Noticent is a Ruby gem for user notification management. It is written to deliver a developer friendly way to managing application notifications in a typical web application. Many applications have user notification: sending emails when a task is done or support for webhooks or Slack upon certain events. Noticent makes it easy to write maintainable code for notification subscription and delivery in a typical web application.
The primary design goal for Noticent is developer friendliness. Using Noticent, you should be able to:
- Create new notification types
- Tell the current state of notifications, subscriptions and distribution channels.
- Support multiple notification channels like email, chat applications, mobile push, webhooks and more.
- Test your notifications
Add this line to your application's Gemfile:
gem 'noticent'
And then execute:
bundle
Or install it yourself as:
gem install noticent
rails g noticent:install
Now run the migrations
rake db:migrate
Noticent is written to be used in a Rails application but you should be able to use it in other Ruby / Rack based applications if you need to.
Noticent uses the following concepts:
Alert is a type of notification. For example, a new user signing up could be defined as an Alert.
Scope is like a namespace for Alerts. In many applications, you will only have 1 Scope. However, sometimes you might have different types of Alerts for different parts of your application. For example, "new blog post written" and "blog post updated" Alerts could be associated with the a "blog" Scope, while a "new comment added" Alert is associated with another Scope. Using Scope is useful when you have many different groups of Alerts in your application.
Channel is a distribution channel for your Alerts. Examples of Channels are Email, Slack, Webhook, Mobile or browser notification.
Recipient is a person or system that receives Alerts. This could be a user for Channels like Email or a system for a Webhook Channel.
Payload is a data structure (class) that carries everything you'd need to send an Alert to a Recipient over a Channel.
A product acts as a filter on alerts. For example, you might want to list different set of alerts for different parts of your application. To achieve that you can define each part as a product and use applies.to
and applies.not_to
to say how an alert applies to each part of the application.
Products don't have an effect on how alerts are run, but they can be used to list which alerts apply to each part of an application using Noticent.configuration.product_by_alert
method.
If an alert doesn't have an applies
, it will be applicable to none of the products defined.
Noticent tries to make very few assumptions about your application, like what you call your Recipients or what your Scopes are. However it also enforces some opinions to make the whole system easier to use and maintain.
The most important part of using Noticent is the configuration part where you define scopes, channels and your alerts. Once configured, you can hook it up to the rest of your code. This example assumes integration in a Rails application.
If you have run the generators, you should now have a file called config/initializers/noticent.rb
. You can edit it as you like:
Noticent.configure do
channel :email
scope :account do
alert(:new_signup){ notify :owner}
alert(:new_team_member) { notify :users }
end
end
Now you'd need to tell Noticent how to send emails by creating an email channel. This can be done in app/models/noticent/channels/email.rb
:
class Email < ::Noticent::Channel
def new_signup
# send email here
end
def new_team_member
# send email here
end
end
Now that we have our channel, we can define a Payload. We can do this in app/modesl/noticent/account_payload.rb
:
class AccountPayload
attr_reader :account
attr_reader :current_user
def initializer(account_id, current_user)
@account = Account.find account_id
end
def users
@account.users
end
def owner
@account.owner
end
end
You can now create your email templates in app/models/noticent/views/email
with 2 files called new_signup.html.erb
and new_team_member.html.erb
the same way you would write email templates for Rails mailers:
Hello <%= @owner.name %>!
A new user just signed up.
and
You now have a new team member. Make sure to say hi!
Until now, this is very much like Rail's own mailers and follows the same principles: Payload is like a model, Channel is the equivalent of a controller and the html view file is the view.
This first difference here is that you can use "front matter" in your views. This is useful when you need more than just text or HTML in your notifications. For an email channel, the front matter can hold a template for the email subject for example:
subject: New member for <%= @team.name %>
---
Hello!
You now have a new team member who signed up as an admin for <%= @team.name %>
In the channel, you can use this:
class EmailChannel < ::Noticent::Channel
def new_member
data, content = render
send_email(subject: data[:subject], content: content) # this is an example code
end
end
The render
method looks for the right file under the views
directory and loads and renders the ERB file while returning any front matter if available.
