public class org.fusesource.mqtt.client.MQTT extends java.lang.Object
{
private static final long KEEP_ALIVE;
private static final long STACK_SIZE;
private static java.util.concurrent.ThreadPoolExecutor blockingThreadPool;
private static final java.net.URI DEFAULT_HOST;
protected java.net.URI host;
protected java.net.URI localAddress;
protected javax.net.ssl.SSLContext sslContext;
protected org.fusesource.hawtdispatch.DispatchQueue dispatchQueue;
protected java.util.concurrent.Executor blockingExecutor;
protected int maxReadRate;
protected int maxWriteRate;
protected int trafficClass;
protected int receiveBufferSize;
protected int sendBufferSize;
protected boolean useLocalHost;
protected org.fusesource.mqtt.codec.CONNECT connect;
protected long reconnectDelay;
protected long reconnectDelayMax;
protected double reconnectBackOffMultiplier;
protected long reconnectAttemptsMax;
protected long connectAttemptsMax;
protected org.fusesource.mqtt.client.Tracer tracer;
public static synchronized java.util.concurrent.ThreadPoolExecutor getBlockingThreadPool()
{
java.util.concurrent.TimeUnit v;
java.util.concurrent.SynchronousQueue v;
java.util.concurrent.ThreadPoolExecutor v, v;
long v;
org.fusesource.mqtt.client.MQTT$2 v;
org.fusesource.mqtt.client.MQTT$1 v;
v = <org.fusesource.mqtt.client.MQTT: java.util.concurrent.ThreadPoolExecutor blockingThreadPool>;
if v != null goto label;
v = new org.fusesource.mqtt.client.MQTT$2;
v = <org.fusesource.mqtt.client.MQTT: long KEEP_ALIVE>;
v = <java.util.concurrent.TimeUnit: java.util.concurrent.TimeUnit MILLISECONDS>;
v = new java.util.concurrent.SynchronousQueue;
specialinvoke v.<java.util.concurrent.SynchronousQueue: void <init>()>();
v = new org.fusesource.mqtt.client.MQTT$1;
specialinvoke v.<org.fusesource.mqtt.client.MQTT$1: void <init>()>();
specialinvoke v.<org.fusesource.mqtt.client.MQTT$2: void <init>(int,int,long,java.util.concurrent.TimeUnit,java.util.concurrent.BlockingQueue,java.util.concurrent.ThreadFactory)>(0, 2147483647, v, v, v, v);
<org.fusesource.mqtt.client.MQTT: java.util.concurrent.ThreadPoolExecutor blockingThreadPool> = v;
label:
v = <org.fusesource.mqtt.client.MQTT: java.util.concurrent.ThreadPoolExecutor blockingThreadPool>;
return v;
}
public static synchronized void setBlockingThreadPool(java.util.concurrent.ThreadPoolExecutor)
{
java.util.concurrent.ThreadPoolExecutor v;
v := @parameter: java.util.concurrent.ThreadPoolExecutor;
<org.fusesource.mqtt.client.MQTT: java.util.concurrent.ThreadPoolExecutor blockingThreadPool> = v;
return;
}
private static java.net.URI createDefaultHost()
{
java.net.URI v;
java.net.URISyntaxException v;
label:
v = new java.net.URI;
specialinvoke v.<java.net.URI: void <init>(java.lang.String)>("tcp://127.0.0.1:1883");
label:
return v;
label:
v := @caughtexception;
return null;
catch java.net.URISyntaxException from label to label with label;
}
public void <init>()
{
org.fusesource.mqtt.codec.CONNECT v;
org.fusesource.mqtt.client.MQTT v;
org.fusesource.mqtt.client.Tracer v;
java.net.URI v;
v := @this: org.fusesource.mqtt.client.MQTT;
specialinvoke v.<java.lang.Object: void <init>()>();
v = <org.fusesource.mqtt.client.MQTT: java.net.URI DEFAULT_HOST>;
v.<org.fusesource.mqtt.client.MQTT: java.net.URI host> = v;
v.<org.fusesource.mqtt.client.MQTT: int trafficClass> = 8;
v.<org.fusesource.mqtt.client.MQTT: int receiveBufferSize> = 65536;
v.<org.fusesource.mqtt.client.MQTT: int sendBufferSize> = 65536;
v.<org.fusesource.mqtt.client.MQTT: boolean useLocalHost> = 1;
v = new org.fusesource.mqtt.codec.CONNECT;
specialinvoke v.<org.fusesource.mqtt.codec.CONNECT: void <init>()>();
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect> = v;
v.<org.fusesource.mqtt.client.MQTT: long reconnectDelay> = 10L;
v.<org.fusesource.mqtt.client.MQTT: long reconnectDelayMax> = 30000L;
v.<org.fusesource.mqtt.client.MQTT: double reconnectBackOffMultiplier> = 2.0;
