List of usage examples for org.apache.http.nio.protocol HttpAsyncRequestExecutor HttpAsyncRequestExecutor
public HttpAsyncRequestExecutor()
From source file:com.yulore.demo.NHttpClient.java
public static void main(String[] args) throws Exception { // Create HTTP protocol processing chain HttpProcessor httpproc = HttpProcessorBuilder.create() // Use standard client-side protocol interceptors .add(new RequestContent()).add(new RequestTargetHost()).add(new RequestConnControl()) .add(new RequestUserAgent("Test/1.1")).add(new RequestExpectContinue(true)).build(); // Create client-side HTTP protocol handler HttpAsyncRequestExecutor protocolHandler = new HttpAsyncRequestExecutor(); // Create client-side I/O event dispatch final IOEventDispatch ioEventDispatch = new DefaultHttpClientIODispatch(protocolHandler, ConnectionConfig.DEFAULT);// w ww . ja va2 s .c om // Create client-side I/O reactor final ConnectingIOReactor ioReactor = new DefaultConnectingIOReactor(); // Create HTTP connection pool BasicNIOConnPool pool = new BasicNIOConnPool(ioReactor, ConnectionConfig.DEFAULT); // Limit total number of connections to just two pool.setDefaultMaxPerRoute(2); pool.setMaxTotal(2); // Run the I/O reactor in a separate thread Thread t = new Thread(new Runnable() { public void run() { try { // Ready to go! ioReactor.execute(ioEventDispatch); } catch (InterruptedIOException ex) { System.err.println("Interrupted"); } catch (IOException e) { System.err.println("I/O error: " + e.getMessage()); } System.out.println("Shutdown"); } }); // Start the client thread t.start(); // Create HTTP requester HttpAsyncRequester requester = new HttpAsyncRequester(httpproc); // Execute HTTP GETs to the following hosts and HttpHost[] targets = new HttpHost[] { new HttpHost("www.apache.org", 80, "http"), new HttpHost("www.verisign.com", 443, "https"), new HttpHost("www.google.com", 80, "http") }; final CountDownLatch latch = new CountDownLatch(targets.length); for (final HttpHost target : targets) { BasicHttpRequest request = new BasicHttpRequest("GET", "/"); HttpCoreContext coreContext = HttpCoreContext.create(); requester.execute(new BasicAsyncRequestProducer(target, request), new BasicAsyncResponseConsumer(), pool, coreContext, // Handle HTTP response from a callback new FutureCallback<HttpResponse>() { public void completed(final HttpResponse response) { latch.countDown(); System.out.println(target + "->" + response.getStatusLine()); } public void failed(final Exception ex) { latch.countDown(); System.out.println(target + "->" + ex); } public void cancelled() { latch.countDown(); System.out.println(target + " cancelled"); } }); } latch.await(); System.out.println("Shutting down I/O reactor"); ioReactor.shutdown(); System.out.println("Done"); }
From source file:framework.httpclient.nio.NHttpClient.java
public static void main(String[] args) throws Exception { // Create HTTP protocol processing chain HttpProcessor httpproc = HttpProcessorBuilder.create() // Use standard client-side protocol interceptors .add(new RequestContent()).add(new RequestTargetHost()).add(new RequestConnControl()) .add(new RequestUserAgent("LinkedHashSetVsTreeSet/1.1")).add(new RequestExpectContinue(true)) .build();/*from ww w.j a v a 2 s . c o m*/ // Create client-side HTTP protocol handler HttpAsyncRequestExecutor protocolHandler = new HttpAsyncRequestExecutor(); // Create client-side I/O event dispatch // IO final IOEventDispatch ioEventDispatch = new DefaultHttpClientIODispatch(protocolHandler, ConnectionConfig.DEFAULT); // Create client-side I/O reactor // IO reactor final ConnectingIOReactor ioReactor = new DefaultConnectingIOReactor(); // Create HTTP connection pool // HTTP BasicNIOConnPool pool = new BasicNIOConnPool(ioReactor, ConnectionConfig.DEFAULT); // Limit total number of connections to just two pool.setDefaultMaxPerRoute(2); pool.setMaxTotal(2); // Run the I/O reactor in a separate thread Thread t = new Thread(new Runnable() { public void run() { try { // Ready to go! ioReactor.execute(ioEventDispatch); } catch (InterruptedIOException ex) { System.err.println("Interrupted"); } catch (IOException e) { System.err.println("I/O error: " + e.getMessage()); } System.out.println("Shutdown"); } }); // Start the client thread t.start(); // Create HTTP requester // HTTP HttpAsyncRequester requester = new HttpAsyncRequester(httpproc); // Execute HTTP GETs to the following hosts and HttpHost[] targets = new HttpHost[] { new HttpHost("www.baidu.org", -1, "https"), // new HttpHost("www.zhihu.com", -1, "https"), new HttpHost("www.bilibili.com", -1, "https") }; final CountDownLatch latch = new CountDownLatch(targets.length); for (final HttpHost target : targets) { BasicHttpRequest request = new BasicHttpRequest("GET", "/"); HttpCoreContext coreContext = HttpCoreContext.create(); requester.execute(new BasicAsyncRequestProducer(target, request), new BasicAsyncResponseConsumer(), pool, coreContext, // Handle HTTP response from a callback new FutureCallback<HttpResponse>() { public void completed(final HttpResponse response) { latch.countDown(); System.out.println(target + "->" + response.getStatusLine()); } public void failed(final Exception ex) { latch.countDown(); System.err.println(target + "->" + ex); ex.printStackTrace(); } public void cancelled() { latch.countDown(); System.out.println(target + " cancelled"); } }); } latch.await(); System.out.println("Shutting down I/O reactor"); ioReactor.shutdown(); System.out.println("Done"); }
From source file:com.weibo.wesync.client.NHttpClient2.java
public static void main(String[] args) throws Exception { RSAPublicKey publicKey = RSAEncrypt.loadPublicKey("D:\\weibo\\meyou_gw\\conf\\public.pem"); // // www . j a v a 2s . c om byte[] cipher = RSAEncrypt.encrypt(publicKey, password.getBytes()); password = RSAEncrypt.toHexString(cipher); // HTTP parameters for the client HttpParams params = new SyncBasicHttpParams(); params.setIntParameter(CoreConnectionPNames.SO_TIMEOUT, 30000) .setIntParameter(CoreConnectionPNames.CONNECTION_TIMEOUT, 30000) .setIntParameter(CoreConnectionPNames.SOCKET_BUFFER_SIZE, 8 * 1024) .setBooleanParameter(CoreConnectionPNames.TCP_NODELAY, true); // Create HTTP protocol processing chain HttpProcessor httpproc = new ImmutableHttpProcessor(new HttpRequestInterceptor[] { // Use standard client-side protocol interceptors new RequestContent(), new RequestTargetHost(), new RequestConnControl(), new RequestUserAgent(), new RequestExpectContinue() }); // Create client-side HTTP protocol handler HttpAsyncRequestExecutor protocolHandler = new HttpAsyncRequestExecutor(); // Create client-side I/O event dispatch final IOEventDispatch ioEventDispatch = new DefaultHttpClientIODispatch(protocolHandler, params); // Create client-side I/O reactor IOReactorConfig config = new IOReactorConfig(); config.setIoThreadCount(1); final ConnectingIOReactor ioReactor = new DefaultConnectingIOReactor(config); // Create HTTP connection pool BasicNIOConnPool pool = new BasicNIOConnPool(ioReactor, params); // Limit total number of connections to just two pool.setDefaultMaxPerRoute(2); pool.setMaxTotal(1); // Run the I/O