public GoAway(GoAway that) { errorCode = that.errorCode; lastStreamId = that.lastStreamId; debugData = that.debugData != null ? that.debugData.copy() : null; }
@Override public Buffer transform(Buffer b) { return b.copy(); }
public AddressResolverOptions(AddressResolverOptions other) { this.hostsPath = other.hostsPath; this.hostsValue = other.hostsValue != null ? other.hostsValue.copy() : null; this.servers = other.servers != null ? new ArrayList<>(other.servers) : null; this.optResourceEnabled = other.optResourceEnabled; this.cacheMinTimeToLive = other.cacheMinTimeToLive; this.cacheMaxTimeToLive = other.cacheMaxTimeToLive; this.cacheNegativeTimeToLive = other.cacheNegativeTimeToLive; this.queryTimeout = other.queryTimeout; this.maxQueries = other.maxQueries; this.rdFlag = other.rdFlag; this.searchDomains = other.searchDomains != null ? new ArrayList<>(other.searchDomains) : null; this.ndots = other.ndots; this.rotateServers = other.rotateServers; }
@Test public void testCopy() throws Exception { Buffer buff = TestUtils.randomBuffer(100); assertEquals(buff, buff.copy()); Buffer copy = buff.getBuffer(0, buff.length()); assertEquals(buff, copy); //Make sure they don't share underlying buffer Buffer copy2 = buff.copy(); buff.setInt(0, 1); assertEquals(copy, copy2); }
@Test public void testClientWebsocketReceivePingExceedsMaxFrameSize() { String pingBody = randomAlphaString(113); Integer maxFrameSize = 64; Buffer ping1 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(0, maxFrameSize)); Buffer ping2 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(maxFrameSize, pingBody.length())); server = vertx.createHttpServer(new HttpServerOptions().setIdleTimeout(1).setPort(DEFAULT_HTTP_PORT).setHost(HttpTestBase.DEFAULT_HTTP_HOST).setMaxWebsocketFrameSize(maxFrameSize)); server.websocketHandler(ws -> { }).listen(onSuccess(v -> { client.websocket(DEFAULT_HTTP_PORT, HttpTestBase.DEFAULT_HTTP_HOST, "/", ws -> { List<Buffer> pongs = new ArrayList<>(); ws.pongHandler(pong -> { pongs.add(pong); if (pongs.size() == 2) { assertEquals(pongs, Arrays.asList(ping1, ping2)); testComplete(); } }); try { ws.writeFrame(new WebSocketFrameImpl(FrameType.PING, ping1.copy().getByteBuf(), false)); ws.writeFrame(new WebSocketFrameImpl(FrameType.PING, ping2.copy().getByteBuf(), true)); } catch(Throwable t) { fail(t); } }); })); await(); }
@Test public void testClientWebsocketReceivePongExceedsMaxFrameSize() { String pingBody = randomAlphaString(113); Integer maxFrameSize = 64; Buffer ping1 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(0, maxFrameSize)); Buffer ping2 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(maxFrameSize, pingBody.length())); server = vertx.createHttpServer(new HttpServerOptions().setIdleTimeout(1).setPort(DEFAULT_HTTP_PORT).setHost(HttpTestBase.DEFAULT_HTTP_HOST).setMaxWebsocketFrameSize(maxFrameSize)); server.websocketHandler(ws -> { try { ws.writeFrame(new WebSocketFrameImpl(FrameType.PONG, ping1.copy().getByteBuf(), false)); ws.writeFrame(new WebSocketFrameImpl(FrameType.PONG, ping2.copy().getByteBuf(), true)); } catch(Throwable t) { fail(t); } }).listen(v -> { client.websocket(DEFAULT_HTTP_PORT, HttpTestBase.DEFAULT_HTTP_HOST, "/", ws -> { List<Buffer> pongs = new ArrayList<>(); ws.pongHandler(pong -> { pongs.add(pong); if (pongs.size() == 2) { assertEquals(pongs, Arrays.asList(ping1, ping2)); testComplete(); } }); }); }); await(); }
