sideshow / apns2

⚡ HTTP/2 Apple Push Notification Service (APNs) push provider for Go — Send push notifications to iOS, tvOS, Safari and OSX apps, using the APNs HTTP/2 protocol.
MIT License
3.02k stars 336 forks source link
apns apns-http apns2 apple apple-push-notifications golang http2 jwt jwt-token notifications safari-push-notifications

APNS/2

APNS/2 is a go package designed for simple, flexible and fast Apple Push Notifications on iOS, OSX and Safari using the new HTTP/2 Push provider API.

Build Status Coverage Status GoDoc

Features

Install

go get -u github.com/sideshow/apns2

If you are running the test suite you will also need to install testify:

go get -u github.com/stretchr/testify

Example

package main

import (
  "log"
  "fmt"

  "github.com/sideshow/apns2"
  "github.com/sideshow/apns2/certificate"
)

func main() {

  cert, err := certificate.FromP12File("../cert.p12", "")
  if err != nil {
    log.Fatal("Cert Error:", err)
  }

  notification := &apns2.Notification{}
  notification.DeviceToken = "11aa01229f15f0f0c52029d8cf8cd0aeaf2365fe4cebc4af26cd6d76b7919ef7"
  notification.Topic = "com.sideshow.Apns2"
  notification.Payload = []byte(`{"aps":{"alert":"Hello!"}}`) // See Payload section below

  // If you want to test push notifications for builds running directly from XCode (Development), use
  // client := apns2.NewClient(cert).Development()
  // For apps published to the app store or installed as an ad-hoc distribution use Production()

  client := apns2.NewClient(cert).Production()
  res, err := client.Push(notification)

  if err != nil {
    log.Fatal("Error:", err)
  }

  fmt.Printf("%v %v %v\n", res.StatusCode, res.ApnsID, res.Reason)
}

JWT Token Example

Instead of using a .p12 or .pem certificate as above, you can optionally use APNs JWT Provider Authentication Tokens. First you will need a signing key (.p8 file), Key ID and Team ID from Apple. Once you have these details, you can create a new client:

authKey, err := token.AuthKeyFromFile("../AuthKey_XXX.p8")
if err != nil {
  log.Fatal("token error:", err)
}

token := &token.Token{
  AuthKey: authKey,
  // KeyID from developer account (Certificates, Identifiers & Profiles -> Keys)
  KeyID:   "ABC123DEFG",
  // TeamID from developer account (View Account -> Membership)
  TeamID:  "DEF123GHIJ",
}
...

client := apns2.NewTokenClient(token)
res, err := client.Push(notification)

Notification

At a minimum, a Notification needs a DeviceToken, a Topic and a Payload.

notification := &apns2.Notification{
  DeviceToken: "11aa01229f15f0f0c52029d8cf8cd0aeaf2365fe4cebc4af26cd6d76b7919ef7",
  Topic: "com.sideshow.Apns2",
  Payload: []byte(`{"aps":{"alert":"Hello!"}}`),
}

You can also set an optional ApnsID, Expiration or Priority.

notification.ApnsID =  "40636A2C-C093-493E-936A-2A4333C06DEA"
notification.Expiration = time.Now()
notification.Priority = apns2.PriorityLow

Payload

You can use raw bytes for the notification.Payload as above, or you can use the payload builder package which makes it easy to construct APNs payloads.

// {"aps":{"alert":"hello","badge":1},"key":"val"}

payload := payload.NewPayload().Alert("hello").Badge(1).Custom("key", "val")

notification.Payload = payload
client.Push(notification)

Refer to the payload docs for more info.

Response, Error handling

APNS/2 draws the distinction between a valid response from Apple indicating whether or not the Notification was sent or not, and an unrecoverable or unexpected Error;

To check if a Notification was successfully sent;

res, err := client.Push(notification)
if err != nil {
  log.Println("There was an error", err)
  return
}

if res.Sent() {
  log.Println("Sent:", res.ApnsID)
} else {
  fmt.Printf("Not Sent: %v %v %v\n", res.StatusCode, res.ApnsID, res.Reason)
}

Context & Timeouts

For better control over request cancellations and timeouts APNS/2 supports contexts. Using a context can be helpful if you want to cancel all pushes when the parent process is cancelled, or need finer grained control over individual push timeouts. See the Google post for more information on contexts.

ctx, cancel = context.WithTimeout(context.Background(), 10 * time.Second)
res, err := client.PushWithContext(ctx, notification)
defer cancel()

Speed & Performance

Also see the wiki page on APNS HTTP 2 Push Speed.

For best performance, you should hold on to an apns2.Client instance and not re-create it every push. The underlying TLS connection itself can take a few seconds to connect and negotiate, so if you are setting up an apns2.Client and tearing it down every push, then this will greatly affect performance. (Apple suggest keeping the connection open all the time).

You should also limit the amount of apns2.Client instances. The underlying transport has a http connection pool itself, so a single client instance will be enough for most users (One instance can potentially do 4,000+ pushes per second). If you need more than this then one instance per CPU core is a good starting point.

Speed is greatly affected by the location of your server and the quality of your network connection. If you're just testing locally, behind a proxy or if your server is outside USA then you're not going to get great performance. With a good server located in AWS, you should be able to get decent throughput.

Command line tool

APNS/2 has a command line tool that can be installed with go get github.com/sideshow/apns2/apns2. Usage:

apns2 --help
usage: apns2 --certificate-path=CERTIFICATE-PATH --topic=TOPIC [<flags>]

Listens to STDIN to send notifications and writes APNS response code and reason to STDOUT.

The expected format is: <DeviceToken> <APNS Payload>
Example: aff0c63d9eaa63ad161bafee732d5bc2c31f66d552054718ff19ce314371e5d0 {"aps": {"alert": "hi"}}
Flags:
      --help               Show context-sensitive help (also try --help-long and --help-man).
  -c, --certificate-path=CERTIFICATE-PATH
                           Path to certificate file.
  -t, --topic=TOPIC        The topic of the remote notification, which is typically the bundle ID for your app
  -m, --mode="production"  APNS server to send notifications to. `production` or `development`. Defaults to `production`
      --version            Show application version.

License

The MIT License (MIT)

Copyright (c) 2016 Adam Jones

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON INFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.