Use of front matter becomes more important in channels that have a more complex API like Slack (message color can be stored in the front matter) for example.
Now let's go back to our configuration file and see what else we can do. Here is an example of a Noticent configuration file in full:
Noticent.configure do
hooks :pre_channel_registration, my_hooks
hooks :post_alert_registration, my_hooks
channel :email
channel :slack
channel :webhook, klass: MyWebhookChannel
channel :dashboard, group: :internal
product :product_foo
product :product_buzz
product :product_bar
scope :account, check_constructor: false do
alert :new_user do
applies.to :product_foo
notify :users
notify(:staff).on(:internal)
notify :owners
default true
end
end
scope :comment do
alert :new_comment, constructor_name: :some_constructor do
applies.not_to :product_buzz
notify :commenter
notify :author
default true
default(false) { on(:email) }
end
alert :comment_updated do
notify :commenter
end
end
scope :staff_comment, payload_class: AnotherPayloadClass do
alert :marked_as_answer do
notify(:staff).on(:internal)
end
end
end
To send an Alert, call the notify
method:
account_payload = AccountPayload.new(1, user.first)
Noticent.notify(:new_user, account_payload)
While it is possible to define and use alert names as symbols, Noticent also creates a constant with the name of the alert under the Noticent
namespace to help with the use of alert names.
By using the constants you can make sure alert names are free of typos.
For example, if you have an alert called some_event
then after configuration there will be a constant called Noticent::ALERT_SOME_EVENT
available to use with the value :some_event
.
To understand how to use Noticent, it's important to know the conventions it uses. First, payloads: A payload is a class and should have methods named after each one of the recipient groups specified in the configuration. For example, if an alert should be sent to users
then payload should have a method or attribute called users
. This method is called at the point the notifications need to be sent to retrieve the recipients. It is up to you what each recipient is: it could be an email address (string) or the entire user object or an ID. Your channel class will be given this and should know how to handle it.
It is recommended to explicitly define the class type of each scope. This ensures integrity of the alerts in runtime:
Noticent.configure do
scope :account, payload_class: SomeOtherClass do
#...
end
end
If specified, the type of the payload is checked against this class at runtime (when Notify
is called).
To enforce development type consistency payload should have class method constructors that are named after the alert names. This can be turned off by setting check_constructor
on scopes to false
.
To share the same class method constructor for different alerts, you can use the constructor_name
on alert to tell Noticent to look for a constructor that is not named after the alert itself.
This is a validation step only and doesn't affect the performance of Noticent.
Channels should be derived from ::Noticent::Channel
class and called the same as with the name of the channel with a Channel
suffix: email
would be EmailChannel
and slack
will be SlackChannel
. Also, channels should have a method for each type of alert they are supposed to handle. Channel class can be changed using the klass
argument during definition.
Channels can also have groups. If no group is supplied, a channel will belong to the default
group. Groups can be used to send alerts to a subset of channels:
Noticent.configure do
channel :email
channel :private_emails, group: :internal
channel :slack
channel(:team_slack, klass: Slack, group: :internal) do
using(fuzz: :buzz)
end
alert :some_event do
notify :users
notify(:staff).on(:internal)
end
end
In the example above, we are creating 2 flavors of the slack channel, one called team_slack
but using the same class and configured differently. When using
is used in a channel, any attribute passed into using
will be called on the channel after creation with the given values.
For example, in this example, the Slack
class is instantiated and attribute fuzz
is set to :buzz
on it before the alert method is called.
You can use on
with a channel name instead of a channel group name instead:
Noticent.configure do
channel :email
channel :private_emails, group: :internal
channel :slack
alert :some_event do
notify(:users).on(:internal) # this is a group name
notify(:staff).on(:slack) # this is a channel name
end
end
You can use render
in the channel code to render and return the view file and its front matter (if available). By default, channel will look for html
and erb
as the file content and format. You can change these both when calling render
or at the top of the controller:
class SlackChannel < ::Noticent::Channel
default_format :json
default_ext :erb
end
or
data, content = render(format: :erb, ext: :json)
You can also use a different layout for each render:
data, content = render layout: 'my_layout'
By default, no layout is used.
