Example 1 with HandshakeResponse
use of javax.websocket.HandshakeResponse in project che by eclipse.
the class ServerContainerInitializeListener method createConfigurator.
private Configurator createConfigurator() {
return new Configurator() {
@Override
public void modifyHandshake(ServerEndpointConfig sec, HandshakeRequest request, HandshakeResponse response) {
super.modifyHandshake(sec, request, response);
final HttpSession httpSession = (HttpSession) request.getHttpSession();
if (httpSession != null) {
sec.getUserProperties().put(HTTP_SESSION_ATTRIBUTE, httpSession);
}
sec.getUserProperties().put(SECURITY_CONTEXT, createSecurityContext(request));
sec.getUserProperties().put(ENVIRONMENT_CONTEXT, EnvironmentContext.getCurrent());
}
};
}
Also used :
HandshakeResponse(javax.websocket.HandshakeResponse)
ServerEndpointConfig(javax.websocket.server.ServerEndpointConfig)
Configurator(javax.websocket.server.ServerEndpointConfig.Configurator)
HttpSession(javax.servlet.http.HttpSession)
HandshakeRequest(javax.websocket.server.HandshakeRequest)
Example 2 with HandshakeResponse
use of javax.websocket.HandshakeResponse in project jetty.project by eclipse.
the class CookiesTest method testCookiesAreSentToClient.
@Test
public void testCookiesAreSentToClient() throws Exception {
final String cookieName = "name";
final String cookieValue = "value";
final String cookieDomain = "domain";
final String cookiePath = "/path";
startServer(new EchoHandler() {
@Override
public Object createWebSocket(ServletUpgradeRequest request, ServletUpgradeResponse response) {
String cookieString = cookieName + "=" + cookieValue + ";Domain=" + cookieDomain + ";Path=" + cookiePath;
response.getHeaders().put("Set-Cookie", Collections.singletonList(cookieString));
return super.createWebSocket(request, response);
}
});
WebSocketContainer container = ContainerProvider.getWebSocketContainer();
ClientEndpointConfig.Builder builder = ClientEndpointConfig.Builder.create();
builder.configurator(new ClientEndpointConfig.Configurator() {
@Override
public void afterResponse(HandshakeResponse response) {
Map<String, List<String>> headers = response.getHeaders();
// Test case insensitivity
Assert.assertTrue(headers.containsKey("set-cookie"));
List<String> values = headers.get("Set-Cookie");
Assert.assertNotNull(values);
Assert.assertEquals(1, values.size());
List<HttpCookie> cookies = HttpCookie.parse(values.get(0));
Assert.assertEquals(1, cookies.size());
HttpCookie cookie = cookies.get(0);
Assert.assertEquals(cookieName, cookie.getName());
Assert.assertEquals(cookieValue, cookie.getValue());
Assert.assertEquals(cookieDomain, cookie.getDomain());
Assert.assertEquals(cookiePath, cookie.getPath());
}
});
ClientEndpointConfig config = builder.build();
Endpoint endPoint = new Endpoint() {
@Override
public void onOpen(Session session, EndpointConfig config) {
}
};
Session session = container.connectToServer(endPoint, config, URI.create("ws://localhost:" + connector.getLocalPort()));
session.close();
}
Also used :
WebSocketContainer(javax.websocket.WebSocketContainer)
ServletUpgradeResponse(org.eclipse.jetty.websocket.servlet.ServletUpgradeResponse)
HandshakeResponse(javax.websocket.HandshakeResponse)
Endpoint(javax.websocket.Endpoint)
List(java.util.List)
ClientEndpointConfig(javax.websocket.ClientEndpointConfig)
Map(java.util.Map)
HttpCookie(java.net.HttpCookie)
ServletUpgradeRequest(org.eclipse.jetty.websocket.servlet.ServletUpgradeRequest)
EndpointConfig(javax.websocket.EndpointConfig)
ClientEndpointConfig(javax.websocket.ClientEndpointConfig)
Session(javax.websocket.Session)
Test(org.junit.Test)
Example 3 with HandshakeResponse
use of javax.websocket.HandshakeResponse in project AngularBeans by bessemHmidi.
the class SockJsServlet method configuratorFor.