@Test public void testServerWebsocketReceivePongExceedsMaxFrameSize() { String pingBody = randomAlphaString(113); Integer maxFrameSize = 64; Buffer ping1 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(0, maxFrameSize)); Buffer ping2 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(maxFrameSize, pingBody.length())); server = vertx.createHttpServer(new HttpServerOptions().setIdleTimeout(1).setPort(DEFAULT_HTTP_PORT).setHost(HttpTestBase.DEFAULT_HTTP_HOST).setMaxWebsocketFrameSize(maxFrameSize)); server.websocketHandler(ws -> { List<Buffer> pongs = new ArrayList<>(); ws.pongHandler(pong -> { pongs.add(pong); if (pongs.size() == 2) { assertEquals(pongs, Arrays.asList(ping1, ping2)); testComplete(); } }); }).listen(v -> { client.websocket(DEFAULT_HTTP_PORT, HttpTestBase.DEFAULT_HTTP_HOST, "/", ws -> { try { ws.writeFrame(new WebSocketFrameImpl(FrameType.PONG, ping1.copy().getByteBuf(), false)); ws.writeFrame(new WebSocketFrameImpl(FrameType.PONG, ping2.copy().getByteBuf(), true)); } catch(Throwable t) { fail(t); } }); }); await(); }
@Test public void testServerWebsocketReceivePingExceedsMaxFrameSize() { String pingBody = randomAlphaString(113); Integer maxFrameSize = 64; Buffer ping1 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(0, maxFrameSize)); Buffer ping2 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(maxFrameSize, pingBody.length())); server = vertx.createHttpServer(new HttpServerOptions().setIdleTimeout(1).setPort(DEFAULT_HTTP_PORT).setHost(HttpTestBase.DEFAULT_HTTP_HOST).setMaxWebsocketFrameSize(maxFrameSize)); server.websocketHandler(ws -> { }).listen(onSuccess(v -> { client.websocket(DEFAULT_HTTP_PORT, HttpTestBase.DEFAULT_HTTP_HOST, "/", ws -> { List<Buffer> pongs = new ArrayList<>(); ws.pongHandler(pong -> { pongs.add(pong); if (pongs.size() == 2) { assertEquals(pongs, Arrays.asList(ping1, ping2)); testComplete(); } }); try { ws.writeFrame(new WebSocketFrameImpl(FrameType.PING, ping1.copy().getByteBuf(), false)); ws.writeFrame(new WebSocketFrameImpl(FrameType.PING, ping2.copy().getByteBuf(), true)); } catch(Throwable t) { fail(t); } }); })); await(); }
public GoAway(GoAway that) { errorCode = that.errorCode; lastStreamId = that.lastStreamId; debugData = that.debugData != null ? that.debugData.copy() : null; }
@Override public Buffer transform(Buffer b) { return b.copy(); }
public AddressResolverOptions(AddressResolverOptions other) { this.hostsPath = other.hostsPath; this.hostsValue = other.hostsValue != null ? other.hostsValue.copy() : null; this.servers = other.servers != null ? new ArrayList<>(other.servers) : null; this.optResourceEnabled = other.optResourceEnabled; this.cacheMinTimeToLive = other.cacheMinTimeToLive; this.cacheMaxTimeToLive = other.cacheMaxTimeToLive; this.cacheNegativeTimeToLive = other.cacheNegativeTimeToLive; this.queryTimeout = other.queryTimeout; this.maxQueries = other.maxQueries; this.rdFlag = other.rdFlag; this.searchDomains = other.searchDomains != null ? new ArrayList<>(other.searchDomains) : null; this.ndots = other.ndots; this.rotateServers = other.rotateServers; }
