quickfix.mina.initiator.IoSessionInitiator.bak Maven / Gradle / Ivy
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package quickfix.mina.initiator;
import org.apache.mina.core.filterchain.IoFilterChainBuilder;
import org.apache.mina.core.future.ConnectFuture;
import org.apache.mina.core.service.IoConnector;
import org.apache.mina.core.session.IoSession;
import org.apache.mina.filter.codec.ProtocolCodecFilter;
import org.apache.mina.proxy.ProxyConnector;
import org.apache.mina.transport.socket.SocketConnector;
import quickfix.ConfigError;
import quickfix.LogUtil;
import quickfix.Session;
import quickfix.SystemTime;
import quickfix.mina.CompositeIoFilterChainBuilder;
import quickfix.mina.EventHandlingStrategy;
import quickfix.mina.NetworkingOptions;
import quickfix.mina.ProtocolFactory;
import quickfix.mina.message.FIXProtocolCodecFactory;
import quickfix.mina.ssl.SSLConfig;
import quickfix.mina.ssl.SSLContextFactory;
import quickfix.mina.ssl.SSLFilter;
import quickfix.mina.ssl.SSLSupport;
import javax.net.ssl.SSLContext;
import java.io.IOException;
import java.net.InetSocketAddress;
import java.net.SocketAddress;
import java.security.GeneralSecurityException;
import java.util.Arrays;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.Future;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.TimeUnit;
import org.apache.mina.core.future.CloseFuture;
import quickfix.mina.SessionConnector;
public class IoSessionInitiator {
private final static long CONNECT_POLL_TIMEOUT = 2000L;
private final ScheduledExecutorService executor;
private final ConnectTask reconnectTask;
private Future> reconnectFuture;
public IoSessionInitiator(Session fixSession, SocketAddress[] socketAddresses,
SocketAddress localAddress, int[] reconnectIntervalInSeconds,
ScheduledExecutorService executor, NetworkingOptions networkingOptions,
EventHandlingStrategy eventHandlingStrategy,
IoFilterChainBuilder userIoFilterChainBuilder, boolean sslEnabled, SSLConfig sslConfig,
String proxyType, String proxyVersion, String proxyHost, int proxyPort,
String proxyUser, String proxyPassword, String proxyDomain, String proxyWorkstation) throws ConfigError {
this.executor = executor;
final long[] reconnectIntervalInMillis = new long[reconnectIntervalInSeconds.length];
for (int ii = 0; ii != reconnectIntervalInSeconds.length; ++ii) {
reconnectIntervalInMillis[ii] = reconnectIntervalInSeconds[ii] * 1000L;
}
try {
reconnectTask = new ConnectTask(sslEnabled, socketAddresses, localAddress,
userIoFilterChainBuilder, fixSession, reconnectIntervalInMillis,
networkingOptions, eventHandlingStrategy, sslConfig,
proxyType, proxyVersion, proxyHost, proxyPort, proxyUser, proxyPassword, proxyDomain, proxyWorkstation);
} catch (GeneralSecurityException e) {
throw new ConfigError(e);
}
fixSession.getLog().onEvent("Configured socket addresses for session: " + Arrays.asList(socketAddresses));
}
private static class ConnectTask implements Runnable {
private final boolean sslEnabled;
private final SocketAddress[] socketAddresses;
private final SocketAddress localAddress;
private final IoFilterChainBuilder userIoFilterChainBuilder;
private IoConnector ioConnector;
private final Session fixSession;
private final long[] reconnectIntervalInMillis;