private ServerEndpointConfig.Configurator configuratorFor(final String prefix, final boolean isRaw) {
return new ServerEndpointConfig.Configurator() {
@Override
public <T> T getEndpointInstance(Class<T> endpointClass) throws InstantiationException {
try {
return endpointClass.getConstructor(SockJsServer.class, String.class, String.class).newInstance(sockJsServer, getServletContext().getContextPath(), prefix);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
@Override
public void modifyHandshake(ServerEndpointConfig sec, HandshakeRequest request, HandshakeResponse response) {
if (isRaw) {
// headers with for raw websocket requests
return;
}
String path = request.getRequestURI().getPath();
Matcher matcher = SESSION_PATTERN.matcher(path);
if (matcher.matches()) {
String sessionId = matcher.group(1);
saveHeaders(sessionId, request.getHeaders());
}
}
};
}
Also used :
HandshakeResponse(javax.websocket.HandshakeResponse)
ServerEndpointConfig(javax.websocket.server.ServerEndpointConfig)
Matcher(java.util.regex.Matcher)
SockJsServer(org.projectodd.sockjs.SockJsServer)
SockJsException(org.projectodd.sockjs.SockJsException)
ServletException(javax.servlet.ServletException)
IOException(java.io.IOException)
HandshakeRequest(javax.websocket.server.HandshakeRequest)
Example 4 with HandshakeResponse
use of javax.websocket.HandshakeResponse in project AngularBeans by bessemHmidi.
the class AngularBeansServletContextListener method configuratorFor.
private ServerEndpointConfig.Configurator configuratorFor(final String prefix, final boolean isRaw) {
return new ServerEndpointConfig.Configurator() {
@Override
public <T> T getEndpointInstance(Class<T> endpointClass) throws InstantiationException {
try {
return endpointClass.getConstructor(SockJsServer.class, String.class, String.class).newInstance(sockJsServer, context.getContextPath(), prefix);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
@Override
public void modifyHandshake(ServerEndpointConfig sec, HandshakeRequest request, HandshakeResponse response) {
if (isRaw) {
// headers with for raw websocket requests
return;
}
String path = request.getRequestURI().getPath();
Matcher matcher = SESSION_PATTERN.matcher(path);
if (matcher.matches()) {
String sessionId = matcher.group(1);
saveHeaders(sessionId, request.getHeaders());
}
}
};
}
Also used :
HandshakeResponse(javax.websocket.HandshakeResponse)
ServerEndpointConfig(javax.websocket.server.ServerEndpointConfig)
Matcher(java.util.regex.Matcher)
SockJsServer(org.projectodd.sockjs.SockJsServer)
ServletException(javax.servlet.ServletException)
DeploymentException(javax.websocket.DeploymentException)
HandshakeRequest(javax.websocket.server.HandshakeRequest)
Example 5 with HandshakeResponse
use of javax.websocket.HandshakeResponse in project tomcat by apache.
the class WsWebSocketContainer method connectToServer.
// socketChannel is closed
@SuppressWarnings("resource")
@Override
public Session connectToServer(Endpoint endpoint, ClientEndpointConfig clientEndpointConfiguration, URI path) throws DeploymentException {
boolean secure = false;
ByteBuffer proxyConnect = null;
URI proxyPath;
// Validate scheme (and build proxyPath)
String scheme = path.getScheme();
if ("ws".equalsIgnoreCase(scheme)) {
proxyPath = URI.create("http" + path.toString().substring(2));
} else if ("wss".equalsIgnoreCase(scheme)) {
proxyPath = URI.create("https" + path.toString().substring(3));
secure = true;
} else {
throw new DeploymentException(sm.getString("wsWebSocketContainer.pathWrongScheme", scheme));
}
// Validate host
String host = path.getHost();
if (host == null) {
throw new DeploymentException(sm.getString("wsWebSocketContainer.pathNoHost"));
}
int port = path.getPort();
SocketAddress sa = null;
// Check to see if a proxy is configured. Javadoc indicates return value
// will never be null
List<Proxy> proxies = ProxySelector.getDefault().select(proxyPath);
Proxy selectedProxy = null;
for (Proxy proxy : proxies) {
if (proxy.type().equals(Proxy.Type.HTTP)) {
sa = proxy.address();
if (sa instanceof InetSocketAddress) {
InetSocketAddress inet = (InetSocketAddress) sa;
if (inet.isUnresolved()) {
sa = new InetSocketAddress(inet.getHostName(), inet.getPort());