void drainingServer(Handler<AsyncResult<NetServer>> listenHandler) { server.connectHandler(sock -> { assertFalse(sock.writeQueueFull()); sock.setWriteQueueMaxSize(1000); Buffer buff = TestUtils.randomBuffer(10000); //Send data until the buffer is full vertx.setPeriodic(1, id -> { sock.write(buff.copy()); if (sock.writeQueueFull()) { vertx.cancelTimer(id); sock.drainHandler(v -> { assertFalse(sock.writeQueueFull()); // End test after a short delay to give the client some time to read the data vertx.setTimer(100, id2 -> testComplete()); }); // Tell the client to resume vertx.eventBus().send("client_resume", ""); } }); }).listen(testAddress, listenHandler); }
@Test public void testClientDrainHandler() { pausingServer((s) -> { client.connect(testAddress, onSuccess(sock -> { assertFalse(sock.writeQueueFull()); sock.setWriteQueueMaxSize(1000); Buffer buff = TestUtils.randomBuffer(10000); vertx.setPeriodic(1, id -> { sock.write(buff.copy()); if (sock.writeQueueFull()) { vertx.cancelTimer(id); sock.drainHandler(v -> { assertFalse(sock.writeQueueFull()); testComplete(); }); // Tell the server to resume vertx.eventBus().send("server_resume", ""); } }); })); }); await(); }
@Test public void testCopy() throws Exception { Buffer buff = TestUtils.randomBuffer(100); assertEquals(buff, buff.copy()); Buffer copy = buff.getBuffer(0, buff.length()); assertEquals(buff, copy); //Make sure they don't share underlying buffer Buffer copy2 = buff.copy(); buff.setInt(0, 1); assertEquals(copy, copy2); }
@Test public void testClientWebsocketReceivePingExceedsMaxFrameSize() { String pingBody = randomAlphaString(113); Integer maxFrameSize = 64; Buffer ping1 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(0, maxFrameSize)); Buffer ping2 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(maxFrameSize, pingBody.length())); server = vertx.createHttpServer(new HttpServerOptions().setIdleTimeout(1).setPort(DEFAULT_HTTP_PORT).setHost(HttpTestBase.DEFAULT_HTTP_HOST).setMaxWebsocketFrameSize(maxFrameSize)); server.websocketHandler(ws -> { }).listen(onSuccess(v -> { client.websocket(DEFAULT_HTTP_PORT, HttpTestBase.DEFAULT_HTTP_HOST, "/", ws -> { List<Buffer> pongs = new ArrayList<>(); ws.pongHandler(pong -> { pongs.add(pong); if (pongs.size() == 2) { assertEquals(pongs, Arrays.asList(ping1, ping2)); testComplete(); } }); try { ws.writeFrame(new WebSocketFrameImpl(FrameType.PING, ping1.copy().getByteBuf(), false)); ws.writeFrame(new WebSocketFrameImpl(FrameType.PING, ping2.copy().getByteBuf(), true)); } catch(Throwable t) { fail(t); } }); })); await(); }
@Test public void testServerWebsocketReceivePongExceedsMaxFrameSize() { String pingBody = randomAlphaString(113); Integer maxFrameSize = 64; Buffer ping1 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(0, maxFrameSize)); Buffer ping2 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(maxFrameSize, pingBody.length())); server = vertx.createHttpServer(new HttpServerOptions().setIdleTimeout(1).setPort(DEFAULT_HTTP_PORT).setHost(HttpTestBase.DEFAULT_HTTP_HOST).setMaxWebsocketFrameSize(maxFrameSize)); server.websocketHandler(ws -> { List<Buffer> pongs = new ArrayList<>(); ws.pongHandler(pong -> { pongs.add(pong); if (pongs.size() == 2) { assertEquals(pongs, Arrays.asList(ping1, ping2)); testComplete(); } }); }).listen(v -> { client.websocket(DEFAULT_HTTP_PORT, HttpTestBase.DEFAULT_HTTP_HOST, "/", ws -> { try { ws.writeFrame(new WebSocketFrameImpl(FrameType.PONG, ping1.copy().getByteBuf(), false)); ws.writeFrame(new WebSocketFrameImpl(FrameType.PONG, ping2.copy().getByteBuf(), true)); } catch(Throwable t) { fail(t); } }); }); await(); }