reactor in a separate thread Thread t = new Thread(new Runnable() { public void run() { try { // Ready to go! ioReactor.execute(ioEventDispatch); } catch (InterruptedIOException ex) { System.err.println("Interrupted"); } catch (IOException e) { System.err.println("I/O error: " + e.getMessage()); } System.out.println("Shutdown"); } }); // Start the client thread t.start(); // Create HTTP requester // HttpAsyncRequester requester = new HttpAsyncRequester( // httpproc, new DefaultConnectionReuseStrategy(), params); // Execute HTTP GETs to the following hosts and HttpHost[] targets = new HttpHost[] { // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), // new HttpHost("123.125.106.28", 8093, "http"), new HttpHost("123.125.106.28", 8082, "http") }; final CountDownLatch latch = new CountDownLatch(targets.length); int callbackId = 0; for (int i = 0; i < 1; i++) { for (final HttpHost target : targets) { BasicHttpEntityEnclosingRequest request = new BasicHttpEntityEnclosingRequest("POST", "/wesync"); // String usrpwd = Base64.encodeBase64String((username + ":" + password).getBytes()); // request.setHeader("authorization", "Basic " + usrpwd); request.setHeader("uid", "2565640713"); Meyou.MeyouPacket packet = null; if (callbackId == 0) { packet = Meyou.MeyouPacket.newBuilder().setCallbackId(String.valueOf(callbackId++)) .setSort(MeyouSort.notice).build(); } else { packet = Meyou.MeyouPacket.newBuilder().setCallbackId(String.valueOf(callbackId++)) .setSort(MeyouSort.wesync).build(); } ByteArrayEntity entity = new ByteArrayEntity(packet.toByteArray()); request.setEntity(entity); // BasicHttpRequest request = new BasicHttpRequest("GET", "/test.html"); System.out.println("send ..."); HttpAsyncRequester requester = new HttpAsyncRequester(httpproc, new DefaultConnectionReuseStrategy(), params); requester.execute(new BasicAsyncRequestProducer(target, request), new BasicAsyncResponseConsumer(), pool, new BasicHttpContext(), // Handle HTTP response from a callback new FutureCallback<HttpResponse>() { public void completed(final HttpResponse response) { StatusLine status = response.getStatusLine(); int code = status.getStatusCode(); if (code == 200) { try { latch.countDown(); DataInputStream in; in = new DataInputStream(response.getEntity().getContent()); int packetLength = in.readInt(); int start = 0; while (packetLength > 0) { ByteArrayOutputStream outstream = new ByteArrayOutputStream( packetLength); byte[] buffer = new byte[1024]; int len = 0; while (start < packetLength && (len = in.read(buffer, start, packetLength)) > 0) { outstream.write(buffer, 0, len); start += len; } Meyou.MeyouPacket packet0 = Meyou.MeyouPacket .parseFrom(outstream.toByteArray()); System.out.println(target + "->" + packet0); if ((len = in.read(buffer, start, 4)) > 0) { packetLength = Util.readPacketLength(buffer); } else { break; } } } catch (IllegalStateException e) { // TODO Auto-generated catch block e.printStackTrace(); } catch (IOException e) { // TODO Auto-generated catch block e.printStackTrace(); } } else { System.out.println("error code=" + code + "|" + status.getReasonPhrase()); } } public void failed(final Exception ex) { latch.countDown(); System.out.println(target + "->" + ex); } public void cancelled() { latch.countDown(); System.out.println(target + " cancelled"); } }); Thread.sleep((long) (Math.random() * 10000)); } } // latch.await(); // System.out.println("Shutting down I/O reactor"); // ioReactor.shutdown(); // System.out.println("Done"); }
From source file:com.googlecode.jsonrpc4j.JsonRpcHttpAsyncClient.java
