Using REST APIs from a Backend
As explained in Registration Management, usually the application back-end sends notifications and might perform registrations management. Because there is already a REST wrapper for Node.js in the Azure SDK for Node, this section shows examples in Java.
Sending Notifications
The REST API for sending notifications is a simple POST on /yourHub/messages, with special headers. When sending notifications in a platform-native format, the body is the platform-specific body to be sent. The additional headers are:
ServiceBusNotification-Format: Specifies that the platform (if sending a native notification) or “template” is to send a template notification.
ServiceBusNotification-Tags (optional): Specifies the tag (or tag expression) defining the targeted set of registrations. If this header is not present, the notification hub broadcasts to all registrations.
Other headers are supported for platform-specific functionality, as specified in the Notification Hubs REST APIs documentation.
The following Java code sends a native notification to Windows Store apps (using Apache HttpClient):
public Notification createWindowsNotification(String body) {
Notification n = new Notification();
n.body = body;
n.headers.put("ServiceBusNotification-Format", "windows");
if (body.contains("<toast>"))
n.headers.put("X-WNS-Type", "wns/toast");
if (body.contains("<tile>"))
n.headers.put("X-WNS-Type", "wns/tile");
if (body.contains("<badge>"))
n.headers.put("X-WNS-Type", "wns/badge");
if (body.startsWith("<")) {
n.contentType = ContentType.APPLICATION_XML;
}
return n;
}
public void sendNotification(Notification notification, String tagExpression) {
HttpPost post = null;
try {
URI uri = new URI(endpoint + hubPath + "/messages"+APIVERSION);
post = new HttpPost(uri);
post.setHeader("Authorization", generateSasToken(uri));
if (tagExpression != null && !"".equals(tagExpression)) {
post.setHeader("ServiceBusNotification-Tags", tagExpression);
}
for (String header: notification.getHeaders().keySet()) {
post.setHeader(header, notification.getHeaders().get(header));
}
post.setEntity(new StringEntity(notification.getBody()));
HttpResponse response = httpClient.execute(post);
if (response.getStatusLine().getStatusCode() != 201) {
String msg = "";
if (response.getEntity() != null && response.getEntity().getContent() != null) {
msg = IOUtils.toString(response.getEntity().getContent());
}
throw new RuntimeException("Error: " + response.getStatusLine() + " body: "+msg);
}
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
if (post != null) post.releaseConnection();
}
}
Similarly, the following code sends a template notification:
public Notification createTemplateNotification(Map<String, String> properties) {
Notification n = new Notification();
StringBuffer buf = new StringBuffer();
buf.append("{");
for (Iterator<String> iterator = properties.keySet().iterator(); iterator.hasNext();) {
String key = iterator.next();
buf.append("\""+ key + "\":\""+properties.get(key)+"\"");
if (iterator.hasNext()) buf.append(",");
}
buf.append("}");
n.body = buf.toString();
n.contentType = ContentType.APPLICATION_JSON;
n.headers.put("ServiceBusNotification-Format", "template");
return n;
}
For more information about sending notifications to other platforms, see Notification Hubs REST APIs.
Creating and Updating Registrations
Creating and updating registrations requires the serialization and deserialization of the registration XML format. The Create Registration API topic shows the XML formats for creating different kinds of registrations (native and template for every platform).
Important
The XML elements must be in the exact order shown.
The following is an example of creating a registration in Java, using simple string concatenations to create the registration XML payload, and Apache Digester to parse the result. As previously noted, any XML serialization or deserialization approach works.
public Registration createRegistration(Registration registration) {
HttpPost post = null;
try {
URI uri = new URI(endpoint + hubPath + "/registrations"+APIVERSION);
post = new HttpPost(uri);
post.setHeader("Authorization", generateSasToken(uri));
StringEntity entity = new StringEntity(registration.getXml(),ContentType.APPLICATION_ATOM_XML);
entity.setContentEncoding("utf-8");
post.setEntity(entity);
HttpResponse response = httpClient.execute(post);
if (response.getStatusLine().getStatusCode() != 200)
throw new RuntimeException("Error: " + response.getStatusLine());
return Registration.parse(response.getEntity().getContent());
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
if (post != null) post.releaseConnection();
}
}
The getXml() method for native Windows registrations is as follows:
private static final String WNS_NATIVE_REGISTRATION = "<?xml version=\"1.0\" encoding=\"utf-8\"?><entry xmlns=\"http://www.w3.org/2005/Atom\"><content type=\"application/xml\"><WindowsRegistrationDescription xmlns:i=\"http://www.w3.org/2001/XMLSchema-instance\" xmlns=\"https://schemas.microsoft.com/netservices/2010/10/servicebus/connect\">{0}<ChannelUri>{1}</ChannelUri></WindowsRegistrationDescription></content></entry>";
public String getXml() {
String xml = WNS_NATIVE_REGISTRATION.replaceFirst("\\{1\\}", channelUri.toString());
xml = xml.replaceFirst("\\{0\\}", getTagsXml());
return xml.toString();
}
You can easily derive the methods for other registration types from the examples in the Create Registration API topic.