v.<org.fusesource.mqtt.client.MQTT: long reconnectAttemptsMax> = -1L;
v.<org.fusesource.mqtt.client.MQTT: long connectAttemptsMax> = -1L;
v = new org.fusesource.mqtt.client.Tracer;
specialinvoke v.<org.fusesource.mqtt.client.Tracer: void <init>()>();
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.client.Tracer tracer> = v;
return;
}
public void <init>(org.fusesource.mqtt.client.MQTT)
{
javax.net.ssl.SSLContext v;
org.fusesource.mqtt.codec.CONNECT v, v, v;
org.fusesource.mqtt.client.MQTT v, v;
long v, v, v, v;
int v, v, v, v, v;
java.net.URI v, v, v;
boolean v;
double v;
java.util.concurrent.Executor v;
org.fusesource.mqtt.client.Tracer v, v;
org.fusesource.hawtdispatch.DispatchQueue v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.mqtt.client.MQTT;
specialinvoke v.<java.lang.Object: void <init>()>();
v = <org.fusesource.mqtt.client.MQTT: java.net.URI DEFAULT_HOST>;
v.<org.fusesource.mqtt.client.MQTT: java.net.URI host> = v;
v.<org.fusesource.mqtt.client.MQTT: int trafficClass> = 8;
v.<org.fusesource.mqtt.client.MQTT: int receiveBufferSize> = 65536;
v.<org.fusesource.mqtt.client.MQTT: int sendBufferSize> = 65536;
v.<org.fusesource.mqtt.client.MQTT: boolean useLocalHost> = 1;
v = new org.fusesource.mqtt.codec.CONNECT;
specialinvoke v.<org.fusesource.mqtt.codec.CONNECT: void <init>()>();
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect> = v;
v.<org.fusesource.mqtt.client.MQTT: long reconnectDelay> = 10L;
v.<org.fusesource.mqtt.client.MQTT: long reconnectDelayMax> = 30000L;
v.<org.fusesource.mqtt.client.MQTT: double reconnectBackOffMultiplier> = 2.0;
v.<org.fusesource.mqtt.client.MQTT: long reconnectAttemptsMax> = -1L;
v.<org.fusesource.mqtt.client.MQTT: long connectAttemptsMax> = -1L;
v = new org.fusesource.mqtt.client.Tracer;
specialinvoke v.<org.fusesource.mqtt.client.Tracer: void <init>()>();
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.client.Tracer tracer> = v;
v = v.<org.fusesource.mqtt.client.MQTT: java.net.URI host>;
v.<org.fusesource.mqtt.client.MQTT: java.net.URI host> = v;
v = v.<org.fusesource.mqtt.client.MQTT: java.net.URI localAddress>;
v.<org.fusesource.mqtt.client.MQTT: java.net.URI localAddress> = v;
v = v.<org.fusesource.mqtt.client.MQTT: javax.net.ssl.SSLContext sslContext>;
v.<org.fusesource.mqtt.client.MQTT: javax.net.ssl.SSLContext sslContext> = v;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.hawtdispatch.DispatchQueue dispatchQueue>;
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.hawtdispatch.DispatchQueue dispatchQueue> = v;
v = v.<org.fusesource.mqtt.client.MQTT: java.util.concurrent.Executor blockingExecutor>;
v.<org.fusesource.mqtt.client.MQTT: java.util.concurrent.Executor blockingExecutor> = v;
v = v.<org.fusesource.mqtt.client.MQTT: int maxReadRate>;
v.<org.fusesource.mqtt.client.MQTT: int maxReadRate> = v;
v = v.<org.fusesource.mqtt.client.MQTT: int maxWriteRate>;
v.<org.fusesource.mqtt.client.MQTT: int maxWriteRate> = v;
v = v.<org.fusesource.mqtt.client.MQTT: int trafficClass>;
v.<org.fusesource.mqtt.client.MQTT: int trafficClass> = v;
v = v.<org.fusesource.mqtt.client.MQTT: int receiveBufferSize>;
v.<org.fusesource.mqtt.client.MQTT: int receiveBufferSize> = v;
v = v.<org.fusesource.mqtt.client.MQTT: int sendBufferSize>;
v.<org.fusesource.mqtt.client.MQTT: int sendBufferSize> = v;
v = v.<org.fusesource.mqtt.client.MQTT: boolean useLocalHost>;
v.<org.fusesource.mqtt.client.MQTT: boolean useLocalHost> = v;
v = new org.fusesource.mqtt.codec.CONNECT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
specialinvoke v.<org.fusesource.mqtt.codec.CONNECT: void <init>(org.fusesource.mqtt.codec.CONNECT)>(v);
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect> = v;
v = v.<org.fusesource.mqtt.client.MQTT: long reconnectDelay>;
v.<org.fusesource.mqtt.client.MQTT: long reconnectDelay> = v;
v = v.<org.fusesource.mqtt.client.MQTT: long reconnectDelayMax>;
