Java library for VK API interaction, includes OAuth 2.0 authorization and API methods. Full VK API features documentation can be found here.
This library has been created using the VK API JSON Schema. It can be found here. It uses VK API version 5.130.
VK Java SDK uses:
- Apache Http Client version 4.5.8
- SLF4J version 1.7.26
- Apache Commons Lang version 3.6
- Apache Commons Collections version 4.3
- Apache Commons IO version 2.6
- Google Gson version 2.8.5
To add a dependency on VK Java SDK using Maven, use the following:
<dependency>
<groupId>com.vk.api</groupId>
<artifactId>sdk</artifactId>
<version>LATEST_VERSION</version>
</dependency>
To add a dependency using Gradle:
dependencies {
compile 'com.vk.api:sdk:LATEST_VERSION'
}
Create a new VK application here to use VK Java SDK. Please choose an application type depending on which authorization pattern you need. It should be "Standalone" for Direct Authorization, "Web site" for Authorization Code Flow for server side requests and any of them for Client Credentials Flow.
Fill in the title, confirm the action via SMS and you will be redirected to the application settings page.
You will need your application ID (referenced as API_ID in the documentation), secure key (CLIENT_SECRET) and authorized redirect URI (REDIRECT_URI).
VK Java SDK uses SLF4J for logging. If you want to turn on logging, you must include a plugin that bridges SLF4J with a concrete logging framework. See SLF4J documentation.
Maven:
<dependencies>
<dependency>
<groupId>org.slf4j</groupId>
<artifactId>slf4j-jdk14</artifactId>
<version>1.7.26</version>
</dependency>
</dependencies>
Gradle:
dependencies {
compile group: 'org.slf4j', name: 'slf4j-jdk14', version: '1.7.26'
}
Add logging.properties file with configuration (located at your src/main/resources path):
.level=INFO
handlers=java.util.logging.ConsoleHandler
java.util.logging.ConsoleHandler.level=FINEST
deng.level=FINEST
Set java.util.logging.config.file system property:
-Djava.util.logging.config.file=logging.properties
Maven:
<dependencies>
<!-- Binding for Log4J -->
<dependency>
<groupId>org.apache.logging.log4j</groupId>
<artifactId>log4j-slf4j-impl</artifactId>
<version>2.11.2</version>
</dependency>
<!-- Log4j API and Core implementation required for binding -->
<dependency>
<groupId>org.apache.logging.log4j</groupId>
<artifactId>log4j-api</artifactId>
<version>2.11.2</version>
</dependency>
<dependency>
<groupId>org.apache.logging.log4j</groupId>
<artifactId>log4j-core</artifactId>
<version>2.11.2</version>
</dependency>
</dependencies>
Gradle:
dependencies {
//Binding for Log4J -->
compile group: 'org.apache.logging.log4j', name: 'log4j-slf4j-impl', version: '2.11.2'
//Log4j API and Core implementation required for binding
compile group: 'org.apache.logging.log4j', name: 'log4j-api', version: '2.11.2'
compile group: 'org.apache.logging.log4j', name: 'log4j-core', version: '2.11.2'
}
Add log4j2.xml file with configuration (located at your src/main/resources path):
<?xml version="1.0" encoding="UTF-8" ?>
<Configuration status="info">
<Appenders>
<Console name="Console" target="SYSTEM_OUT">
<PatternLayout pattern="%d{yyyy-MM-dd HH:mm:ss} %-5p %c{1}:%L - %m%n"/>
</Console>
</Appenders>
<Loggers>
<Root level="info">
<AppenderRef ref="Console"/>
</Root>
</Loggers>
</Configuration>
Create VkApiClient object using the following code:
TransportClient transportClient = new HttpTransportClient();
VkApiClient vk = new VkApiClient(transportClient);
Note that you can use your own transport client. We use Apache Http Client.
The library provides several authorization flows based on OAuth 2.0 protocol implementation in vk.com API. Please read the full documentation before you start.
OAuth 2.0 Authorization Code Flow allows calling methods from the server side.
This flow includes two steps — obtaining an authorization code and exchanging the code for an access token. Primarily you should obtain the "code" (manual) and then use this method to complete the flow:
UserAuthResponse authResponse = vk.oAuth()
.userAuthorizationCodeFlow(APP_ID, CLIENT_SECRET, REDIRECT_URI, code)
.execute();
UserActor actor = new UserActor(authResponse.getUserId(), authResponse.getAccessToken());
This takes your application ID, secure key, redirect URI, enumerated scopes and code obtained on the previous step of the flow.
When succeed, a UserActor object is created. You can call VK API methods on behalf of a user.
See example.
The difference from the previous flow is that you send the groupId parameter to obtain the community's access token. Please read the full manual.
GroupAuthResponse authResponse = vk.oAuth()
.groupAuthorizationCodeFlow(APP_ID, CLIENT_SECRET, REDIRECT_URI, code)
.execute();
GroupActor actor = new GroupActor(groupId, authResponse.getAccessTokens().get(groupId));
When succeed, a GroupActor object is created. You can call VK API methods on behalf of a community.
See example.