private void initialize() { if (initialized.getAndSet(true)) { return;/* w ww. j a va 2 s .c o m*/ } // HTTP parameters for the client final HttpParams params = new BasicHttpParams(); params.setIntParameter(CoreConnectionPNames.SO_TIMEOUT, Integer.getInteger("com.googlecode.jsonrpc4j.async.socket.timeout", 30000)); params.setIntParameter(CoreConnectionPNames.CONNECTION_TIMEOUT, Integer.getInteger("com.googlecode.jsonrpc4j.async.connect.timeout", 30000)); params.setIntParameter(CoreConnectionPNames.SOCKET_BUFFER_SIZE, Integer.getInteger("com.googlecode.jsonrpc4j.async.socket.buffer", 8 * 1024)); params.setBooleanParameter(CoreConnectionPNames.TCP_NODELAY, Boolean.valueOf(System.getProperty("com.googlecode.jsonrpc4j.async.tcp.nodelay", "true"))); params.setParameter(CoreProtocolPNames.USER_AGENT, "jsonrpc4j/1.0"); // Create client-side I/O reactor final ConnectingIOReactor ioReactor; try { IOReactorConfig config = new IOReactorConfig(); config.setIoThreadCount(Integer.getInteger("com.googlecode.jsonrpc4j.async.reactor.threads", 1)); ioReactor = new DefaultConnectingIOReactor(config); } catch (IOReactorException e) { throw new RuntimeException("Exception initializing asynchronous Apache HTTP Client", e); } // Create a default SSLSetupHandler that accepts any certificate if (sslContext == null) { try { sslContext = SSLContext.getDefault(); } catch (Exception e) { throw new RuntimeException(e); } } // Create HTTP connection pool BasicNIOConnFactory nioConnFactory = new BasicNIOConnFactory(sslContext, null, params); pool = new BasicNIOConnPool(ioReactor, nioConnFactory, params); // Limit total number of connections to 500 by default pool.setDefaultMaxPerRoute(Integer.getInteger("com.googlecode.jsonrpc4j.async.max.inflight.route", 500)); pool.setMaxTotal(Integer.getInteger("com.googlecode.jsonrpc4j.async.max.inflight.total", 500)); // Run the I/O reactor in a separate thread Thread t = new Thread(new Runnable() { public void run() { try { // Create client-side HTTP protocol handler HttpAsyncRequestExecutor protocolHandler = new HttpAsyncRequestExecutor(); // Create client-side I/O event dispatch IOEventDispatch ioEventDispatch = new DefaultHttpClientIODispatch(protocolHandler, sslContext, params); // Ready to go! ioReactor.execute(ioEventDispatch); } catch (InterruptedIOException ex) { System.err.println("Interrupted"); } catch (IOException e) { System.err.println("I/O error: " + e.getMessage()); } } }, "jsonrpc4j HTTP IOReactor"); // Start the client thread t.setDaemon(true); t.start(); // Create HTTP protocol processing chain HttpProcessor httpproc = new ImmutableHttpProcessor(new HttpRequestInterceptor[] { // Use standard client-side protocol interceptors new RequestContent(), new RequestTargetHost(), new RequestConnControl(), new RequestUserAgent(), new RequestExpectContinue() }); // Create HTTP requester requester = new HttpAsyncRequester(httpproc, new DefaultConnectionReuseStrategy(), params); }
From source file:com.bytelightning.opensource.pokerface.PokerFace.java
/** * Configures all the needed components, but does not actually start the server. * @param config Contains all information needed to fully wire up the http, https, and httpclient components of this reverse proxy. * @throws Exception Yeah, a lot can go wrong here, but at least it will be caught immediately :-) *//*w w w . j ava 2 s .co m*/ public void config(HierarchicalConfiguration config) throws Exception { List<HierarchicalConfiguration> lconf; HttpAsyncRequester executor = null; BasicNIOConnPool connPool = null; ObjectPool<ByteBuffer> byteBufferPool = null; LinkedHashMap<String, TargetDescriptor> mappings = null; ConcurrentMap<String, HttpHost> hosts = null; handlerRegistry = new UriHttpAsyncRequestHandlerMapper(); // Initialize the keystore (if one was specified) KeyStore keystore = null; char[] keypass = null; String keystoreUri = config.getString("keystore"); if ((keystoreUri != null) && (keystoreUri.trim().length() > 0)) { Path keystorePath = Utils.MakePath(keystoreUri); if (!Files.exists(keystorePath)) throw new ConfigurationException("Keystore does not exist."); if (Files.isDirectory(keystorePath)) throw new ConfigurationException("Keystore is not a file"); String storepass = config.getString("storepass"); if ((storepass != null) && "null".equals(storepass)) storepass = null; keystore = KeyStore.getInstance(KeyStore.getDefaultType()); try (InputStream keyStoreStream = Files.newInputStream(keystorePath)) { keystore.load(keyStoreStream, storepass == null ? null : storepass.trim().toCharArray()); } catch (IOException ex) { Logger.error("Unable to load https server keystore from " + keystoreUri); return; } keypass = config.getString("keypass").trim().toCharArray(); } // Wire up the listening reactor lconf = config.configurationsAt("server"); if ((lconf == null) || (lconf.size() != 1)) throw new ConfigurationException("One (and only one) server configuration element is allowed."); else { Builder builder = IOReactorConfig.custom(); builder.setIoThreadCount(ComputeReactorProcessors(config.getDouble("server[@cpu]", 0.667))); builder.setSoTimeout(config.getInt("server[@soTimeout]", 0)); builder.setSoLinger(config.getInt("server[@soLinger]", -1)); builder.setSoReuseAddress(true); builder.setTcpNoDelay(false); builder.setSelectInterval(100); IOReactorConfig rconfig = builder.build(); Logger.info("Configuring server with options: " + rconfig.toString()); listeningReactor = new DefaultListeningIOReactor(rconfig); lconf = config.configurationsAt("server.listen"); InetSocketAddress addr; boolean hasNonWildcardSecure = false; LinkedHashMap<SocketAddress, SSLContext> addrSSLContext = new LinkedHashMap<SocketAddress, SSLContext>(); if ((lconf == null) || (lconf.size() == 0)) { addr = new InetSocketAddress("127.0.0.1", 8080); ListenerEndpoint ep = listeningReactor.listen(addr); Logger.warn("Configured " + ep.getAddress()); } else { TrustManager[] trustManagers = null; KeyManagerFactory kmf = null; // Create all the specified listeners. for (HierarchicalConfiguration hc : lconf) { String addrStr = hc.getString("[@address]"); if ((addrStr == null) || (addrStr.length() == 0)) addrStr = "0.0.0.0"; String alias = hc.getString("[@alias]"); int port = hc.getInt("[@port]", alias != null ? 443 : 80); addr = new InetSocketAddress(addrStr, port); ListenerEndpoint ep = listeningReactor.listen(addr); String protocol = hc.containsKey("[@protocol]") ? hc.getString("[@protocol]") : null; Boolean secure = hc.containsKey("[@secure]") ? hc.getBoolean("[@secure]") : null; if ((alias != null) && (secure == null)) secure = true; if ((protocol != null) && (secure == null)) secure = true; if ((secure != null) && secure) { if (protocol == null) protocol = "TLS"; if (keystore == null) throw new ConfigurationException( "An https listening socket was requested, but no keystore was specified."); if (kmf == null) { kmf = KeyManagerFactory.getInstance(KeyManagerFactory.getDefaultAlgorithm()); kmf.init(keystore, keypass); } // Are we going to trust all clients or just specific ones? if (hc.getBoolean("[@trustAny]", true)) trustManagers = new TrustManager[] { new X509TrustAllManager() }; else { TrustManagerFactory instance = TrustManagerFactory .getInstance(TrustManagerFactory.getDefaultAlgorithm()); instance.init(keystore); trustManagers = instance.getTrustManagers(); } KeyManager[] keyManagers = kmf.getKeyManagers(); if (alias != null) for (int i = 0; i < keyManagers.length; i++) { if (keyManagers[i] instanceof X509ExtendedKeyManager) keyManagers[i] = new PokerFaceKeyManager(alias, (X509ExtendedKeyManager) keyManagers[i]); } SSLContext sslCtx = SSLContext.getInstance(protocol); sslCtx.init(keyManagers, trustManagers, new SecureRandom()); if (addr.getAddress().isAnyLocalAddress()) { // This little optimization helps us respond faster for every connection as we don't have to extrapolate a local connection address to wild card. for (Enumeration<NetworkInterface> en = NetworkInterface.getNetworkInterfaces(); en .hasMoreElements();) { NetworkInterface intf = en.nextElement(); for (Enumeration<InetAddress> enumIpAddr = intf.getInetAddresses(); enumIpAddr .hasMoreElements();) { addr = new InetSocketAddress(enumIpAddr.nextElement(), port); addrSSLContext.put(addr, sslCtx); } } } else { addrSSLContext.put(addr, sslCtx); hasNonWildcardSecure = true; } } Logger.warn("Configured " + (alias == null ? "" : (protocol + " on")) + ep.getAddress()); } } // We will need an HTTP protocol processor for the incoming connections String serverAgent = config.getString("server.serverAgent", "PokerFace/" + Utils.Version); HttpProcessor inhttpproc = new ImmutableHttpProcessor( new HttpResponseInterceptor[] { new ResponseDateInterceptor(), new ResponseServer(serverAgent), new ResponseContent(), new ResponseConnControl() }); HttpAsyncService serviceHandler = new HttpAsyncService(inhttpproc, new DefaultConnectionReuseStrategy(), null, handlerRegistry, null) { public void exception(final NHttpServerConnection conn, final Exception cause) { Logger.warn(cause.getMessage()); super.exception(conn, cause); } }; if (addrSSLContext.size() > 0) { final SSLContext defaultCtx = addrSSLContext.values().iterator().next(); final Map<SocketAddress, SSLContext> sslMap; if ((!hasNonWildcardSecure) || (addrSSLContext.size() == 1)) sslMap = null; else sslMap = addrSSLContext; listeningDispatcher = new DefaultHttpServerIODispatch(serviceHandler, new SSLNHttpServerConnectionFactory(defaultCtx, null, ConnectionConfig.DEFAULT) { protected SSLIOSession createSSLIOSession(IOSession iosession, SSLContext sslcontext, SSLSetupHandler sslHandler) { SSLIOSession retVal; SSLContext sktCtx = sslcontext; if (sslMap != null) { SocketAddress la = iosession.getLocalAddress(); if (la != null) { sktCtx = sslMap.get(la); if (sktCtx == null) sktCtx = sslcontext; } retVal = new SSLIOSession(iosession, SSLMode.SERVER, sktCtx, sslHandler); } else retVal = super.createSSLIOSession(iosession, sktCtx, sslHandler); if (sktCtx != null) retVal.setAttribute("com.bytelightning.opensource.pokerface.secure", true); return retVal; } }); } else listeningDispatcher = new DefaultHttpServerIODispatch(serviceHandler, ConnectionConfig.DEFAULT); } // Configure the httpclient reactor that will be used to do reverse proxing to the specified targets. lconf = config.configurationsAt("targets"); if ((lconf != null) && (lconf.size() > 0)) { HierarchicalConfiguration conf = lconf.get(0); Builder builder = IOReactorConfig.custom(); builder.setIoThreadCount(ComputeReactorProcessors(config.getDouble("targets[@cpu]", 0.667))); builder.setSoTimeout(conf.getInt("targets[@soTimeout]", 0)); builder.setSoLinger(config.getInt("targets[@soLinger]", -1)); builder.setConnectTimeout(conf.getInt("targets[@connectTimeout]", 