v.<org.fusesource.mqtt.client.MQTT: long reconnectDelayMax> = v;
v = v.<org.fusesource.mqtt.client.MQTT: double reconnectBackOffMultiplier>;
v.<org.fusesource.mqtt.client.MQTT: double reconnectBackOffMultiplier> = v;
v = v.<org.fusesource.mqtt.client.MQTT: long reconnectAttemptsMax>;
v.<org.fusesource.mqtt.client.MQTT: long reconnectAttemptsMax> = v;
v = v.<org.fusesource.mqtt.client.MQTT: long connectAttemptsMax>;
v.<org.fusesource.mqtt.client.MQTT: long connectAttemptsMax> = v;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.client.Tracer tracer>;
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.client.Tracer tracer> = v;
return;
}
public org.fusesource.mqtt.client.CallbackConnection callbackConnection()
{
org.fusesource.mqtt.client.MQTT v, v;
java.lang.IllegalArgumentException v;
org.fusesource.mqtt.client.CallbackConnection v;
org.fusesource.hawtbuf.UTF8Buffer v, v;
int v;
boolean v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = virtualinvoke v.<org.fusesource.mqtt.client.MQTT: boolean isCleanSession()>();
if v != 0 goto label;
v = virtualinvoke v.<org.fusesource.mqtt.client.MQTT: org.fusesource.hawtbuf.UTF8Buffer getClientId()>();
if v == null goto label;
v = virtualinvoke v.<org.fusesource.mqtt.client.MQTT: org.fusesource.hawtbuf.UTF8Buffer getClientId()>();
v = v.<org.fusesource.hawtbuf.UTF8Buffer: int length>;
if v != 0 goto label;
label:
v = new java.lang.IllegalArgumentException;
specialinvoke v.<java.lang.IllegalArgumentException: void <init>(java.lang.String)>("The client id MUST be configured when clean session is set to false");
throw v;
label:
v = new org.fusesource.mqtt.client.CallbackConnection;
v = new org.fusesource.mqtt.client.MQTT;
specialinvoke v.<org.fusesource.mqtt.client.MQTT: void <init>(org.fusesource.mqtt.client.MQTT)>(v);
specialinvoke v.<org.fusesource.mqtt.client.CallbackConnection: void <init>(org.fusesource.mqtt.client.MQTT)>(v);
return v;
}
public org.fusesource.mqtt.client.FutureConnection futureConnection()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.mqtt.client.FutureConnection v;
org.fusesource.mqtt.client.CallbackConnection v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = new org.fusesource.mqtt.client.FutureConnection;
v = virtualinvoke v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.client.CallbackConnection callbackConnection()>();
specialinvoke v.<org.fusesource.mqtt.client.FutureConnection: void <init>(org.fusesource.mqtt.client.CallbackConnection)>(v);
return v;
}
public org.fusesource.mqtt.client.BlockingConnection blockingConnection()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.mqtt.client.FutureConnection v;
org.fusesource.mqtt.client.BlockingConnection v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = new org.fusesource.mqtt.client.BlockingConnection;
v = virtualinvoke v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.client.FutureConnection futureConnection()>();
specialinvoke v.<org.fusesource.mqtt.client.BlockingConnection: void <init>(org.fusesource.mqtt.client.FutureConnection)>(v);
return v;
}
public org.fusesource.hawtbuf.UTF8Buffer getClientId()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.hawtbuf.UTF8Buffer clientId()>();
return v;
}
public short getKeepAlive()
{
org.fusesource.mqtt.client.MQTT v;
short v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: short keepAlive()>();
return v;
}
public org.fusesource.hawtbuf.UTF8Buffer getPassword()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.hawtbuf.UTF8Buffer password()>();
return v;
}
public byte getType()
{
org.fusesource.mqtt.client.MQTT v;
byte v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: byte messageType()>();
return v;
}
public org.fusesource.hawtbuf.UTF8Buffer getUserName()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.hawtbuf.UTF8Buffer userName()>();
return v;
}