}
}
selectedProxy = proxy;
break;
}
}
// scheme
if (port == -1) {
if ("ws".equalsIgnoreCase(scheme)) {
port = 80;
} else {
// Must be wss due to scheme validation above
port = 443;
}
}
// If sa is null, no proxy is configured so need to create sa
if (sa == null) {
sa = new InetSocketAddress(host, port);
} else {
proxyConnect = createProxyRequest(host, port);
}
// Create the initial HTTP request to open the WebSocket connection
Map<String, List<String>> reqHeaders = createRequestHeaders(host, port, clientEndpointConfiguration.getPreferredSubprotocols(), clientEndpointConfiguration.getExtensions());
clientEndpointConfiguration.getConfigurator().beforeRequest(reqHeaders);
if (Constants.DEFAULT_ORIGIN_HEADER_VALUE != null && !reqHeaders.containsKey(Constants.ORIGIN_HEADER_NAME)) {
List<String> originValues = new ArrayList<>(1);
originValues.add(Constants.DEFAULT_ORIGIN_HEADER_VALUE);
reqHeaders.put(Constants.ORIGIN_HEADER_NAME, originValues);
}
ByteBuffer request = createRequest(path, reqHeaders);
AsynchronousSocketChannel socketChannel;
try {
socketChannel = AsynchronousSocketChannel.open(getAsynchronousChannelGroup());
} catch (IOException ioe) {
throw new DeploymentException(sm.getString("wsWebSocketContainer.asynchronousSocketChannelFail"), ioe);
}
// Get the connection timeout
long timeout = Constants.IO_TIMEOUT_MS_DEFAULT;
String timeoutValue = (String) clientEndpointConfiguration.getUserProperties().get(Constants.IO_TIMEOUT_MS_PROPERTY);
if (timeoutValue != null) {
timeout = Long.valueOf(timeoutValue).intValue();
}
// Set-up
// Same size as the WsFrame input buffer
ByteBuffer response = ByteBuffer.allocate(maxBinaryMessageBufferSize);
String subProtocol;
boolean success = false;
List<Extension> extensionsAgreed = new ArrayList<>();
Transformation transformation = null;
// Open the connection
Future<Void> fConnect = socketChannel.connect(sa);
AsyncChannelWrapper channel = null;
if (proxyConnect != null) {
try {
fConnect.get(timeout, TimeUnit.MILLISECONDS);
// Proxy CONNECT is clear text
channel = new AsyncChannelWrapperNonSecure(socketChannel);
writeRequest(channel, proxyConnect, timeout);
HttpResponse httpResponse = processResponse(response, channel, timeout);
if (httpResponse.getStatus() != 200) {
throw new DeploymentException(sm.getString("wsWebSocketContainer.proxyConnectFail", selectedProxy, Integer.toString(httpResponse.getStatus())));
}
} catch (TimeoutException | InterruptedException | ExecutionException | EOFException e) {
if (channel != null) {
channel.close();
}
throw new DeploymentException(sm.getString("wsWebSocketContainer.httpRequestFailed"), e);
}
}
if (secure) {
// Regardless of whether a non-secure wrapper was created for a
// proxy CONNECT, need to use TLS from this point on so wrap the
// original AsynchronousSocketChannel
SSLEngine sslEngine = createSSLEngine(clientEndpointConfiguration.getUserProperties());
channel = new AsyncChannelWrapperSecure(socketChannel, sslEngine);
} else if (channel == null) {
// Only need to wrap as this point if it wasn't wrapped to process a
// proxy CONNECT
channel = new AsyncChannelWrapperNonSecure(socketChannel);
}
try {
fConnect.get(timeout, TimeUnit.MILLISECONDS);
Future<Void> fHandshake = channel.handshake();
fHandshake.get(timeout, TimeUnit.MILLISECONDS);
writeRequest(channel, request, timeout);
HttpResponse httpResponse = processResponse(response, channel, timeout);
// TODO: Handle redirects
if (httpResponse.status != 101) {
throw new DeploymentException(sm.getString("wsWebSocketContainer.invalidStatus", Integer.toString(httpResponse.status)));
}
HandshakeResponse handshakeResponse = httpResponse.getHandshakeResponse();
clientEndpointConfiguration.getConfigurator().afterResponse(handshakeResponse);
// Sub-protocol
List<String> protocolHeaders = handshakeResponse.getHeaders().get(Constants.WS_PROTOCOL_HEADER_NAME);
if (protocolHeaders == null || protocolHeaders.size() == 0) {
subProtocol = null;
} else if (protocolHeaders.size() == 1) {
subProtocol = protocolHeaders.get(0);
} else {
throw new DeploymentException(sm.getString("wsWebSocketContainer.invalidSubProtocol"));
}
// Extensions