0)); builder.setSoReuseAddress(true); builder.setTcpNoDelay(false); connectingReactor = new DefaultConnectingIOReactor(builder.build()); final int bufferSize = conf.getInt("targets[@bufferSize]", 1024) * 1024; byteBufferPool = new SoftReferenceObjectPool<ByteBuffer>(new BasePooledObjectFactory<ByteBuffer>() { @Override public ByteBuffer create() throws Exception { return ByteBuffer.allocateDirect(bufferSize); } @Override public PooledObject<ByteBuffer> wrap(ByteBuffer buffer) { return new DefaultPooledObject<ByteBuffer>(buffer); } }); KeyManager[] keyManagers = null; TrustManager[] trustManagers = null; if (keystore != null) { KeyManagerFactory kmf = KeyManagerFactory.getInstance(KeyManagerFactory.getDefaultAlgorithm()); kmf.init(keystore, keypass); keyManagers = kmf.getKeyManagers(); } // Will the httpclient's trust any remote target, or only specific ones. if (conf.getBoolean("targets[@trustAny]", false)) trustManagers = new TrustManager[] { new X509TrustAllManager() }; else if (keystore != null) { TrustManagerFactory instance = TrustManagerFactory .getInstance(TrustManagerFactory.getDefaultAlgorithm()); instance.init(keystore); trustManagers = instance.getTrustManagers(); } SSLContext clientSSLContext = SSLContext.getInstance(conf.getString("targets[@protocol]", "TLS")); clientSSLContext.init(keyManagers, trustManagers, new SecureRandom()); // Setup an SSL capable connection pool for the httpclients. connPool = new BasicNIOConnPool(connectingReactor, new BasicNIOConnFactory(clientSSLContext, null, ConnectionConfig.DEFAULT), conf.getInt("targets[@connectTimeout]", 0)); connPool.setMaxTotal(conf.getInt("targets[@connMaxTotal]", 1023)); connPool.setDefaultMaxPerRoute(conf.getInt("targets[@connMaxPerRoute]", 1023)); // Set up HTTP protocol processor for outgoing connections String userAgent = conf.getString("targets.userAgent", "PokerFace/" + Utils.Version); HttpProcessor outhttpproc = new ImmutableHttpProcessor(new HttpRequestInterceptor[] { new RequestContent(), new RequestTargetHost(), new RequestConnControl(), new RequestUserAgent(userAgent), new RequestExpectContinue(true) }); executor = new HttpAsyncRequester(outhttpproc, new DefaultConnectionReuseStrategy()); // Now set up all the configured targets. mappings = new LinkedHashMap<String, TargetDescriptor>(); hosts = new ConcurrentHashMap<String, HttpHost>(); String[] scheme = { null }; String[] host = { null }; int[] port = { 0 }; String[] path = { null }; int[] stripPrefixCount = { 0 }; for (HierarchicalConfiguration targetConfig : conf.configurationsAt("target")) { String match = targetConfig.getString("[@pattern]"); if ((match == null) || (match.trim().length() < 1)) { Logger.error("Unable to configure target; Invalid url match pattern"); continue; } String key = RequestForTargetConsumer.UriToTargetKey(targetConfig.getString("[@url]"), scheme, host, port, path, stripPrefixCount); if (key == null) { Logger.error("Unable to configure target"); continue; } HttpHost targetHost = hosts.get(key); if (targetHost == null) { targetHost = new HttpHost(host[0], port[0], scheme[0]); hosts.put(key, targetHost); } TargetDescriptor desc = new TargetDescriptor(targetHost, path[0], stripPrefixCount[0]); mappings.put(match, desc); } connectionDispatcher = new DefaultHttpClientIODispatch(new HttpAsyncRequestExecutor(), ConnectionConfig.DEFAULT); } // Allocate the script map which will be populated by it's own executor thread. if (config.containsKey("scripts.rootDirectory")) { Path tmp = Utils.MakePath(config.getProperty("scripts.rootDirectory")); if (!Files.exists(tmp)) throw new FileNotFoundException("Scripts directory does not exist."); if (!Files.isDirectory(tmp)) throw new FileNotFoundException("'scripts' path is not a directory."); scripts = new ConcurrentSkipListMap<String, ScriptObjectMirror>(); boolean watch = config.getBoolean("scripts.dynamicWatch", false); List<Path> jsLibs; Object prop = config.getProperty("scripts.library"); if (prop != null) { jsLibs = new ArrayList<Path>(); if (prop instanceof Collection<?