public org.fusesource.hawtbuf.UTF8Buffer getWillMessage()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.hawtbuf.UTF8Buffer willMessage()>();
return v;
}
public org.fusesource.mqtt.client.QoS getWillQos()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.mqtt.client.QoS v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.client.QoS willQos()>();
return v;
}
public org.fusesource.hawtbuf.UTF8Buffer getWillTopic()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.hawtbuf.UTF8Buffer willTopic()>();
return v;
}
public boolean isCleanSession()
{
org.fusesource.mqtt.client.MQTT v;
boolean v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: boolean cleanSession()>();
return v;
}
public boolean isWillRetain()
{
org.fusesource.mqtt.client.MQTT v;
boolean v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: boolean willRetain()>();
return v;
}
public void setCleanSession(boolean)
{
org.fusesource.mqtt.client.MQTT v;
boolean v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: boolean;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT cleanSession(boolean)>(v);
return;
}
public void setClientId(java.lang.String)
{
org.fusesource.mqtt.client.MQTT v;
java.lang.String v;
org.fusesource.hawtbuf.UTF8Buffer v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v = staticinvoke <org.fusesource.hawtbuf.Buffer: org.fusesource.hawtbuf.UTF8Buffer utf8(java.lang.String)>(v);
virtualinvoke v.<org.fusesource.mqtt.client.MQTT: void setClientId(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setClientId(org.fusesource.hawtbuf.UTF8Buffer)
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.hawtbuf.UTF8Buffer;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT clientId(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setKeepAlive(short)
{
org.fusesource.mqtt.client.MQTT v;
short v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: short;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT keepAlive(short)>(v);
return;
}
public void setPassword(java.lang.String)
{
org.fusesource.mqtt.client.MQTT v;
java.lang.String v;
org.fusesource.hawtbuf.UTF8Buffer v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v = staticinvoke <org.fusesource.hawtbuf.Buffer: org.fusesource.hawtbuf.UTF8Buffer utf8(java.lang.String)>(v);
virtualinvoke v.<org.fusesource.mqtt.client.MQTT: void setPassword(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setPassword(org.fusesource.hawtbuf.UTF8Buffer)
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.hawtbuf.UTF8Buffer;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT password(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setUserName(java.lang.String)
{
org.fusesource.mqtt.client.MQTT v;
java.lang.String v;
org.fusesource.hawtbuf.UTF8Buffer v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v = staticinvoke <org.fusesource.hawtbuf.Buffer: org.fusesource.hawtbuf.UTF8Buffer utf8(java.lang.String)>(v);
virtualinvoke v.<org.fusesource.mqtt.client.MQTT: void setUserName(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setUserName(org.fusesource.hawtbuf.UTF8Buffer)
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.hawtbuf.UTF8Buffer;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT userName(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setWillMessage(java.lang.String)
{
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
org.fusesource.mqtt.client.MQTT v;
java.lang.String v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = staticinvoke <org.fusesource.hawtbuf.Buffer: org.fusesource.hawtbuf.UTF8Buffer utf8(java.lang.String)>(v);
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT willMessage(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setWillMessage(org.fusesource.hawtbuf.UTF8Buffer)
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.hawtbuf.UTF8Buffer;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT willMessage(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setWillQos(org.fusesource.mqtt.client.QoS)
