public class io.vertx.core.net.TrafficShapingOptions extends java.lang.Object
{
public static final long DEFAULT_INBOUND_GLOBAL_BANDWIDTH_LIMIT;
public static final long DEFAULT_OUTBOUND_GLOBAL_BANDWIDTH_LIMIT;
public static final long DEFAULT_PEAK_OUTBOUND_GLOBAL_BANDWIDTH;
public static final long DEFAULT_CHECK_INTERVAL;
public static final long DEFAULT_MAX_TIME;
private long inboundGlobalBandwidth;
private long outboundGlobalBandwidth;
private long peakOutboundGlobalBandwidth;
private long maxDelayToWait;
private java.util.concurrent.TimeUnit maxDelayToWaitTimeUnit;
private long checkIntervalForStats;
private java.util.concurrent.TimeUnit checkIntervalForStatsTimeUnit;
public void <init>()
{
java.util.concurrent.TimeUnit v, v;
io.vertx.core.net.TrafficShapingOptions v;
long v, v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
specialinvoke v.<java.lang.Object: void <init>()>();
v.<io.vertx.core.net.TrafficShapingOptions: long inboundGlobalBandwidth> = 0L;
v.<io.vertx.core.net.TrafficShapingOptions: long outboundGlobalBandwidth> = 0L;
v.<io.vertx.core.net.TrafficShapingOptions: long peakOutboundGlobalBandwidth> = 419430400L;
v = <io.vertx.core.net.TrafficShapingOptions: long DEFAULT_MAX_TIME>;
v.<io.vertx.core.net.TrafficShapingOptions: long maxDelayToWait> = v;
v = <java.util.concurrent.TimeUnit: java.util.concurrent.TimeUnit MILLISECONDS>;
v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit maxDelayToWaitTimeUnit> = v;
v = <io.vertx.core.net.TrafficShapingOptions: long DEFAULT_CHECK_INTERVAL>;
v.<io.vertx.core.net.TrafficShapingOptions: long checkIntervalForStats> = v;
v = <java.util.concurrent.TimeUnit: java.util.concurrent.TimeUnit MILLISECONDS>;
v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit checkIntervalForStatsTimeUnit> = v;
return;
}
public void <init>(io.vertx.core.net.TrafficShapingOptions)
{
long v, v, v, v, v;
java.util.concurrent.TimeUnit v, v;
io.vertx.core.net.TrafficShapingOptions v, v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: io.vertx.core.net.TrafficShapingOptions;
specialinvoke v.<java.lang.Object: void <init>()>();
v = virtualinvoke v.<io.vertx.core.net.TrafficShapingOptions: long getInboundGlobalBandwidth()>();
v.<io.vertx.core.net.TrafficShapingOptions: long inboundGlobalBandwidth> = v;
v = virtualinvoke v.<io.vertx.core.net.TrafficShapingOptions: long getOutboundGlobalBandwidth()>();
v.<io.vertx.core.net.TrafficShapingOptions: long outboundGlobalBandwidth> = v;
v = virtualinvoke v.<io.vertx.core.net.TrafficShapingOptions: long getPeakOutboundGlobalBandwidth()>();
v.<io.vertx.core.net.TrafficShapingOptions: long peakOutboundGlobalBandwidth> = v;
v = virtualinvoke v.<io.vertx.core.net.TrafficShapingOptions: long getMaxDelayToWait()>();
v.<io.vertx.core.net.TrafficShapingOptions: long maxDelayToWait> = v;
v = virtualinvoke v.<io.vertx.core.net.TrafficShapingOptions: long getCheckIntervalForStats()>();
v.<io.vertx.core.net.TrafficShapingOptions: long checkIntervalForStats> = v;
v = virtualinvoke v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit getMaxDelayToWaitTimeUnit()>();
v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit maxDelayToWaitTimeUnit> = v;
v = virtualinvoke v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit getCheckIntervalForStatsTimeUnit()>();
v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit checkIntervalForStatsTimeUnit> = v;
return;
}
public void <init>(io.vertx.core.json.JsonObject)
{
io.vertx.core.net.TrafficShapingOptions v;
io.vertx.core.json.JsonObject v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: io.vertx.core.json.JsonObject;
specialinvoke v.<java.lang.Object: void <init>()>();
staticinvoke <io.vertx.core.net.TrafficShapingOptionsConverter: void fromJson(java.lang.Iterable,io.vertx.core.net.TrafficShapingOptions)>(v, v);
return;
}
public io.vertx.core.json.JsonObject toJson()
{
io.vertx.core.net.TrafficShapingOptions v;
io.vertx.core.json.JsonObject v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v = new io.vertx.core.json.JsonObject;
specialinvoke v.<io.vertx.core.json.JsonObject: void <init>()>();
staticinvoke <io.vertx.core.net.TrafficShapingOptionsConverter: void toJson(io.vertx.core.net.TrafficShapingOptions,io.vertx.core.json.JsonObject)>(v, v);
return v;
}
public io.vertx.core.net.TrafficShapingOptions setInboundGlobalBandwidth(long)
{
io.vertx.core.net.TrafficShapingOptions v;
long v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: long;
v.<io.vertx.core.net.TrafficShapingOptions: long inboundGlobalBandwidth> = v;
return v;
}
public io.vertx.core.net.TrafficShapingOptions setOutboundGlobalBandwidth(long)
{
io.vertx.core.net.TrafficShapingOptions v;
long v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: long;
v.<io.vertx.core.net.TrafficShapingOptions: long outboundGlobalBandwidth> = v;
return v;
}