private final NetworkingOptions networkingOptions;
private final EventHandlingStrategy eventHandlingStrategy;
private final SSLConfig sslConfig;
private IoSession ioSession;
private long lastReconnectAttemptTime;
private long lastConnectTime;
private int nextSocketAddressIndex;
private int connectionFailureCount;
private ConnectFuture connectFuture;
private CloseFuture closeFuture;
private final String proxyType;
private final String proxyVersion;
private final String proxyHost;
private final int proxyPort;
private final String proxyUser;
private final String proxyPassword;
private final String proxyDomain;
private final String proxyWorkstation;
public ConnectTask(boolean sslEnabled, SocketAddress[] socketAddresses,
SocketAddress localAddress, IoFilterChainBuilder userIoFilterChainBuilder,
Session fixSession, long[] reconnectIntervalInMillis,
NetworkingOptions networkingOptions, EventHandlingStrategy eventHandlingStrategy, SSLConfig sslConfig,
String proxyType, String proxyVersion, String proxyHost,
int proxyPort, String proxyUser, String proxyPassword, String proxyDomain,
String proxyWorkstation) throws ConfigError, GeneralSecurityException {
this.sslEnabled = sslEnabled;
this.socketAddresses = socketAddresses;
this.localAddress = localAddress;
this.userIoFilterChainBuilder = userIoFilterChainBuilder;
this.fixSession = fixSession;
this.reconnectIntervalInMillis = reconnectIntervalInMillis;
this.networkingOptions = networkingOptions;
this.eventHandlingStrategy = eventHandlingStrategy;
this.sslConfig = sslConfig;
this.proxyType = proxyType;
this.proxyVersion = proxyVersion;
this.proxyHost = proxyHost;
this.proxyPort = proxyPort;
this.proxyUser = proxyUser;
this.proxyPassword = proxyPassword;
this.proxyDomain = proxyDomain;
this.proxyWorkstation = proxyWorkstation;
setupIoConnector();
}
private void setupIoConnector() throws ConfigError, GeneralSecurityException {
final CompositeIoFilterChainBuilder ioFilterChainBuilder = new CompositeIoFilterChainBuilder(userIoFilterChainBuilder);
boolean hasProxy = proxyType != null && proxyPort > 0 && socketAddresses[nextSocketAddressIndex] instanceof InetSocketAddress;
SSLFilter sslFilter = null;
if (sslEnabled) {
sslFilter = installSslFilter(ioFilterChainBuilder, !hasProxy);
}
ioFilterChainBuilder.addLast(FIXProtocolCodecFactory.FILTER_NAME, new ProtocolCodecFilter(new FIXProtocolCodecFactory()));
IoConnector newConnector;
newConnector = ProtocolFactory.createIoConnector(socketAddresses[nextSocketAddressIndex]);
newConnector.setHandler(new InitiatorIoHandler(fixSession, networkingOptions, eventHandlingStrategy));
newConnector.setFilterChainBuilder(ioFilterChainBuilder);
if (hasProxy) {
ProxyConnector proxyConnector = ProtocolFactory.createIoProxyConnector(
(SocketConnector) newConnector,
(InetSocketAddress) socketAddresses[nextSocketAddressIndex],
new InetSocketAddress(proxyHost, proxyPort),
proxyType, proxyVersion, proxyUser, proxyPassword, proxyDomain, proxyWorkstation
);
proxyConnector.setHandler(new InitiatorProxyIoHandler(
new InitiatorIoHandler(fixSession, networkingOptions, eventHandlingStrategy),
sslFilter
));
newConnector = proxyConnector;
}
if (ioConnector != null) {
// ioConnector.dispose();
dispose("from setupIoConnector");