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.mqtt.client.QoS v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.mqtt.client.QoS;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT willQos(org.fusesource.mqtt.client.QoS)>(v);
return;
}
public void setVersion(java.lang.String)
{
org.fusesource.mqtt.codec.CONNECT v, v;
org.fusesource.mqtt.client.MQTT v;
java.lang.String v, v, v;
boolean v, v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v = "3.1";
v = virtualinvoke v.<java.lang.String: boolean equals(java.lang.Object)>(v);
if v == 0 goto label;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT version(int)>(3);
goto label;
label:
v = "3.1.1";
v = virtualinvoke v.<java.lang.String: boolean equals(java.lang.Object)>(v);
if v == 0 goto label;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT version(int)>(4);
label:
return;
}
public java.lang.String getVersion()
{
int v;
org.fusesource.mqtt.client.MQTT v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
v = virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: int version()>();
lookupswitch(v)
{
case 3: goto label;
case 4: goto label;
default: goto label;
};
label:
return "3.1";
label:
return "3.1.1";
label:
return "unknown";
}
public void setWillRetain(boolean)
{
org.fusesource.mqtt.client.MQTT v;
boolean v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: boolean;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT willRetain(boolean)>(v);
return;
}
public void setWillTopic(java.lang.String)
{
org.fusesource.mqtt.client.MQTT v;
java.lang.String v;
org.fusesource.hawtbuf.UTF8Buffer v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v = staticinvoke <org.fusesource.hawtbuf.Buffer: org.fusesource.hawtbuf.UTF8Buffer utf8(java.lang.String)>(v);
virtualinvoke v.<org.fusesource.mqtt.client.MQTT: void setWillTopic(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public void setWillTopic(org.fusesource.hawtbuf.UTF8Buffer)
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtbuf.UTF8Buffer v;
org.fusesource.mqtt.codec.CONNECT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.hawtbuf.UTF8Buffer;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.codec.CONNECT connect>;
virtualinvoke v.<org.fusesource.mqtt.codec.CONNECT: org.fusesource.mqtt.codec.CONNECT willTopic(org.fusesource.hawtbuf.UTF8Buffer)>(v);
return;
}
public java.util.concurrent.Executor getBlockingExecutor()
{
org.fusesource.mqtt.client.MQTT v;
java.util.concurrent.Executor v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: java.util.concurrent.Executor blockingExecutor>;
return v;
}
public void setBlockingExecutor(java.util.concurrent.Executor)
{
org.fusesource.mqtt.client.MQTT v;
java.util.concurrent.Executor v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.util.concurrent.Executor;
v.<org.fusesource.mqtt.client.MQTT: java.util.concurrent.Executor blockingExecutor> = v;
return;
}
public org.fusesource.hawtdispatch.DispatchQueue getDispatchQueue()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtdispatch.DispatchQueue v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.hawtdispatch.DispatchQueue dispatchQueue>;
return v;
}
public void setDispatchQueue(org.fusesource.hawtdispatch.DispatchQueue)
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.hawtdispatch.DispatchQueue v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.hawtdispatch.DispatchQueue;
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.hawtdispatch.DispatchQueue dispatchQueue> = v;
return;
}
public java.net.URI getLocalAddress()
{
org.fusesource.mqtt.client.MQTT v;
java.net.URI v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: java.net.URI localAddress>;
return v;
}
public void setLocalAddress(java.lang.String) throws java.net.URISyntaxException
{
org.fusesource.mqtt.client.MQTT v;
java.lang.String v;
java.net.URI v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v = new java.net.URI;