Views are like Rails views. Noticent supports rendering ERB files. You can also use layouts just like Rails. A layout is like a shared template layout.html.erb
:
This is at the top
<%= @content %>
This is at the bottom
some_event.html.erb
:
foo: bar
buzz: fuzz
---
This will be in the middle
Views can be of any type, like HTML or JSON which can be useful with API based channels.
Noticent uses a combination of channel, alert and scope to determine if a recipient has subscribed to receive an alert or not. By default it uses the ActiveRecordOptInProvider
class which uses a single database table for the process. You can write your own Opt-in provider if you want to store subscription (opt-in) state in a different place. See ActiveRecordOptInProvider
for what such provider requires to operate.
Use Noticent.configuration.opt_in_provider
's opt_in
, opt_out
and opted_in?
methods to change the opt-in state of each recipient.
You can specify a default opt-in value for each alert. By default alerts have a default value of false
(no opt-in) unless this is globally changed (see Customization section).
The default value for an alert can be set while this can also be changed per channel. For example:
Noticent.configure do
channel :email
channel :slack
channel :webhook
scope :post do
alert :foo do
notify :users
default(true) # sets the default value for all channels for this alert to true
default(false) { on(:slack) } # sets the default value for this alert to false for the slack channel only
end
end
end
Noticent provides a method to add new alerts or remove deprecated alerts from the existing recipients. To add a new alert type, you can use ActiveRecordOptInProvider.add_alert
method:
Noticent.opt_in_provider.add_alert(scope: :foo, alert_name: :some_new_alert, recipient_ids: [1, 2, 3, 5, 6], channel: :email)
This will opt-in recipients with the given IDs for the new alert on the email
channel.
To remove any deprecated alert, use the ActiveRecordOptInProvider.remove_alert
method:
Noticent.opt_in_provider.remove_alert(scope: :foo, alert_name: :some_old_alert)
This removes all instances of the old alert from the opt-ins.
When a new recipient signs up, you might want to make sure they have all the default alerts setup for them. You can achieve this by calling Noticent.setup_recipient
:
Noticent.setup_recipient(recipient_id: 1, scope: :post, entity_ids: [2])
This will adds the default opt-ins for recipient 1 on all channels that are applicable to it on scope post
for entity 2.
Every time Noticent starts, it runs some validations on the configuration, classes that are defined, channels and alerts to make sure they are defined correctly and the supporting classes are in compliance with the requirements.
TO BE WRITTEN
Hooks are extension points for Noticent. You can register them in your configuration:
Noticent.configure do
hooks.add(:pre_channel_registration, custom_hook)
end
The valid hook points are pre_channel_registration
, post_channel_registration
, pre_alert_registration
and post_alert_registration
. Once the hook point is reached, the given object is called on the same method name as with the hook name.
The following items can be customized:
base_dir
: Base directory for all Noticent assets.
base_module_name
: Base module name for all Noticent assets.
opt_in_provider
: Opt-in provider class. Default is ActiveRecordOptInProvider
.
logger
: Logger class. Default is stdout
halt_on_error
: Should notification fail after the first incident of an error during rendering. Default is false
default_value
: Default value for all alerts unless explicitly specified. Default is false
use_sub_modules
: If set to true, Noticent will look for Channel and Scope classes in sub modules under the base_module_name
.
With use_sub_modules
set to false, a channel named :email
should be called Noticent::Email
(if base_module_name
is Noticent
), while with use_sub_modules
set to true, the same class should be Noticent::Channels::Email
.
For Payloads, the sub module name will be Payloads
.
After checking out the repo, run bin/setup
to install dependencies. You can also run bin/console
for an interactive prompt that will allow you to experiment.
To install this gem onto your local machine, run bundle exec rake install
. To release a new version, update the version number in version.rb
, and then run bundle exec rake release
, which will create a git tag for the version, push git commits and tags, and push the .gem
file to rubygems.org.
Bug reports and pull requests are welcome on GitHub at https://github.com/khash/noticent.