abstract class io.netty.resolver.dns.Cache extends java.lang.Object
{
private static final java.util.concurrent.atomic.AtomicReferenceFieldUpdater FUTURE_UPDATER;
private static final java.util.concurrent.ScheduledFuture CANCELLED;
static final int MAX_SUPPORTED_TTL_SECS;
private final java.util.concurrent.ConcurrentMap resolveCache;
void <init>()
{
io.netty.resolver.dns.Cache v;
java.util.concurrent.ConcurrentMap v;
v := @this: io.netty.resolver.dns.Cache;
specialinvoke v.<java.lang.Object: void <init>()>();
v = staticinvoke <io.netty.util.internal.PlatformDependent: java.util.concurrent.ConcurrentMap newConcurrentHashMap()>();
v.<io.netty.resolver.dns.Cache: java.util.concurrent.ConcurrentMap resolveCache> = v;
return;
}
final void clear()
{
io.netty.resolver.dns.Cache v;
java.util.Iterator v;
java.util.Set v;
java.util.concurrent.ConcurrentMap v, v;
java.lang.Object v, v;
boolean v, v;
v := @this: io.netty.resolver.dns.Cache;
label:
v = v.<io.netty.resolver.dns.Cache: java.util.concurrent.ConcurrentMap resolveCache>;
v = interfaceinvoke v.<java.util.concurrent.ConcurrentMap: boolean isEmpty()>();
if v != 0 goto label;
v = v.<io.netty.resolver.dns.Cache: java.util.concurrent.ConcurrentMap resolveCache>;
v = interfaceinvoke v.<java.util.concurrent.ConcurrentMap: java.util.Set entrySet()>();
v = interfaceinvoke v.<java.util.Set: java.util.Iterator iterator()>();
label:
v = interfaceinvoke v.<java.util.Iterator: boolean hasNext()>();
if v == 0 goto label;
v = interfaceinvoke v.<java.util.Iterator: java.lang.Object next()>();
interfaceinvoke v.<java.util.Iterator: void remove()>();
v = interfaceinvoke v.<java.util.Map$Entry: java.lang.Object getValue()>();
virtualinvoke v.<io.netty.resolver.dns.Cache$Entries: boolean clearAndCancel()>();
goto label;
label:
return;
}
final boolean clear(java.lang.String)
{
io.netty.resolver.dns.Cache v;
java.lang.Object v;
java.lang.String v;
boolean v, v;
java.util.concurrent.ConcurrentMap v;
v := @this: io.netty.resolver.dns.Cache;
v := @parameter: java.lang.String;
v = v.<io.netty.resolver.dns.Cache: java.util.concurrent.ConcurrentMap resolveCache>;
v = interfaceinvoke v.<java.util.concurrent.ConcurrentMap: java.lang.Object remove(java.lang.Object)>(v);
if v == null goto label;
v = virtualinvoke v.<io.netty.resolver.dns.Cache$Entries: boolean clearAndCancel()>();
if v == 0 goto label;
v = 1;
goto label;
label:
v = 0;
label:
return v;
}
final java.util.List get(java.lang.String)
{
io.netty.resolver.dns.Cache v;
java.lang.Object v, v;
java.lang.String v;
java.util.concurrent.ConcurrentMap v;
v := @this: io.netty.resolver.dns.Cache;
v := @parameter: java.lang.String;
v = v.<io.netty.resolver.dns.Cache: java.util.concurrent.ConcurrentMap resolveCache>;
v = interfaceinvoke v.<java.util.concurrent.ConcurrentMap: java.lang.Object get(java.lang.Object)>(v);
if v == null goto label;
v = virtualinvoke v.<io.netty.resolver.dns.Cache$Entries: java.lang.Object get()>();
label:
return v;
}
final void cache(java.lang.String, java.lang.Object, int, io.netty.channel.EventLoop)
{
io.netty.resolver.dns.Cache v;
io.netty.resolver.dns.Cache$Entries v;
io.netty.channel.EventLoop v;
java.util.concurrent.ConcurrentMap v, v;
int v;
java.lang.Object v, v, v;
java.lang.String v;
v := @this: io.netty.resolver.dns.Cache;
v := @parameter: java.lang.String;
v := @parameter: java.lang.Object;
v := @parameter: int;
v := @parameter: io.netty.channel.EventLoop;
v = v.<io.netty.resolver.dns.Cache: java.util.concurrent.ConcurrentMap resolveCache>;
v = interfaceinvoke v.<java.util.concurrent.ConcurrentMap: java.lang.Object get(java.lang.Object)>(v);
if v != null goto label;
v = new io.netty.resolver.dns.Cache$Entries;
specialinvoke v.<io.netty.resolver.dns.Cache$Entries: void <init>(io.netty.resolver.dns.Cache,java.lang.String)>(v, v);
v = v;
v = v.<io.netty.resolver.dns.Cache: java.util.concurrent.ConcurrentMap resolveCache>;
v = interfaceinvoke v.<java.util.concurrent.ConcurrentMap: java.lang.Object putIfAbsent(java.lang.Object,java.lang.Object)>(v, v);
if v == null goto label;
v = v;
label:
virtualinvoke v.<io.netty.resolver.dns.Cache$Entries: void add(java.lang.Object,int,io.netty.channel.EventLoop)>(v, v, v);
return;
}
final int size()
{
int v;
io.netty.resolver.dns.Cache v;
java.util.concurrent.ConcurrentMap v;
v := @this: io.netty.resolver.dns.Cache;
v = v.<io.netty.resolver.dns.Cache: java.util.concurrent.ConcurrentMap resolveCache>;
v = interfaceinvoke v.<java.util.concurrent.ConcurrentMap: int size()>();
return v;
}
protected abstract boolean shouldReplaceAll(java.lang.Object);
protected void sortEntries(java.lang.String, java.util.List)
{
java.util.List v;
io.netty.resolver.dns.Cache v;
java.lang.String v;
v := @this: io.netty.resolver.dns.Cache;
v := @parameter: java.lang.String;
v := @parameter: java.util.List;
return;
}
protected abstract boolean equals(java.lang.Object, java.lang.Object);
static void <clinit>()
{
io.netty.resolver.dns.Cache$1 v;
java.util.concurrent.TimeUnit v;
java.util.concurrent.atomic.AtomicReferenceFieldUpdater v;
long v;
v = staticinvoke <java.util.concurrent.atomic.AtomicReferenceFieldUpdater: java.util.concurrent.atomic.AtomicReferenceFieldUpdater newUpdater(java.lang.Class,java.lang.Class,java.lang.String)>(class "Lio/netty/resolver/dns/Cache$Entries;", class "Ljava/util/concurrent/ScheduledFuture;", "expirationFuture");
<io.netty.resolver.dns.Cache: java.util.concurrent.atomic.AtomicReferenceFieldUpdater FUTURE_UPDATER> = v;
v = new io.netty.resolver.dns.Cache$1;
specialinvoke v.<io.netty.resolver.dns.Cache$1: void <init>()>();
<io.netty.resolver.dns.Cache: java.util.concurrent.ScheduledFuture CANCELLED> = v;
v = <java.util.concurrent.TimeUnit: java.util.concurrent.TimeUnit DAYS>;
v = virtualinvoke v.<java.util.concurrent.TimeUnit: long toSeconds(long)>(730L);
<io.netty.resolver.dns.Cache: int MAX_SUPPORTED_TTL_SECS> = v;
return;
}
}