This library is currently unstable. We know of rough edges and are working to bring it to parity with our other API client libraries. Please feel free to try it out and let us know if you find it useful!
This library wraps the ngrok HTTP API to make it easier to consume in Java.
This library is published on Maven Central.
In your Maven pom.xml file, add:
<dependencies>
<dependency>
<groupId>com.ngrok</groupId>
<artifactId>ngrok-api-java</artifactId>
<version>${ngrok-api-java.version}</version>
</dependency>
</dependencies>See the above URL for the latest version of the API client.
The best place to get support using this library is through the ngrok Slack Community. If you find any bugs, please contribute by opening a new GitHub issue.
All objects, methods and properties are documented with Javadoc for integration with an IDE like IntelliJ IDEA or Eclipse. You can also view the documentation online.
Beyond that, this readme is the best source of documentation for the library.
This class library is published to Maven Central using semantic versioning. Breaking changes to the API will only be released with a bump of the major version number. Each released commit is tagged in this repository.
No compatibility promises are made for versions < 1.0.0.
First, use the ngrok dashboard to generate an API key. Store that in a
safe place. Inject it into your application using the environment
variable NGROK_API_KEY. The Ngrok.createDefault() method will pull
from that environment variable. If you prefer, you can also pass the API
key explicitly.
import com.ngrok.*;
import java.util.concurrent.CompletableFuture;
import java.util.stream.Stream;
public class Example {
public static void main(final String[] args) {
final var ngrok = Ngrok.createDefault();
ngrok.ipPolicies().create().call().thenCompose(policy ->
CompletableFuture.allOf(
Stream.of("24.0.0.0/8", "12.0.0.0/8")
.map(cidr ->
ngrok.ipPolicyRules()
.create(cidr, policy.getId(), "allow")
.call()
.toCompletableFuture()
)
.toArray(CompletableFuture[]::new)
)
).toCompletableFuture().join();
}
}import com.ngrok.*;
import com.ngrok.definitions.*;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionStage;
public class Example {
public static void main(final String[] args) {
final var ngrok = Ngrok.createDefault();
System.out.println("Tunnels:");
ngrok.tunnels().list().call()
.thenCompose(tunnelPage -> printRecursively(ngrok, tunnelPage))
.toCompletableFuture().join();
}
private static CompletionStage<Void> printRecursively(final Ngrok ngrok, final Page<TunnelList> currentPage) {
currentPage.getPage().getTunnels.forEach(System.out::println);
return currentPage.next().thenCompose(maybeTunnelPage -> maybeTunnelPage
.map(tunnelPage -> printRecursively(ngrok, tunnelPage))
.orElseGet(() -> CompletableFuture.<Void>completedFuture(null))
);
}
}Conventional usage of this package is to construct a root Ngrok object
using the static createDefault() method. You can then access API
resources using that object. Do not construct the individual API
resource client classes in your application code.
You can also customize low-level behavior by instantiating the
DefaultNgrokApiClient yourself, and then using it to construct the
Ngrok instance. If you'd like to use a different HTTP library
entirely, you can even implement the NgrokApiClient interface
yourself.
import com.ngrok.*;
public class Example {
public static void main(final String[] args) {
// Create the root api client using an API key from the environment variable NGROK_API_KEY
final var defaultNgrok = Ngrok.createDefault();
// ... or create the root api client using an API key provided directly
final var defaultNgrokWithApiKey = Ngrok.createDefault("my secret api key");
// ... or create the root api client by customizing the low-level networking details
final var customApiClient = DefaultNgrokApiClient
.newBuilder(System.getenv("NGROK_API_KEY"))
.ojectMapper(new ObjectMapper().registerModule(new JavaTimeModule()).registerModule(new Jdk8Module()))
.baseUri(URI.create("https://some-other-server.com"))
.build();
final var ngrokWithCustomApiClient = new Ngrok(customApiClient);
// Clients for all api resources (like ip policies) are acccessible via methods on the root client
final var policy = defaultNgrok.ipPolicies()
.get(policyId)
.call().toCompletableFuture().join();
// Some api resources are 'namespaced' through another method
final var circuitBreaker = defaultNgrok.pointcfgModule()
.circuitBreaker()
.get(endpointConfigId).call()
.toCompletableFuture().join();
}
}All list responses from the ngrok API are paged. All list response
objects implement the Pageable interface, and are wrapped in a Page
class, which has a next() method. Calling next() will asyncronously
request the next page. If no next page is available, an empty Optional
will be returned inside the CompletionStage.
import com.ngrok.*;
import com.ngrok.definitions.*;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.CompletionStage;
public class Example {
public static void main(final String[] args) {
final var ngrok = Ngrok.createDefault();
ngrok.credentials().list().call()
.thenCompose(credentialPage -> printRecursively(ngrok, credentiasPage))
.toCompletableFuture().join();
}
private static CompletionStage<Void> printRecursively(final Ngrok ngrok, final Page<CredentialList> currentPage) {
currentPage.getPage().getTunnels.forEach(System.out::println);
return currentPage.next().thenCompose(maybeCredentialPage -> maybeCredentialPage
.map(credentialPage -> printRecursively(ngrok, credentialPage))
.orElseGet(() -> CompletableFuture.<Void>completedFuture(null))
);
}
}All errors returned by the ngrok API are serialized as structured
payloads for easy error handling. If a structured error is returned by
the ngrok API, this library will return a failed CompletionStage
containing a NgrokApiError.
This object will allow you to check the unique ngrok error code and the
http status code of a failed response. Use the getErrorCode() method
to check for unique ngrok error codes returned by the API. All error
codes are documented at
https://ngrok.com/docs/errors. There is
also an isErrorCode() method on the exception object to check against
multiple error codes. The getHttpStatusCode() method can be used to
check not found errors.
Other non-structured errors encountered while making an API call from e.g. networking or serialization failures are not wrapped in any way and will bubble up as normal.
import com.ngrok.*;
import com.ngrok.definitions.*;
public class Example {
public static void main(final String[] args) {
final var ngrok = Ngrok.createDefault();
ngrok.reservedDomains().create(System.getenv("NGROK_DOMAIN"))
.description("example domain")
.call()
.whenComplete((domain, error) -> {
if (error != null) {
if (error instanceof NgrokApiError ngrokError) {
if (ngrokError.isErrorCode("NGROK_ERR_402", "NGROK_ERR_403")) {
System.out.println("Ignoring invalid wildcard domain.");
} else {
System.out.printf("API Error (%s): %s%n", ngrokError.getErrorCode().orElse(""), ngrokError.getMessage());
}
} else {
System.out.println("Other error: " + error.getMessage());
}
} else {
System.out.println("Successfully reserved domain");
}
})
.toCompletableFuture().join();
}
}All datatype objects in the ngrok API library properly override
equals() and hashCode() so that the objects can be compared.
Similarly, they override toString() for more helpful pretty printing
of ngrok domain objects.
The call() method on each API client operation is asynchronous and
returns a CompletionStage. If you require a synchronous call, you can
use blockingCall() instead.