>) { @SuppressWarnings("unchecked") Collection<Object> oprop = (Collection<Object>) prop; for (Object obj : oprop) jsLibs.add(Utils.MakePath(obj)); } else { jsLibs.add(Utils.MakePath(prop)); } } else jsLibs = null; lconf = config.configurationsAt("scripts.scriptConfig"); if (lconf != null) { if (lconf.size() > 1) throw new ConfigurationException("Only one scriptConfig element is allowed."); if (lconf.size() == 0) lconf = null; } HierarchicalConfiguration scriptConfig; if (lconf == null) scriptConfig = new HierarchicalConfiguration(); else scriptConfig = lconf.get(0); scriptConfig.setProperty("pokerface.scripts.rootDirectory", tmp.toString()); configureScripts(jsLibs, scriptConfig, tmp, watch); if (watch) ScriptDirectoryWatcher = new DirectoryWatchService(); } // Configure the static file directory (if any) Path staticFilesPath = null; if (config.containsKey("files.rootDirectory")) { Path tmp = Utils.MakePath(config.getProperty("files.rootDirectory")); if (!Files.exists(tmp)) throw new FileNotFoundException("Files directory does not exist."); if (!Files.isDirectory(tmp)) throw new FileNotFoundException("'files' path is not a directory."); staticFilesPath = tmp; List<HierarchicalConfiguration> mimeEntries = config.configurationsAt("files.mime-entry"); if (mimeEntries != null) { for (HierarchicalConfiguration entry : mimeEntries) { entry.setDelimiterParsingDisabled(true); String type = entry.getString("[@type]", "").trim(); if (type.length() == 0) throw new ConfigurationException("Invalid mime type entry"); String extensions = entry.getString("[@extensions]", "").trim(); if (extensions.length() == 0) throw new ConfigurationException("Invalid mime extensions for: " + type); ScriptHelperImpl.AddMimeEntry(type, extensions); } } } handlerRegistry.register("/*", new RequestHandler(executor, connPool, byteBufferPool, staticFilesPath, mappings, scripts != null ? Collections.unmodifiableNavigableMap(scripts) : null, config.getBoolean("scripts.allowScriptsToSpecifyDynamicHosts", false) ? hosts : null)); }
From source file:org.apache.http.impl.nio.client.AbstractHttpAsyncClient.java
private void doExecute() { final InternalRequestExecutor handler = new InternalRequestExecutor(this.log, new HttpAsyncRequestExecutor()); try {//ww w . j av a 2s . c om final IOEventDispatch ioEventDispatch = new DefaultHttpClientIODispatch(handler, getParams()); this.connmgr.execute(ioEventDispatch); } catch (final Exception ex) { this.log.error("I/O reactor terminated abnormally", ex); } finally { this.terminated = true; while (!this.queue.isEmpty()) { final HttpAsyncRequestExecutionHandler<?> exchangeHandler = this.queue.remove(); exchangeHandler.cancel(); } } }
From source file:org.apache.http.impl.nio.client.MinimalHttpAsyncClient.java
public MinimalHttpAsyncClient(final NHttpClientConnectionManager connmgr, final HttpProcessor httpProcessor) { this(connmgr, Executors.defaultThreadFactory(), new HttpAsyncRequestExecutor(), httpProcessor, DefaultConnectionReuseStrategy.INSTANCE, DefaultConnectionKeepAliveStrategy.INSTANCE); }