// Should normally only be one header but handle the case of
// multiple headers
List<String> extHeaders = handshakeResponse.getHeaders().get(Constants.WS_EXTENSIONS_HEADER_NAME);
if (extHeaders != null) {
for (String extHeader : extHeaders) {
Util.parseExtensionHeader(extensionsAgreed, extHeader);
}
}
// Build the transformations
TransformationFactory factory = TransformationFactory.getInstance();
for (Extension extension : extensionsAgreed) {
List<List<Extension.Parameter>> wrapper = new ArrayList<>(1);
wrapper.add(extension.getParameters());
Transformation t = factory.create(extension.getName(), wrapper, false);
if (t == null) {
throw new DeploymentException(sm.getString("wsWebSocketContainer.invalidExtensionParameters"));
}
if (transformation == null) {
transformation = t;
} else {
transformation.setNext(t);
}
}
success = true;
} catch (ExecutionException | InterruptedException | SSLException | EOFException | TimeoutException e) {
throw new DeploymentException(sm.getString("wsWebSocketContainer.httpRequestFailed"), e);
} finally {
if (!success) {
channel.close();
}
}
// Switch to WebSocket
WsRemoteEndpointImplClient wsRemoteEndpointClient = new WsRemoteEndpointImplClient(channel);
WsSession wsSession = new WsSession(endpoint, wsRemoteEndpointClient, this, null, null, null, null, null, extensionsAgreed, subProtocol, Collections.<String, String>emptyMap(), secure, clientEndpointConfiguration);
WsFrameClient wsFrameClient = new WsFrameClient(response, channel, wsSession, transformation);
// WsFrame adds the necessary final transformations. Copy the
// completed transformation chain to the remote end point.
wsRemoteEndpointClient.setTransformation(wsFrameClient.getTransformation());
endpoint.onOpen(wsSession, clientEndpointConfiguration);
registerSession(endpoint, wsSession);
/* It is possible that the server sent one or more messages as soon as
* the WebSocket connection was established. Depending on the exact
* timing of when those messages were sent they could be sat in the
* input buffer waiting to be read and will not trigger a "data
* available to read" event. Therefore, it is necessary to process the
* input buffer here. Note that this happens on the current thread which
* means that this thread will be used for any onMessage notifications.
* This is a special case. Subsequent "data available to read" events
* will be handled by threads from the AsyncChannelGroup's executor.
*/
wsFrameClient.startInputProcessing();
return wsSession;
}
Also used :
InetSocketAddress(java.net.InetSocketAddress)
SSLEngine(javax.net.ssl.SSLEngine)
ArrayList(java.util.ArrayList)
URI(java.net.URI)
SSLException(javax.net.ssl.SSLException)
HandshakeResponse(javax.websocket.HandshakeResponse)
Proxy(java.net.Proxy)
EOFException(java.io.EOFException)
List(java.util.List)
ArrayList(java.util.ArrayList)
SocketAddress(java.net.SocketAddress)
InetSocketAddress(java.net.InetSocketAddress)
ExecutionException(java.util.concurrent.ExecutionException)
TimeoutException(java.util.concurrent.TimeoutException)
IOException(java.io.IOException)
ByteBuffer(java.nio.ByteBuffer)
Endpoint(javax.websocket.Endpoint)
ClientEndpoint(javax.websocket.ClientEndpoint)
Extension(javax.websocket.Extension)
AsynchronousSocketChannel(java.nio.channels.AsynchronousSocketChannel)
DeploymentException(javax.websocket.DeploymentException)
Aggregations
HandshakeResponse (javax.websocket.HandshakeResponse)5
HandshakeRequest (javax.websocket.server.HandshakeRequest)3
ServerEndpointConfig (javax.websocket.server.ServerEndpointConfig)3
IOException (java.io.IOException)2
List (java.util.List)2
Matcher (java.util.regex.Matcher)2
ServletException (javax.servlet.ServletException)2
DeploymentException (javax.websocket.DeploymentException)2
Endpoint (javax.websocket.Endpoint)2
SockJsServer (org.projectodd.sockjs.SockJsServer)2
EOFException (java.io.EOFException)1
HttpCookie (java.net.HttpCookie)1
InetSocketAddress (java.net.InetSocketAddress)1
Proxy (java.net.Proxy)1
SocketAddress (java.net.SocketAddress)1
URI (java.net.URI)1
ByteBuffer (java.nio.ByteBuffer)1
AsynchronousSocketChannel (java.nio.channels.AsynchronousSocketChannel)1
ArrayList (java.util.ArrayList)1
Map (java.util.Map)1