public io.vertx.core.net.TrafficShapingOptions setMaxDelayToWait(long)
{
io.vertx.core.net.TrafficShapingOptions v;
long v, v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: long;
v.<io.vertx.core.net.TrafficShapingOptions: long maxDelayToWait> = v;
v = v.<io.vertx.core.net.TrafficShapingOptions: long maxDelayToWait>;
staticinvoke <io.netty.util.internal.ObjectUtil: long checkPositive(long,java.lang.String)>(v, "maxDelayToWaitTime");
return v;
}
public io.vertx.core.net.TrafficShapingOptions setMaxDelayToWaitUnit(java.util.concurrent.TimeUnit)
{
io.vertx.core.net.TrafficShapingOptions v;
java.util.concurrent.TimeUnit v;
java.lang.Object v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: java.util.concurrent.TimeUnit;
v = staticinvoke <java.util.Objects: java.lang.Object requireNonNull(java.lang.Object,java.lang.String)>(v, "maxDelayToWaitTimeUnit");
v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit maxDelayToWaitTimeUnit> = v;
return v;
}
public io.vertx.core.net.TrafficShapingOptions setCheckIntervalForStats(long)
{
io.vertx.core.net.TrafficShapingOptions v;
long v, v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: long;
v.<io.vertx.core.net.TrafficShapingOptions: long checkIntervalForStats> = v;
v = v.<io.vertx.core.net.TrafficShapingOptions: long checkIntervalForStats>;
staticinvoke <io.netty.util.internal.ObjectUtil: long checkPositive(long,java.lang.String)>(v, "checkIntervalForStats");
return v;
}
public io.vertx.core.net.TrafficShapingOptions setCheckIntervalForStatsTimeUnit(java.util.concurrent.TimeUnit)
{
io.vertx.core.net.TrafficShapingOptions v;
java.util.concurrent.TimeUnit v;
java.lang.Object v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: java.util.concurrent.TimeUnit;
v = staticinvoke <java.util.Objects: java.lang.Object requireNonNull(java.lang.Object,java.lang.String)>(v, "checkIntervalForStatsTimeUnit");
v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit checkIntervalForStatsTimeUnit> = v;
return v;
}
public io.vertx.core.net.TrafficShapingOptions setPeakOutboundGlobalBandwidth(long)
{
io.vertx.core.net.TrafficShapingOptions v;
long v, v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v := @parameter: long;
v.<io.vertx.core.net.TrafficShapingOptions: long peakOutboundGlobalBandwidth> = v;
v = v.<io.vertx.core.net.TrafficShapingOptions: long peakOutboundGlobalBandwidth>;
staticinvoke <io.netty.util.internal.ObjectUtil: long checkPositive(long,java.lang.String)>(v, "peakOutboundGlobalBandwidth");
return v;
}
public long getInboundGlobalBandwidth()
{
io.vertx.core.net.TrafficShapingOptions v;
long v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v = v.<io.vertx.core.net.TrafficShapingOptions: long inboundGlobalBandwidth>;
return v;
}
public long getOutboundGlobalBandwidth()
{
io.vertx.core.net.TrafficShapingOptions v;
long v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v = v.<io.vertx.core.net.TrafficShapingOptions: long outboundGlobalBandwidth>;
return v;
}
public long getPeakOutboundGlobalBandwidth()
{
io.vertx.core.net.TrafficShapingOptions v;
long v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v = v.<io.vertx.core.net.TrafficShapingOptions: long peakOutboundGlobalBandwidth>;
return v;
}
public long getMaxDelayToWait()
{
io.vertx.core.net.TrafficShapingOptions v;
long v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v = v.<io.vertx.core.net.TrafficShapingOptions: long maxDelayToWait>;
return v;
}
public java.util.concurrent.TimeUnit getMaxDelayToWaitTimeUnit()
{
io.vertx.core.net.TrafficShapingOptions v;
java.util.concurrent.TimeUnit v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v = v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit maxDelayToWaitTimeUnit>;
return v;
}
public long getCheckIntervalForStats()
{
io.vertx.core.net.TrafficShapingOptions v;
long v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v = v.<io.vertx.core.net.TrafficShapingOptions: long checkIntervalForStats>;
return v;
}
public java.util.concurrent.TimeUnit getCheckIntervalForStatsTimeUnit()
{
io.vertx.core.net.TrafficShapingOptions v;
java.util.concurrent.TimeUnit v;
v := @this: io.vertx.core.net.TrafficShapingOptions;
v = v.<io.vertx.core.net.TrafficShapingOptions: java.util.concurrent.TimeUnit checkIntervalForStatsTimeUnit>;
return v;
}
static void <clinit>()
{
java.util.concurrent.TimeUnit v, v;
long v, v;
v = <java.util.concurrent.TimeUnit: java.util.concurrent.TimeUnit SECONDS>;
v = virtualinvoke v.<java.util.concurrent.TimeUnit: long toMillis(long)>(1L);
<io.vertx.core.net.TrafficShapingOptions: long DEFAULT_CHECK_INTERVAL> = v;
v = <java.util.concurrent.TimeUnit: java.util.concurrent.TimeUnit SECONDS>;
v = virtualinvoke v.<java.util.concurrent.TimeUnit: long toMillis(long)>(15L);
<io.vertx.core.net.TrafficShapingOptions: long DEFAULT_MAX_TIME> = v;
return;
}
}