}
ioConnector = newConnector;
}
private SSLFilter installSslFilter(CompositeIoFilterChainBuilder ioFilterChainBuilder, boolean autoStart)
throws GeneralSecurityException {
final SSLContext sslContext = SSLContextFactory.getInstance(sslConfig);
final SSLFilter sslFilter = new SSLFilter(sslContext, autoStart);
sslFilter.setUseClientMode(true);
sslFilter.setCipherSuites(sslConfig.getEnabledCipherSuites() != null ? sslConfig.getEnabledCipherSuites()
: SSLSupport.getDefaultCipherSuites(sslContext));
sslFilter.setEnabledProtocols(sslConfig.getEnabledProtocols() != null ? sslConfig.getEnabledProtocols()
: SSLSupport.getSupportedProtocols(sslContext));
ioFilterChainBuilder.addLast(SSLSupport.FILTER_NAME, sslFilter);
return sslFilter;
}
public synchronized void run() {
resetIoConnector();
try {
if (connectFuture == null) {
if (shouldReconnect()) {
connect();
}
} else {
pollConnectFuture();
}
} catch (Throwable e) {
LogUtil.logThrowable(fixSession.getLog(), "Exception during ConnectTask run", e);
}
}
private void connect() {
try {
lastReconnectAttemptTime = SystemTime.currentTimeMillis();
SocketAddress nextSocketAddress = getNextSocketAddress();
if (localAddress == null) {
connectFuture = ioConnector.connect(nextSocketAddress);
} else {
// QFJ-482
connectFuture = ioConnector.connect(nextSocketAddress, localAddress);
}
pollConnectFuture();
} catch (Throwable e) {
handleConnectException(e);
}
}
private void pollConnectFuture() {
try {
connectFuture.awaitUninterruptibly(CONNECT_POLL_TIMEOUT);
if (connectFuture.getSession() != null) {
ioSession = connectFuture.getSession();
closeFuture = ioSession.getCloseFuture();
connectionFailureCount = 0;
lastConnectTime = System.currentTimeMillis();
connectFuture = null;
} else {
fixSession.getLog().onEvent(
"Pending connection not established after "
+ (System.currentTimeMillis() - lastReconnectAttemptTime)
+ " ms.");
}
} catch (Throwable e) {
handleConnectException(e);
}
}
private void handleConnectException(Throwable e) {
++connectionFailureCount;
SocketAddress socketAddress = socketAddresses[getCurrentSocketAddressIndex()];
unresolveCurrentSocketAddress(socketAddress);
while (e.getCause() != null) {
e = e.getCause();
}
final String nextRetryMsg = " (Next retry in " + computeNextRetryConnectDelay() + " milliseconds)";
if (e instanceof IOException) {
fixSession.getLog().onErrorEvent(e.getClass().getName() + " during connection to " + socketAddress + ": " + e + nextRetryMsg);
} else {
LogUtil.logThrowable(fixSession.getLog(), "Exception during connection to " + socketAddress + nextRetryMsg, e);
}
connectFuture = null;
}
private SocketAddress getNextSocketAddress() {
SocketAddress socketAddress = socketAddresses[nextSocketAddressIndex];
// QFJ-266 Recreate socket address for unresolved addresses
if (socketAddress instanceof InetSocketAddress) {
InetSocketAddress inetAddr = (InetSocketAddress) socketAddress;
if (inetAddr.isUnresolved()) {
socketAddress = new InetSocketAddress(inetAddr.getHostName(), inetAddr
.getPort());
socketAddresses[nextSocketAddressIndex] = socketAddress;
}
}
nextSocketAddressIndex = (nextSocketAddressIndex + 1) % socketAddresses.length;
return socketAddress;
}
// QFJ-822 Reset cached DNS resolution information on connection failure.