The response contains the result of the creation, including read-only properties such as RegistrationId, ETag, and ExpirationTime. The following code example parses the result using Apache Digester:
public static Registration parse(InputStream content) throws IOException,
SAXException {
Digester digester = new Digester();
digester.addObjectCreate("*/WindowsRegistrationDescription",
WindowsRegistration.class);
digester.addCallMethod("*/RegistrationId", "setRegistrationId", 1);
digester.addCallParam("*/RegistrationId", 0);
digester.addCallMethod("*/ETag", "setEtag", 1);
digester.addCallParam("*/ETag", 0);
digester.addCallMethod("*/ChannelUri", "setChannelUri", 1);
digester.addCallParam("*/ChannelUri", 0);
digester.addCallMethod("*/Tags", "setTagsFromString", 1);
digester.addCallParam("*/Tags", 0);
digester.addCallMethod("*/BodyTemplate", "setBodyTemplate", 1);
digester.addCallParam("*/BodyTemplate", 0);
digester.addCallMethod("*/WnsHeader", "addHeader", 2);
digester.addCallParam("*/WnsHeader/Header", 0);
digester.addCallParam("*/WnsHeader/Value", 1);
return digester.parse(content);
}
Note that the Create call returns a registrationId, which is used to retrieve, update, or delete the registration.
Note
The preceding snippet assumes that there is a subclass of Registration called WindowsRegistrationDescription.
You can update a registration by issuing a PUT call on /yourhub/registrations/{registrationId}. The If-Match header is used to provide an ETag (supporting optimistic concurrency) or simply a “*” to always overwrite. If the If-Match header is not present, the operation performs an “upsert” (always overwriting the current registration, or creating one on the provided registrationId if it is not present). For example:
public Registration updateRegistration(Registration registration) {
HttpPut put = null;
try {
URI uri = new URI(endpoint + hubPath + "/registrations/"+registration.getRegistrationId()+APIVERSION);
put = new HttpPut(uri);
put.setHeader("Authorization", generateSasToken(uri));
put.setHeader("If-Match", registration.getEtag()==null?"*":"W/\""+registration.getEtag()+"\"");
put.setEntity(new StringEntity(registration.getXml(),ContentType.APPLICATION_ATOM_XML));
HttpResponse response = httpClient.execute(put);
if (response.getStatusLine().getStatusCode() != 200)
throw new RuntimeException("Error: " + response.getStatusLine());
return Registration.parse(response.getEntity().getContent());
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
if (put != null) put.releaseConnection();
}
}
Delete Registration is a similar operation.
Retrieving Registrations
When retrieving a registration, issue a GET call on the /registrations/{registrationId}. You retrieve a collection of registrations as specified in the following REST APIs:
You then have the option to specify a $top parameter which limits the number of registrations returned. If more registrations are present for that query, then a X-MS-ContinuationToken header is returned, which you can pass to subsequent calls in order to continue retrieving the remaining registrations. Also note that the format of the body is now an XML Atom feed, as shown in the previously-mentioned API topics.
The following Java code from minterastlib retrieves all registrations with a tag;
private CollectionResult retrieveRegistrationByTag() {
String queryUri = endpoint + hubPath + "/tags/"+tag+"/registrations"+APIVERSION;
HttpGet get = null;
try {
URI uri = new URI(queryUri);
get = new HttpGet(uri);
get.setHeader("Authorization", generateSasToken(uri));
HttpResponse response = httpClient.execute(get);
if (response.getStatusLine().getStatusCode() != 200)
throw new RuntimeException("Error: " + response.getStatusLine());
CollectionResult result = Registration.parseRegistrations(response.getEntity().getContent());
Header contTokenHeader = response.getFirstHeader("X-MS-ContinuationToken");
if (contTokenHeader !=null) {
result.setContinuationToken(contTokenHeader.getValue());
}
return result;
} catch (Exception e) {
throw new RuntimeException(e);
} finally {
if (get != null) get.releaseConnection();
}
}
In this code, a CollectionResult encapsulates a set of registrations along with an optional continuation token.
The following code uses Apache Digester:
public static CollectionResult parseRegistrations(InputStream content)
throws IOException, SAXException {
Digester digester = new Digester();
// add all rules for parsing single registrations
digester.addObjectCreate("feed", CollectionResult.class);
digester.addSetNext("*/WindowsRegistrationDescription", "addRegistration");
// add rules for other types of registrations (if required)
return digester.parse(content);
}