Publish Subscribe Abstraction

Publish Subscribe Abstraction

https://blueprints.launchpad.net/dragonflow/+spec/pubsub-module

This spec describe the design of abstracting the publish-subscribe mechanism from the DB itself.

Problem Description

Current implementation of Dragonflow rely on the pluggable DB driver to listen to configuration change events.

The flow is as follows:

  • The local controller reads the DB and sync all needed configuration
  • Then, it waits for change notifications by calling a specific DB driver API with a callback method to report the changes

It is then the DB driver responsibility to update the controller with any configuration change.

If the DB driver doesn’t support publish-subscribe mechanism, the local controller will keep polling the DB and search for changes by comparing it to its local cache.

This is very inefficient and not very scalable.

Some DB drivers do support publish-subscribe mechanism, but in some cases it is not reliable and scalable enough.

Proposed Change

We require a consistently reliable and scalable publish-subscribe mechanism.

In order to be efficient with large scale deployments, we want to sync only relevant configuration and topology with the compute node.

We therefore want to abstract the publish-subscribe mechanism from the DB driver, so that we can control the published topics in an applicative manner.

We require that this change will be optional thus using the previous behavior as default, i.e. the publish-subscribe is managed by the DB driver itself.

We introduce a pluggable Pub-Sub mechanism driver, in order to allow different implementations to drive the solution.

In the reference implementation, we will use ZeroMQ (ZMQ).

Solution Overview

The Local Dragonflow Controller is the Subscriber.

The Neutron Server API is the Publisher.

The Publisher uses the Pub-Sub API [2] to publish to relevant topics.

The Subscriber uses the Pub-Sub API [2] to register to relevant publishers on relevant topics.

The Publisher publish every change from Neutron API to the topic it is connected to, as a notification event.

The Subscriber is triggered by notification events and uses the data to update the Dragonflow Local Controller.

Interoperability with previous mechanism

The following diagram depicts Dragonflow existing DB Driver-based mechanism interoperability with the proposed built-in publish-subscribe capability:

+--------------------+           +-----------------------+
|                    |           |                       |
|  Dragonflow        |           |   NB API Adapter      |
|  Controller        |           |                       |
|                    |           |                       |
|  +--------------+  |           |  +----------------+   |           +---------------+
|  |              |  |           |  |                |   |           |               |
|  |  SYNC Loop   +---------------> | Fetch DB Data  +-------------> |   DB Driver   |
|  |              |  |           |  |                |   |           |               |
|  |              |  |           |  +----------------+   |           +--------+------+
|  |              |  |           |                       |                    ^
|  |              |  |           |  +-----------------+  |                    |  Wait for changes(callback)
|  | Wait for DB  |  |           |  |                 |  |                    |
|  |   Changes    +---------------> |  If NOT pub-sub +-----------------------+
|  |              |  |           |  |                 |  |
|  |              |  |           |  |                 |  |           +----------------+
|  |              |  |           |  |                 |  |           |                |
|  |              |  |           |  | If pub-sub +-----------------> | Pub-Sub Module |
|  +--------------+  |           |  |                 |  |           |                |
|                    |           |  |                 |  |           +----------------+
|                    |           |  +-----------------+  | wait for
+--------------------+           +-----------------------+  changes (callback)

When the controller is brought up it first tries to sync all the relevant policy from the DB using the NB API which calls the specific loaded DB driver.

When this process ends up, until now the controller had two options, it would ask the DB driver if it supports publish subscribe, if not the controller continues with the sync loop and keeps polling for changes.

If the DB driver supports publish-subscribe the controller calls a specific API to the driver to register a callback. The DB driver is responsible to update any DB change to the callback, The callback gets table name, action (‘create’, ‘set’, ‘delete’), the key and value as parameters.

If the user configured pub-sub, the controller instead of calling the DB driver API calls Dragonflow pub-sub module with the callback prior to starting the full sync process.

