• Session receivers are now created via their own top level functions, e.g. get_queue_sesison_receiver and get_subscription_session_receiver. Non session receivers no longer take session_id as a paramter.
• ServiceBusSender.send() no longer takes a timeout parameter, as it should be redundant with retry options provided when creating the client.
• Exception imports have been removed from module azure.servicebus. Import from azure.servicebus.exceptions instead.
• ServiceBusSender.schedule() has swapped the ordering of parameters schedule_time_utc and messages for better consistency with send() syntax.

7.0.0b1 (2020-04-06)

Version 7.0.0b1 is a preview of our efforts to create a client library that is user friendly and idiomatic to the Python ecosystem. The reasons for most of the changes in this update can be found in the Azure SDK Design Guidelines for Python. For more information, please visit https://aka.ms/azure-sdk-preview1-python.

• Note: Not all historical functionality exists in this version at this point. Topics, Subscriptions, scheduling, dead_letter management and more will be added incrementally over upcoming preview releases.

New Features

• Added new configuration parameters when creating ServiceBusClient.
  • credential: The credential object used for authentication which implements TokenCredential interface of getting tokens.
  • http_proxy: A dictionary populated with proxy settings.
  • For detailed information about configuration parameters, please see docstring in ServiceBusClient and/or the reference documentation for more information.
• Added support for authentication using Azure Identity credentials.
• Added support for retry policy.
• Added support for http proxy.
• Manually calling reconnect should no longer be necessary, it is now performed implicitly.
• Manually calling open should no longer be necessary, it is now performed implicitly.
  • Note: close()-ing is still required if a context manager is not used, to avoid leaking connections.
• Added support for sending a batch of messages destined for heterogenous sessions.

Breaking changes

• Simplified API and set of clients
  • get_queue no longer exists, utilize get_queue_sender/receiver instead.
  • peek and other queue_client functions have moved to their respective sender/receiver.
  • Renamed fetch_next to receive.
  • Renamed session to session_id to normalize naming when requesting a receiver against a given session.
  • reconnect no longer exists, and is performed implicitly if needed.
  • open no longer exists, and is performed implicitly if needed.
• Normalized top level client parameters with idiomatic and consistent naming.
  • Renamed debug in ServiceBusClient initializer to logging_enable.
  • Renamed service_namespace in ServiceBusClient initializer to fully_qualified_namespace.
• New error hierarchy, with more specific semantics
  • azure.servicebus.exceptions.ServiceBusError
  • azure.servicebus.exceptions.ServiceBusConnectionError
  • azure.servicebus.exceptions.ServiceBusResourceNotFound
  • azure.servicebus.exceptions.ServiceBusAuthorizationError
  • azure.servicebus.exceptions.NoActiveSession
  • azure.servicebus.exceptions.OperationTimeoutError
  • azure.servicebus.exceptions.InvalidHandlerState
  • azure.servicebus.exceptions.AutoLockRenewTimeout
  • azure.servicebus.exceptions.AutoLockRenewFailed
  • azure.servicebus.exceptions.EventDataSendError
  • azure.servicebus.exceptions.MessageSendFailed
  • azure.servicebus.exceptions.MessageLockExpired
  • azure.servicebus.exceptions.MessageSettleFailed
  • azure.servicebus.exceptions.MessageAlreadySettled
  • azure.servicebus.exceptions.SessionLockExpired
• BatchMessage creation is now initiated via create_batch on a Sender, using add() on the batch to add messages, in order to enforce service-side max batch sized limitations.
• Session is now set on the message itself, via session_id parameter or property, as opposed to on Send or get_sender via session. This is to allow sending a batch of messages destined to varied sessions.
• Session management is now encapsulated within a property of a receiver, e.g. receiver.session, to better compartmentalize functionality specific to sessions.
  • To use AutoLockRenew against sessions, one would simply pass the inner session object, instead of the receiver itself.

0.50.2 (2019-12-09)

New Features

• Added support for delivery tag lock tokens

BugFixes

• Fixed bug where Message would pass through invalid kwargs on init when attempting to thread through subject.
• Increments UAMQP dependency min version to 1.2.5, to include a set of fixes, including handling of large messages and mitigation of segfaults.

0.50.1 (2019-06-24)

BugFixes

• Fixed bug where enqueued_time and scheduled_enqueue_time of message being parsed as local timestamp rather than UTC.

0.50.0 (2019-01-17)

Breaking changes

• Introduces new AMQP-based API.
• Original HTTP-based API still available under new namespace: azure.servicebus.control_client
• For full API changes, please see updated reference documentation.

Within the new namespace, the original HTTP-based API from version 0.21.1 remains unchanged (i.e. no additional features or bugfixes) so for those intending to only use HTTP operations - there is no additional benefit in updating at this time.

New Features

• New API supports message send and receive via AMQP with improved performance and stability.
• New asynchronous APIs (using asyncio) for send, receive and message handling.
• Support for message and session auto lock renewal via background thread or async operation.
• Now supports scheduled message cancellation.

0.21.1 (2017-04-27)

This wheel package is now built with the azure wheel extension

0.21.0 (2017-01-13)

New Features

• str messages are now accepted in Python 3 and will be encoded in 'utf-8' (will not raise TypeError anymore)
• broker_properties can now be defined as a dict, and not only a JSON str. datetime, int, float and boolean are converted.
• #902 add send_topic_message_batch operation (takes an iterable of messages)
• #902 add send_queue_message_batch operation (takes an iterable of messages)

Bugfixes

• #820 the code is now more robust to unexpected changes on the SB RestAPI

0.20.3 (2016-08-11)

News

• #547 Add get dead letter path static methods to Python
• #513 Add renew lock

Bugfixes

• #628 Fix custom properties with double quotes

0.20.2 (2016-06-28)

Bugfixes

• New header in Rest API which breaks the SDK #658 #657

0.20.1 (2015-09-14)

News

• Create a requests.Session() if the user doesn't pass one in.

0.20.0 (2015-08-31)

Initial release of this package, from the split of the azure package. See the azure package release note for 1.0.0 for details and previous history on Service Bus.