specialinvoke v.<java.net.URI: void <init>(java.lang.String)>(v);
virtualinvoke v.<org.fusesource.mqtt.client.MQTT: void setLocalAddress(java.net.URI)>(v);
return;
}
public void setLocalAddress(java.net.URI)
{
org.fusesource.mqtt.client.MQTT v;
java.net.URI v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.net.URI;
v.<org.fusesource.mqtt.client.MQTT: java.net.URI localAddress> = v;
return;
}
public int getMaxReadRate()
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: int maxReadRate>;
return v;
}
public void setMaxReadRate(int)
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: int;
v.<org.fusesource.mqtt.client.MQTT: int maxReadRate> = v;
return;
}
public int getMaxWriteRate()
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: int maxWriteRate>;
return v;
}
public void setMaxWriteRate(int)
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: int;
v.<org.fusesource.mqtt.client.MQTT: int maxWriteRate> = v;
return;
}
public int getReceiveBufferSize()
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: int receiveBufferSize>;
return v;
}
public void setReceiveBufferSize(int)
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: int;
v.<org.fusesource.mqtt.client.MQTT: int receiveBufferSize> = v;
return;
}
public java.net.URI getHost()
{
org.fusesource.mqtt.client.MQTT v;
java.net.URI v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: java.net.URI host>;
return v;
}
public void setHost(java.lang.String, int) throws java.net.URISyntaxException
{
int v;
org.fusesource.mqtt.client.MQTT v;
java.lang.String v, v;
java.net.URI v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v := @parameter: int;
v = new java.net.URI;
v = dynamicinvoke "makeConcatWithConstants" <java.lang.String (java.lang.String,int)>(v, v) <java.lang.invoke.StringConcatFactory: java.lang.invoke.CallSite makeConcatWithConstants(java.lang.invoke.MethodHandles$Lookup,java.lang.String,java.lang.invoke.MethodType,java.lang.String,java.lang.Object[])>("tcp://\u0001:\u0001");
specialinvoke v.<java.net.URI: void <init>(java.lang.String)>(v);
virtualinvoke v.<org.fusesource.mqtt.client.MQTT: void setHost(java.net.URI)>(v);
return;
}
public void setHost(java.lang.String) throws java.net.URISyntaxException
{
org.fusesource.mqtt.client.MQTT v;
java.lang.String v;
java.net.URI v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.lang.String;
v = new java.net.URI;
specialinvoke v.<java.net.URI: void <init>(java.lang.String)>(v);
virtualinvoke v.<org.fusesource.mqtt.client.MQTT: void setHost(java.net.URI)>(v);
return;
}
public void setHost(java.net.URI)
{
org.fusesource.mqtt.client.MQTT v;
java.net.URI v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: java.net.URI;
v.<org.fusesource.mqtt.client.MQTT: java.net.URI host> = v;
return;
}
public int getSendBufferSize()
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: int sendBufferSize>;
return v;
}
public void setSendBufferSize(int)
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: int;
v.<org.fusesource.mqtt.client.MQTT: int sendBufferSize> = v;
return;
}
public javax.net.ssl.SSLContext getSslContext()
{
org.fusesource.mqtt.client.MQTT v;
javax.net.ssl.SSLContext v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: javax.net.ssl.SSLContext sslContext>;
return v;
}
public void setSslContext(javax.net.ssl.SSLContext)
{
org.fusesource.mqtt.client.MQTT v;
javax.net.ssl.SSLContext v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: javax.net.ssl.SSLContext;
v.<org.fusesource.mqtt.client.MQTT: javax.net.ssl.SSLContext sslContext> = v;
return;
}
public int getTrafficClass()
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: int trafficClass>;
return v;
}
public void setTrafficClass(int)
{
int v;
org.fusesource.mqtt.client.MQTT v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: int;
v.<org.fusesource.mqtt.client.MQTT: int trafficClass> = v;