The pub-sub module is in-charge of dispatching configuration changes (DB changes) to all the local controllers, it exposes a simple API of “subscriber” or “publisher”.

The pub-sub module will be pluggable and allow different drivers to be developed as the pubsub module driver that will implement the interface of the pubsub api referenced below [2].

Publisher

The NB API class is used both by the Dragonflow local controller and the Neutron plugin.

The following diagram shows how DB changes are dispatched to the pub-sub module and published to all local controllers.

+---------------+        +-----------------+
| DF Neutron    |        |  NB API         |
| Plugin        |        |                 |
|               |        |                 |       +--------------+
|               |        |  Update DF      |       |              |
| Configuration +------> |  DB             +------>+  DB Driver   |
| Change        |        |                 |       |              |
|               |        |                 |       +--------------+
+---------------+        |                 |
                         |                 |
                         |  if pub-sub:    |       +--------------+
                         |    send_event   +-----> |              |
                         |                 |       | Pub-Sub      |
                         |                 |       |              |
                         |                 |       +--------------+
                         |                 |
                         +-----------------+

Neutron Server q-svc process is forked on a multi-core host, in order to work around Python cooperative threading.

For PubSub solutions that are “bind based” e.g “tcp” (meaning one publisher per host) we will use an IPC mechanism provided by the Publisher driver, in order to push its events through a shared socket.

Publisher Service diagram below, which binds to a one-per-host publisher socket.

+---------------------------------------------------------------+
|                                                               |
|  Neutron Server API Host                                      |
|              +----------+                                     |
|              |          |                                     |
|              | q-svc_1  +------------+                        |
|              |          |            |                        |
|              +----------+            |                        |
|                                      |                        |
|              +----------+            |                        |
|              |          |            |                        |
|              | q-svc_2  +----------+ |                        |
|              |          |          | |   +----------+         |
|              +----------+          | +--->          |         |
|                                    +-----> publisher|         |
|              +----------+          +-----> service  |         |
|              |          |          | +--->          |         |
|              | q-svc_3  +----------+ |   +----------+         |
|              |          |            |                        |
|              +----------+            |                        |
|                                      |                        |
|              +----------+            |                        |
|              |          |            |                        |
|              | q-svc_4  +------------+                        |
|              |          |                                     |
|              +----------+                                     |
|                                                               |
+---------------------------------------------------------------+

For solutions that are "connect based" e.g multicast/broker each q-svc process
will publish directly using the provided publisher driver.

df-db CLI tool also needs to be enhanced to support publish-subscribe notifications as it can be used to bind ports to specific compute nodes.

Subscriber

The subscriber API is being called by the local controllers, they call the daemonize() API of the subscriber and send the callback method.

The subscriber is in charge of receiving the notifications from publishers and sending them for processing.

The subscriber thread loop is depicted in the following diagram:

+---------------+
|               |                                          +-----------------+
|  Subscriber   |                                          |                 |
|  Thread       |                                          |  DF Controller  |
|               |                                          |                 |
|  Wait for     |                                          |                 |
|  event        |                      DB Changes Queue    |                 |
|               | callback         +--+--+--+--+--+--+     |                 |
|  New event    +----------------> |  |  |  |  |  |  |     |  Read and apply |
|               |                  |  |  |  |  |  |  +---> |  changes        |
|               |                  |  |  |  |  |  |  |     |                 |
|               |                  +--+--+--+--+--+--+     +-----------------+
|               |
+---------------+

Implementation approach for the publisher and subscriber is totally abstracted from Dragonflow and can later be changed and optimized.

The default implementation will use zmq queue [1], other driver could be easily integrated by implementing the interface [2]

DB drivers that don`t support publish-subscribe can leverage this module but also other DBs that need optimized behaviour.