private void unresolveCurrentSocketAddress(SocketAddress socketAddress) {
if (socketAddress instanceof InetSocketAddress) {
InetSocketAddress inetAddr = (InetSocketAddress) socketAddress;
socketAddresses[getCurrentSocketAddressIndex()] = InetSocketAddress.createUnresolved(
inetAddr.getHostString(), inetAddr.getPort());
}
}
private int getCurrentSocketAddressIndex() {
return (nextSocketAddressIndex + socketAddresses.length - 1) % socketAddresses.length;
}
private boolean shouldReconnect() {
return (ioSession == null || !ioSession.isConnected()) && isTimeForReconnect()
&& (fixSession.isEnabled() && fixSession.isSessionTime());
}
private long computeNextRetryConnectDelay() {
int index = connectionFailureCount - 1;
if (index < 0)
index = 0;
long millis;
if (index >= reconnectIntervalInMillis.length) {
millis = reconnectIntervalInMillis[reconnectIntervalInMillis.length - 1];
} else {
millis = reconnectIntervalInMillis[index];
}
return millis;
}
private boolean isTimeForReconnect() {
return SystemTime.currentTimeMillis() - lastReconnectAttemptTime >= computeNextRetryConnectDelay();
}
// TODO JMX Expose reconnect property
@SuppressWarnings("unused") // exposed via JMX
public synchronized int getConnectionFailureCount() {
return connectionFailureCount;
}
@SuppressWarnings("unused") // exposed via JMX
public synchronized long getLastReconnectAttemptTime() {
return lastReconnectAttemptTime;
}
@SuppressWarnings("unused") // exposed via JMX
public synchronized long getLastConnectTime() {
return lastConnectTime;
}
public Session getFixSession() {
return fixSession;
}
private void resetIoConnector() {
if (ioSession != null && Boolean.TRUE.equals(ioSession.getAttribute(SessionConnector.QFJ_RESET_IO_CONNECTOR))) {
try {
setupIoConnector();
if (connectFuture != null) {
connectFuture.cancel();
}
connectFuture = null;
// CloseFuture closeNow = ioSession.closeNow();
// closeNow.await();
ioSession = null;
} catch (Throwable e) {
LogUtil.logThrowable(fixSession.getLog(), "Exception during resetIoConnector call", e);
}
}
}
public void dispose(String location) {
System.err.println("XXX dispose from " + location);
ExecutorService newSingleThreadExecutor = Executors.newSingleThreadExecutor();
final Runnable runnable = new Runnable() {
@Override
public void run() {
if (closeFuture != null) {
final CloseFuture closeNow = closeFuture.getSession().closeOnFlush();
boolean awaitUninterruptibly = closeNow.awaitUninterruptibly(1000);
if (!awaitUninterruptibly) {
System.err.println("XXX close operation not finished!" );
}
}
// QFJ-849: clean up resources of MINA connector
System.err.println("XXX managedSessions before dispose: " + ioConnector.getManagedSessionCount());
for( IoSession sess : ioConnector.getManagedSessions().values() ) {
System.err.println("XXX closing session: " + sess + " " + sess.hashCode());
sess.closeOnFlush();
}
System.err.println("XXX disposing ioconnector " + ioConnector + " " + ioConnector.hashCode());
ioConnector.dispose(true);
System.err.println("XXX managedSessions after dispose: " + ioConnector.getManagedSessionCount());
}
};
newSingleThreadExecutor.execute(runnable);
try {
System.err.println("XXX awaitTermination..." );
boolean awaitTermination = newSingleThreadExecutor.awaitTermination(5000, TimeUnit.MILLISECONDS);
if (!awaitTermination) {
System.err.println("XXX awaitTermination operation not finished!" );
}
} catch (InterruptedException ex) {
Thread.currentThread().interrupt();
}
newSingleThreadExecutor.shutdownNow();
// Thread thread = new Thread(runnable);
// thread.setDaemon(true);
// thread.start();
// try {
// System.err.println("XXX waiting for dispose thread to die...");
// thread.join(5000);
// } catch (InterruptedException ex) {
// Logger.getLogger(IoSessionInitiator.class.getName()).log(Level.SEVERE, null, ex);
// } finally {
// System.err.println("XXX waiting for dispose thread to die... done");
// }
}
}
synchronized void start() {
if (reconnectFuture == null) {
// The following logon reenabled the session. The actual logon will take
// place as a side-effect of the session timer task (not the reconnect task).
reconnectTask.getFixSession().logon(); // only enables the session
reconnectFuture = executor
.scheduleWithFixedDelay(reconnectTask, 0, 1, TimeUnit.SECONDS);
}
}
synchronized void stop() {
if (reconnectFuture != null) {
reconnectFuture.cancel(true);
reconnectFuture = null;
}
System.err.println("XXX managedSessions before dispose: " + reconnectTask.ioConnector.getManagedSessions());
reconnectTask.dispose("from stop()");
// reconnectTask.ioConnector.dispose();
System.err.println("XXX managedSessions after dispose: " + reconnectTask.ioConnector.getManagedSessions());
if (reconnectTask.ioConnector.getManagedSessionCount()>0) {
new Exception().printStackTrace();
}
}
}
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