Proceeding each of previous authorization flows you can receive a "need_validation" error. Use the following code to handle the error:
UserAuthResponse authResponse;
try {
authResponse = vk.oAuth()
.userAuthorizationCodeFlow(APP_ID, CLIENT_SECRET, REDIRECT_URI, code)
.execute();
} catch (OAuthException e) {
e.getRedirectUri();
}
UserActor actor = new UserActor(authResponse.getUserId(), authResponse.getAccessToken());
This flow allows to interact with API service methods with "secure" prefix. Use this method:
ServiceClientCredentialsFlowResponse authResponse = vk.oAuth()
.serviceClientCredentialsFlow(APP_ID, CLIENT_SECRET)
.execute();
ServiceActor actor = new ServiceActor(APP_ID, authResponse.getAccessToken());
When succeed, a ServiceActor object is created. You can call VK API methods on behalf of an app.
You can find the full list of VK API methods here.
GetResponse getResponse = vk.wall().get(actor)
.ownerId(1)
.count(100)
.offset(5)
.filter("owner")
.execute();
List<UserXtrCounters> users = vk.users().get(actor)
.userIds("1")
.fields(UserField.VERIFIED, UserField.SEX)
.lang(Lang.EN)
.execute();
The full list of common parameters is available on this page.
PhotoUpload serverResponse = vk.photos().getWallUploadServer(actor).execute();
WallUploadResponse uploadResponse = vk.upload().photoWall(serverResponse.getUploadUrl(), file).execute();
List<Photo> photoList = vk.photos().saveWallPhoto(actor, uploadResponse.getPhoto())
.server(uploadResponse.getServer())
.hash(uploadResponse.getHash())
.execute();
Photo photo = photoList.get(0);
String attachId = "photo" + photo.getOwnerId() + "_" + photo.getId();
GetResponse getResponse = vk.wall().post(actor)
.attachments(attachId)
.execute();
You can find more information about execute method here.
JsonElement response = vk.execute().code(actor, "return API.wall.get({\"count\": 1})")
.execute();
JsonElement response = vk.execute().storageFunction(actor, "foo")
.funcV(2) // set storage function version
.unsafeParam("user_id", 1) // set storage function argument
.execute();
JsonElement response = vk.execute().batch(actor,
vk.database().getChairs(1).count(10),
vk.database().getCities(1),
vk.groups().getMembers(actor).groupId(groupId)
).execute();
try {
vk.wall().post(actor)
.message("Hello world")
.execute();
} catch (ApiWallLinksForbiddenException e) {
// Links posting is prohibited
} catch (ApiException e) {
// Business logic error
} catch (ClientException e) {
// Transport layer error
}
String captchaSid = null;
String captchaImg = null;
try {
vk.wall().post(actor).message("Hello world").execute();
} catch (ApiCaptchaException e) {
captchaSid = e.getCaptchaSid();
captchaImg = e.getCaptchaImg();
}
//Showing captcha image...
if (captchaImg != null) {
vk.wall().post(actor)
.message("Hello world")
.captchaSid(captchaSid)
.captchaKey(captchaKey)
.execute();
}
Override methods from CallbackApi class for handling events
public class CallbackApiHandler extends CallbackApi {
@Override
public void messageNew(Integer groupId, Message message) {
System.out.println(message.getText());
}
}
Enable Callback API Long Poll for needed group and specify which events should be tracked
HttpTransportClient httpClient = HttpTransportClient.getInstance();
VkApiClient vk = new VkApiClient(httpClient);
vk.groups().setLongPollSettings(groupActor).enabled(true)
.wallPostNew(true)
.messageNew(true)
.execute();
Override methods from CallbackApiLongPoll class for handling events and create needed constructors
public class CallbackApiLongPollHandler extends CallbackApiLongPoll {
public CallbackApiLongPollHandler(VkApiClient client, UserActor actor, Integer groupId) {
super(client, actor, groupId);
}
public CallbackApiLongPollHandler(VkApiClient client, GroupActor actor) {
super(client, actor);
}
@Override
public void messageNew(Integer groupId, Message message) {
System.out.println("messageNew: " + message.toString());
}
@Override
public void wallPostNew(Integer groupId, WallPost wallPost) {
System.out.println("wallPostNew: " + wallPost.toString());
}
}
In order to use the created CallbackApiLongPollHandler
which overrides methods from CallBackApiLongPoll,
the instance of it needs to be created and method run
called
CallbackApiLongPollHandler handler = new CallbackApiLongPollHandler(vk, groupActor);
handler.run();
An example of usage Callback API Long Poll can be found in examples
as a group-bot which logs all events.
//Init clients
TransportClient transportClient = new HttpTransportClient();
VkApiClient vkClient = new VkApiClient(transportClient);
VkStreamingApiClient streamingClient = new VkStreamingApiClient(transportClient);
//Create service actor
Integer appId = 4123123;
String accessToken = "sadf0asdf0asdfsadfassadf0asdf0asdfsadfassadf0asdf0asdfsadfas";
ServiceActor actor = new ServiceActor(appId, accessToken);
//Get streaming actor
GetServerUrlResponse getServerUrlResponse = vkClient.streaming().getServerUrl(actor).execute();
StreamingActor actor = new StreamingActor(getServerUrlResponse.getEndpoint(), getServerUrlResponse.getKey());
//Create rule
String tag = "1";
String value = "ok";
StreamingResponse response = streamingClient.rules().add(actor, tag, value).execute();
//Get rules
StreamingGetRulesResponse response = streamingClient.rules().get(actor).execute();
//Delete rule
String tag = "1";
streamingClient.rules().delete(actor, tag).execute();
Implement handle method from StreamingEventHandler class for handling stream events
streamingClient.stream().get(actor, new StreamingEventHandler() {
@Override
public void handle(StreamingCallbackMessage message) {
System.out.println(message);
}
}).execute();
As an SDK usage example we have released the YouTrack bot. The documentation can be found here.