Reliable Delivery

We define pub-sub reliability by the following factors:

  • Local Cache Consistency
  • Recognize losing an event
  • Recognize connection drop
  • Configurable max time for detecting lost messages

Neutron Publisher Proposed Solution

Since most pub-sub implementations don’t guarantee delivery, we need to build an applicative method to track message order and verify delivery.

Delivery

Each publisher on startup selects a GUID and publish it to all the subscribers via the hello message descend below.

Subscribers will store in memory the publisher UUID on receiving the hello message and its current message ID.

In order to detect message delay/loss, we introduce a per-pub-per-message sequence ID. The client verifies the sequence order of messages by tracking current per-pub-message-id.

In case the client detects sequence that is >2 IDs from the current, it will wait for a period defined by message delay window for the missing messages to arrive.

If the time elapsed and some messages did not arrive, the client will perform a full sync against the DB.

In case that subscriber receives an hello message from a registered publisher with different sequence number the subscriber will perform a full sync.

Flow 1: Subscriber (re)connects

When a subscriber connects for the first time, or reconnects after an outage, it will do full-resync.

Flow 2: Publisher (re)connects

When a publisher connects for the first time, or reconnects after an outage, it will publish its initial sequence number and its UUID, in a special hello message.

The subscribers will receive this message and reset their current per-sub-per-message-id accordingly.

The publisher UUID and the sequence message id will be sent in an envelope in every published message

Flow 3: Subscriber missed a message in a mostly-idle system

When the system is mostly idle, a subscriber may miss a message and not detect it for a long time.

In order to mitigate this, the publisher will emit its hello message every configurable max_idle_time.

We define Idle Time as a period of time where no messages are published from a specific publisher.

Order

We introduce versioning on the object level in the database, in order to track message order.

We compare this versioning to the local cache, before we update it.

We only update when local cache version is older, and drop updates that have older version than the local cache. Local cache will be updated with any newer version head even if it is few versions ahead, older version will be dropped.

Neutron Server Publisher discovery

Each subscriber (i.e. Distributed Dragonflow Controller) uses a local configuration with the addresses of the publishers.

We will optimize this by adding a Service Directory in the Dragonflow database. Each publisher on startup will register itself into this discovery table with a timestamp and will renew its lease every x minutes

A Discovery table garbage collector will remove publisher with out a valid lease

Controller-to-Controller Publisher Proposed Solution

Local Controllers publish messages through the Neutron Server, by writing to the Dragonflow database.

A polling mechanism in the Dragonflow publisher service detects such updates and publish them to everyone.

This mechanism is enough for handling rarely-occurring events, such as chassis registration (i.e. adding new compute nodes).

TODO: if we will see significant increase in Controller-to-Controller publishing traffic, we will implement an enhancement to enable multi-publisher-multi-subscriber mechanism, using something like ZMQ EPGM.

Configuration Options

‘enable_df_pub_sub’, default=False, help=_(“Enable use of Dragonflow built-in pub/sub”)),

‘pub_sub_driver’, default=’zmq_pubsub_driver’, help=_(‘Drivers to use for the Dragonflow pub/sub’)),

‘publishers_ips’, default=[‘$local_ip’], help=_(‘List of the Neutron Server Publisher IPs.’)),

‘publisher_port’, default=8866, help=_(‘Neutron Server Publishers Port’))

‘pub_sub_use_multiproc’, default=True, help=_(‘Use inter-process publish/subscribe. ‘ ‘Publishers send events via the publisher service.’)

‘publisher_transport’, default=’tcp’, help=_(‘Neutron Server Publishers transport protocol’)),

‘publisher_bind_address’, default=’*’, help=_(‘Neutron Server Publishers bind address’)),

‘pub_sub_multiproc_driver’, default=’zmq_pubsub_multiproc_driver’, help=_(‘Drivers to use for the Dragonflow pub/sub’)),

‘publisher_multiproc_socket’, default=’/var/run/zmq_pubsub/zmq-publisher-socket’, help=_(‘Neutron Server Publisher inter-process socket address’)),

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