@Test public void testClientWebsocketReceivePongExceedsMaxFrameSize() { String pingBody = randomAlphaString(113); Integer maxFrameSize = 64; Buffer ping1 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(0, maxFrameSize)); Buffer ping2 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(maxFrameSize, pingBody.length())); server = vertx.createHttpServer(new HttpServerOptions().setIdleTimeout(1).setPort(DEFAULT_HTTP_PORT).setHost(HttpTestBase.DEFAULT_HTTP_HOST).setMaxWebsocketFrameSize(maxFrameSize)); server.websocketHandler(ws -> { try { ws.writeFrame(new WebSocketFrameImpl(FrameType.PONG, ping1.copy().getByteBuf(), false)); ws.writeFrame(new WebSocketFrameImpl(FrameType.PONG, ping2.copy().getByteBuf(), true)); } catch(Throwable t) { fail(t); } }).listen(v -> { client.websocket(DEFAULT_HTTP_PORT, HttpTestBase.DEFAULT_HTTP_HOST, "/", ws -> { List<Buffer> pongs = new ArrayList<>(); ws.pongHandler(pong -> { pongs.add(pong); if (pongs.size() == 2) { assertEquals(pongs, Arrays.asList(ping1, ping2)); testComplete(); } }); }); }); await(); }
@Test public void testServerWebsocketReceivePingExceedsMaxFrameSize() { String pingBody = randomAlphaString(113); Integer maxFrameSize = 64; Buffer ping1 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(0, maxFrameSize)); Buffer ping2 = Buffer.buffer(Buffer.buffer(pingBody.getBytes()).getBytes(maxFrameSize, pingBody.length())); server = vertx.createHttpServer(new HttpServerOptions().setIdleTimeout(1).setPort(DEFAULT_HTTP_PORT).setHost(HttpTestBase.DEFAULT_HTTP_HOST).setMaxWebsocketFrameSize(maxFrameSize)); server.websocketHandler(ws -> { }).listen(onSuccess(v -> { client.websocket(DEFAULT_HTTP_PORT, HttpTestBase.DEFAULT_HTTP_HOST, "/", ws -> { List<Buffer> pongs = new ArrayList<>(); ws.pongHandler(pong -> { pongs.add(pong); if (pongs.size() == 2) { assertEquals(pongs, Arrays.asList(ping1, ping2)); testComplete(); } }); try { ws.writeFrame(new WebSocketFrameImpl(FrameType.PING, ping1.copy().getByteBuf(), false)); ws.writeFrame(new WebSocketFrameImpl(FrameType.PING, ping2.copy().getByteBuf(), true)); } catch(Throwable t) { fail(t); } }); })); await(); }
void drainingServer(Handler<AsyncResult<NetServer>> listenHandler) { server.connectHandler(sock -> { assertFalse(sock.writeQueueFull()); sock.setWriteQueueMaxSize(1000); Buffer buff = TestUtils.randomBuffer(10000); //Send data until the buffer is full vertx.setPeriodic(1, id -> { sock.write(buff.copy()); if (sock.writeQueueFull()) { vertx.cancelTimer(id); sock.drainHandler(v -> { assertFalse(sock.writeQueueFull()); // End test after a short delay to give the client some time to read the data vertx.setTimer(100, id2 -> testComplete()); }); // Tell the client to resume vertx.eventBus().send("client_resume", ""); } }); }).listen(testAddress, listenHandler); }
@Test public void testClientDrainHandler() { pausingServer((s) -> { client.connect(testAddress, onSuccess(sock -> { assertFalse(sock.writeQueueFull()); sock.setWriteQueueMaxSize(1000); Buffer buff = TestUtils.randomBuffer(10000); vertx.setPeriodic(1, id -> { sock.write(buff.copy()); if (sock.writeQueueFull()) { vertx.cancelTimer(id); sock.drainHandler(v -> { assertFalse(sock.writeQueueFull()); testComplete(); }); // Tell the server to resume vertx.eventBus().send("server_resume", ""); } }); })); }); await(); }