This repository houses the Ruby SDK for use with Optimizely Feature Experimentation and Optimizely Full Stack (legacy).
Optimizely Feature Experimentation is an A/B testing and feature management tool for product development teams that enables you to experiment at every step. Using Optimizely Feature Experimentation allows for every feature on your roadmap to be an opportunity to discover hidden insights. Learn more at Optimizely.com, or see the developer documentation.
Optimizely Rollouts is free feature flags for development teams. You can easily roll out and roll back features in any application without code deploys, mitigating risk for every feature on your roadmap.
Refer to the Ruby SDK's developer documentation for detailed instructions on getting started with using the SDK.
- Ruby 3.0+
The SDK is available through RubyGems. To install:
gem install optimizely-sdk
To access the Feature Management configuration in the Optimizely dashboard, please contact your Optimizely customer success manager.
You can initialize the Optimizely instance in two ways: directly with a datafile, or by using a factory class, OptimizelyFactory
, which provides methods to create an Optimizely instance with the default configuration.
Initialize Optimizely with a datafile. This datafile will be used as ProjectConfig throughout the life of the Optimizely instance.
optimizely_instance = Optimizely::Project.new(datafile: datafile)
-
Initialize Optimizely by providing an
sdk_key
and an optionaldatafile
. This will initialize an HTTPConfigManager that makes an HTTP GET request to the URL (formed using your providedsdk_key
and the default datafile CDN url template) to asynchronously download the project datafile at regular intervals and update ProjectConfig when a new datafile is received.optimizely_instance = Optimizely::OptimizelyFactory.default_instance('put_your_sdk_key_here', datafile)
When the datafile
is given then it will be used initially before any update.
-
Initialize Optimizely by providing a Config Manager that implements a
config
method. You can customize ourHTTPConfigManager
as needed.custom_config_manager = CustomConfigManager.new optimizely_instance = Optimizely::OptimizelyFactory.default_instance_with_config_manager(custom_config_manager)
-
Initialize Optimizely with required
sdk_key
and other optional arguments.optimizely_instance = Optimizely::OptimizelyFactory.custom_instance( sdk_key, datafile, event_dispatcher, logger, error_handler, skip_json_validation, user_profile_service, config_manager, notification_center, event_processor )
Note: The SDK spawns multiple threads when initialized. These threads have infinite loops that are used for fetching the datafile, as well as batching and dispatching events in the background. When using in a web server that spawn multiple child processes, you need to initialize the SDK after those child processes or workers have been spawned.
The HTTPConfigManager
asynchronously polls for datafiles from a specified URL at regular intervals by making HTTP requests.
http_project_config_manager = Optimizely::HTTPProjectConfigManager.new(
sdk_key: nil,
url: nil,
datafile: nil,
url_template: nil,
auto_update: nil,
polling_interval: nil,
start_by_default: nil,
blocking_timeout: nil,
logger: nil,
error_handler: nil,
skip_json_validation: false,
notification_center: notification_center,
datafile_access_token: nil,
proxy_config: nil
)
Note: You must provide either the sdk_key
or URL. If you provide both, the URL takes precedence.
sdk_key
The sdk_key
is used to compose the outbound HTTP request to the default datafile location on the Optimizely CDN.
datafile
You can provide an initial datafile to bootstrap the DataFileProjectConfig
so that it can be used immediately. The initial datafile also serves as a fallback datafile if HTTP connection cannot be established. The initial datafile will be discarded after the first successful datafile poll.
polling_interval The polling interval is used to specify a fixed delay between consecutive HTTP requests for the datafile. Valid duration is greater than 0 and less than 2592000 seconds. Default is 5 minutes.
url_template
A string with placeholder {sdk_key}
can be provided so that this template along with the provided sdk_key
is used to form the target URL.
start_by_default
Boolean flag used to start the AsyncScheduler
for datafile polling if set to true
.
blocking_timeout The blocking timeout period is used to specify a maximum time to wait for initial bootstrapping. Valid blocking timeout period is between 1 and 2592000 seconds. Default is 15 seconds.
datafile_access_token An access token sent in an authorization header with the request to fetch private datafiles.
You may also provide your own logger, error handler, or notification center.
The following properties can be set to override the default configurations for HTTPConfigManager
.
