- Lightning fast push notification delivery
- Redis for queueing
- Redis or YAML for configuration
- Multi-App
- Multi-Provider (APNS, APNS2, GCM, FCM, WNS)
- Multi-process
- Integrated feedback processing
Add to your Gemfile
gem 'pushr-core'
and add the push provider to you Gemfile:
For APNS (iOS: Apple Push Notification Services):
gem 'pushr-apns'
For GCM (Android: Google Cloud Messaging):
gem 'pushr-gcm'
And run bundle install
to install the gems.
The configuration of Pushr can either be stored in Redis or in a YAML file. The default is Redis.
If you want to use a YAML file, you need to specify it via the -c
option of the pushr
daemon.
Note that this will also override any existing Redis configuration.
APNS certificates can be loaded from file. If a relative file name is given, it's assumed to be relative to the same path as the YAML config file.
By default the gem tries to connect to a Redis instance at localhost. If you define the PUSHR_URL
environment variable
it will use that. The configuration is stored in Redis and you add the configuration per push provider with the console
(bundle console
):
APNS (see):
Pushr::ConfigurationApns.create(app: 'app_name', connections: 2, enabled: true,
certificate: File.read('certificate.pem'), sandbox: false, skip_check_for_error: false)
The skip_check_for_error
parameter can be set to true
or false
. If set to true
the APNS service
will not check for errors when sending messages. This option should be used in a production environment and improves
performance. In production the errors are reported and handled by the feedback service. Please note that if you use
sandbox devices in your production environment you should not set skip_check_for_error = true
.
APNS Feedback:
Pushr::ConfigurationApnsFeedback.create(app: 'app_name', connections: 1, enabled: true,
feedback_poll: 60)
Use this configuration to let a thread check for feedback on all APNS Configurations. It checks every feedback_poll
in seconds.
There should be only one instance of this configuration type.
GCM (see):
Pushr::ConfigurationGcm.create(app: 'app_name', connections: 2, enabled: true, api: '<api key here>')
You can have each provider per app_name and you can have more than one app_name. Use the instructions below to generate
the certificate for the APNS provider. If you only want to prepare the database with the configurations, you can set the
enabled
switch to false
. Only enabled configurations will be used by the daemon.
If a YAML file is used for configuration, it needs to follow the structure of the example below, and may contain only the desired sections. The certificates will be read from files. For security reasons, you might not want to check-in the certificate files into your source code repository.
If no absolute path is given of the PEM files, the location is assumed to be relative to the location of the YAML file. An example
of a YAML configuration file can be found under ./lib/generators/templates/pushr.yml
.
If you are using Pushr
with Rails, add this to your config/initializers/pushr.rb
file:
Pushr::Core.configure do |config|
config.configuration_file = File.join(Rails.root , 'config/pushr/config.yaml')
end
-
Open up Keychain Access and select the
Certificates
category in the sidebar. -
Expand the disclosure arrow next to the iOS Push Services certificate you want to export.
-
Select both the certificate and private key.
-
Right click and select
Export 2 items...
. -
Save the file as
cert.p12
, make sure the File Format isPersonal Information Exchange (p12)
. -
If you decide to set a password for your exported certificate, please read the Configuration section below.
-
Convert the certificate to a .pem, where
<environment>
should bedevelopment
orproduction
, depending on the certificate you exported.openssl pkcs12 -nodes -clcerts -in cert.p12 -out <environment>.pem
-
Move the .pem file somewhere where you can use the
File.read
to load the file in the database.
To start the daemon:
bundle exec pushr <options>
Where <options>
can be:
-f, --foreground Run in the foreground. Log is not written.
-c, --configuration FILE Read the configuration from this YAML file
-o, --redis-host HOST Hostname of redis instance
-r, --redis-port PORT Port of redis instance
-n, --redis-namespace NAMESPACE Namespace on redis connection
-p, --pid-file PATH Path to write PID file. Relative to current directory unless absolute.
-b, --feedback-processor PATH Path to the feedback processor. Default: none. Example: 'lib/pushr/feedback_processor'
-s, --stats-processor PATH Path to the stats processor. Default: none. Example: 'lib/pushr/stats_processor'
-v, --version Print this version of pushr.
-h, --help You're looking at it.
Use the new
and save
methods to create a message or use the create
and create!
methods. These methods are
similar to the ActiveRecord model methods.
APNS:
Pushr::MessageApns.create(
app: 'app_name', # required: String, the name of the configuration
device: '<APNS device_token here>', # required: String, token of the device
expiry: 1.day.from_now.to_i, # required: Integer, A UNIX epoch date expressed in seconds
priority: 10, # required: Integer, 10 or 5 (should be 10 if message includes an alert, sound or badge)
alert: 'Hello World', # optional: String or Hash, read APNS documentation for more information
sound: '1.aiff', # optional: String, sound to play
badge: 1, # optional: Integer, display badge on homescreen
attributes_for_device: {key: 'MSG'}, # optional: Hash, send additional parameters
content_available: 1) # optional: Integer, 1 if device should be notified if new content is available
Silent Push Notification via APNS:
Pushr::MessageApns.create(
app: 'app_name',
device: '<APNS device_token here>',
alert: nil,
sound: nil,
badge: 1,
content_available: 1, # see footnote
expiry: 1.day.to_i,
attributes_for_device: nil)
Use content_available: 1
if the iOS device should start your app upon receiving the silent push notification.
GCM:
Pushr::MessageGcm.create(
app: 'app_name', # required: String, the name of the configuration
registration_ids: ['<registration_id>', '...'], # required: Array of registration ids
notification_key: 'notification_key_name', # optional: String, Use with User Notifications
delay_while_idle: true, # optional: Boolean, message is received if device is active
data: { message: 'Hello World' }, # optional: Hash, contains information for the app
time_to_live: 24 * 60 * 60, # optional: Integer, in seconds how long the message will be stored
restricted_package_name: 'com.example.gcm', # optional: String, message will only be received with this package name
dry_run: false, # optional: Boolean, do not actually deliver the message to the app
collapse_key: 'MSG') # optional: String, messages with the same key can be collapsed into one
The push providers return feedback in various ways and these are captured and stored in the push_feedback
table. The
installer installs the lib/pushr/feedback_processor.rb
file which is by default called every 60 seconds. In this file
you can process the feedback which is different for every application.
If you have your own message-IDs for notifications in your system and want to track them throughout the message delivery, so they show up in all the logs you can add this during message creation:
external_id: your_external_id_here
You can also set the prefix under which your message ID will show up in the logs:
Pushr::Core.configure do |config|
config.external_id_tag = 'MyID' # will pre-fix the above message ID with this string
end
This can be useful if you want to automatically ingest your log files for analytics.
Furthermore you can hand your message-ID to the mobile device, so it can either log it, or the mobile device can return a call to an API endpoint to record the time the message was actually received. This way you can measure end-to-end delivery times. This works best for silent push notifications in APNS.
Push runs on Heroku with the following line in the Procfile
.
pushr: bundle exec pushr -f
- Ruby 1.9.3, 2.0, 2.1
- Redis