return;
}
public boolean isUseLocalHost()
{
org.fusesource.mqtt.client.MQTT v;
boolean v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: boolean useLocalHost>;
return v;
}
public void setUseLocalHost(boolean)
{
org.fusesource.mqtt.client.MQTT v;
boolean v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: boolean;
v.<org.fusesource.mqtt.client.MQTT: boolean useLocalHost> = v;
return;
}
public long getConnectAttemptsMax()
{
org.fusesource.mqtt.client.MQTT v;
long v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: long connectAttemptsMax>;
return v;
}
public void setConnectAttemptsMax(long)
{
org.fusesource.mqtt.client.MQTT v;
long v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: long;
v.<org.fusesource.mqtt.client.MQTT: long connectAttemptsMax> = v;
return;
}
public long getReconnectAttemptsMax()
{
org.fusesource.mqtt.client.MQTT v;
long v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: long reconnectAttemptsMax>;
return v;
}
public void setReconnectAttemptsMax(long)
{
org.fusesource.mqtt.client.MQTT v;
long v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: long;
v.<org.fusesource.mqtt.client.MQTT: long reconnectAttemptsMax> = v;
return;
}
public double getReconnectBackOffMultiplier()
{
org.fusesource.mqtt.client.MQTT v;
double v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: double reconnectBackOffMultiplier>;
return v;
}
public void setReconnectBackOffMultiplier(double)
{
org.fusesource.mqtt.client.MQTT v;
double v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: double;
v.<org.fusesource.mqtt.client.MQTT: double reconnectBackOffMultiplier> = v;
return;
}
public long getReconnectDelay()
{
org.fusesource.mqtt.client.MQTT v;
long v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: long reconnectDelay>;
return v;
}
public void setReconnectDelay(long)
{
org.fusesource.mqtt.client.MQTT v;
long v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: long;
v.<org.fusesource.mqtt.client.MQTT: long reconnectDelay> = v;
return;
}
public long getReconnectDelayMax()
{
org.fusesource.mqtt.client.MQTT v;
long v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: long reconnectDelayMax>;
return v;
}
public void setReconnectDelayMax(long)
{
org.fusesource.mqtt.client.MQTT v;
long v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: long;
v.<org.fusesource.mqtt.client.MQTT: long reconnectDelayMax> = v;
return;
}
public org.fusesource.mqtt.client.Tracer getTracer()
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.mqtt.client.Tracer v;
v := @this: org.fusesource.mqtt.client.MQTT;
v = v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.client.Tracer tracer>;
return v;
}
public void setTracer(org.fusesource.mqtt.client.Tracer)
{
org.fusesource.mqtt.client.MQTT v;
org.fusesource.mqtt.client.Tracer v;
v := @this: org.fusesource.mqtt.client.MQTT;
v := @parameter: org.fusesource.mqtt.client.Tracer;
v.<org.fusesource.mqtt.client.MQTT: org.fusesource.mqtt.client.Tracer tracer> = v;
return;
}
static void <clinit>()
{
long v, v;
java.lang.String v, v, v, v;
java.net.URI v;
v = staticinvoke <java.lang.Integer: java.lang.String toString(int)>(1000);
v = staticinvoke <java.lang.System: java.lang.String getProperty(java.lang.String,java.lang.String)>("mqtt.thread.keep_alive", v);
v = staticinvoke <java.lang.Long: long parseLong(java.lang.String)>(v);
<org.fusesource.mqtt.client.MQTT: long KEEP_ALIVE> = v;
v = staticinvoke <java.lang.Integer: java.lang.String toString(int)>(524288);
v = staticinvoke <java.lang.System: java.lang.String getProperty(java.lang.String,java.lang.String)>("mqtt.thread.stack_size", v);
v = staticinvoke <java.lang.Long: long parseLong(java.lang.String)>(v);
<org.fusesource.mqtt.client.MQTT: long STACK_SIZE> = v;
v = staticinvoke <org.fusesource.mqtt.client.MQTT: java.net.URI createDefaultHost()>();
<org.fusesource.mqtt.client.MQTT: java.net.URI DEFAULT_HOST> = v;
return;
}
}