PropertyName | Default Value | Description |
---|---|---|
update_interval | 5 minutes | Fixed delay between fetches for the datafile |
sdk_key | nil | Optimizely project SDK key |
url | nil | URL override location used to specify custom HTTP source for the Optimizely datafile |
url_template | 'https://cdn.optimizely.com/datafiles/{sdk_key}.json' | Parameterized datafile URL by SDK key |
datafile | nil | Initial datafile, typically sourced from a local cached source |
auto_update | true | Boolean flag to specify if callback needs to execute infinitely or only once |
start_by_default | true | Boolean flag to specify if datafile polling should start right away as soon as HTTPConfigManager initializes |
blocking_timeout | 15 seconds | Maximum time in seconds to block the config call until config has been initialized |
A notification signal will be triggered whenever a new datafile is fetched and Project Config is updated. To subscribe to these notifications, use the
notification_center.add_notification_listener(Optimizely::NotificationCenter::NOTIFICATION_TYPES[:OPTIMIZELY_CONFIG_UPDATE], @callback)
BatchEventProcessor is a batched implementation of the EventProcessor
-
Events passed to the
BatchEventProcessor
are immediately added to aQueue
. -
The
BatchEventProcessor
maintains a single consumer thread that pulls events off of theQueue
and buffers them for either a configured batch size or for a maximum duration before the resultingLogEvent
is sent to theNotificationCenter
.
event_processor = Optimizely::BatchEventProcessor.new(
event_queue: SizedQueue.new(10),
event_dispatcher: event_dispatcher,
batch_size: 10,
flush_interval: 30000,
logger: logger,
notification_center: notification_center
)
The following properties can be used to customize the BatchEventProcessor
configuration.
Property Name | Default Value | Description |
---|---|---|
event_queue |
1000 | SizedQueue.new(100) or Queue.new . Queues individual events to be batched and dispatched by the executor. Default value is 1000. |
event_dispatcher |
nil | Used to dispatch event payload to Optimizely. By default EventDispatcher.new will be set. |
batch_size |
10 | The maximum number of events to batch before dispatching. Once this number is reached, all queued events are flushed and sent to Optimizely. |
flush_interval |
30000 ms | Maximum time to wait before batching and dispatching events. In milliseconds. |
notification_center |
nil | Notification center instance to be used to trigger any notifications. |
If you enable event batching, make sure that you call the close
method, optimizely.close()
, prior to exiting. This ensures that queued events are flushed as soon as possible to avoid any data loss.
Note: Because the Optimizely client maintains a buffer of queued events, we recommend that you call close()
on the Optimizely instance before shutting down your application or whenever dereferencing the instance.
Method | Description |
---|---|
close() |
Stops all timers and flushes the event queue. This method will also stop any timers that are happening for the datafile manager. |
For Further details see the Optimizely Feature Experimentation documentation to learn how to set up your first Ruby project and use the SDK.
To build a local copy of the gem which will be output to /pkg
:
rake build
You can run all unit tests with:
rake spec
Please see CONTRIBUTING.
This software incorporates code from the following open source projects:
Httparty https://github.com/jnunemaker/httparty Copyright © 2008 John Nunemaker License (MIT): https://github.com/jnunemaker/httparty/blob/master/MIT-LICENSE
JSON Schema Validator https://github.com/ruby-json-schema/json-schema Copyright © 2010-2011, Lookingglass Cyber Solutions License (MIT): https://github.com/ruby-json-schema/json-schema/blob/master/LICENSE.md
Murmurhash3 https://github.com/funny-falcon/murmurhash3-ruby Copyright © 2012 Sokolov Yura 'funny-falcon' License (MIT): https://github.com/funny-falcon/murmurhash3-ruby/blob/master/LICENSE
This software may be used with additional code that is separately downloaded by you. These components are subject to their own license terms, which you should review carefully.
Bundler https://github.com/bundler/bundler Copyright © 2008-2018 Andre Arko, Engine Yard, et al License (MIT): https://github.com/bundler/bundler/blob/master/LICENSE.md
Coveralls https://github.com/lemurheavy/coveralls-ruby Copyright © 2012 Wil Gieseler License (MIT): https://github.com/lemurheavy/coveralls-ruby/blob/master/LICENSE
Rake https://github.com/ruby/rake Copyright © 2004-2017 Jim Weirich License (MIT): https://github.com/ruby/rake/blob/master/MIT-LICENSE
RSpec https://github.com/rspec/rspec Copyright © 2009 Chad Humphries, David Chelimsky Copyright © 2006 David Chelimsky, The RSpec Development Team Copyright © 2005 Steven Baker License (MIT): https://github.com/rspec/rspec/blob/master/LICENSE.md
RuboCop https://github.com/rubocop-hq/rubocop Copyright © 2012-19 Bozhidar Batsov License (MIT): https://github.com/rubocop-hq/rubocop/blob/master/LICENSE.txt
WebMock https://github.com/bblimke/webmock Copyright © 2009-2010 Bartosz Blimke License (MIT): https://github.com/bblimke/webmock/blob/master/LICENSE
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Flutter - https://github.com/optimizely/optimizely-flutter-sdk
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JavaScript - https://github.com/optimizely/javascript-sdk