private void closeLeak() { // Close the ResourceLeakTracker with the tracked ByteBuf as argument. This must be the same that was used when // calling DefaultResourceLeak.track(...). boolean closed = leak.close(trackedByteBuf); assert closed; }
private void closeLeak(ByteBuf trackedByteBuf) { // Close the ResourceLeakTracker with the tracked ByteBuf as argument. This must be the same that was used when // calling DefaultResourceLeak.track(...). boolean closed = leak.close(trackedByteBuf); assert closed; }
private void closeLeak() { // Close the ResourceLeakTracker with the tracked ByteBuf as argument. This must be the same that was used when // calling DefaultResourceLeak.track(...). boolean closed = leak.close(trackedByteBuf); assert closed; }
@Override protected void deallocate() { destroy(); if (leak != null) { boolean closed = leak.close(ReferenceCountedOpenSslContext.this); assert closed; } } };
private void closeLeak(ByteBuf trackedByteBuf) { // Close the ResourceLeakTracker with the tracked ByteBuf as argument. This must be the same that was used when // calling DefaultResourceLeak.track(...). boolean closed = leak.close(trackedByteBuf); assert closed; }
private void closeLeak() { // Close the ResourceLeakTracker with the tracked ByteBuf as argument. This must be the same that was used when // calling DefaultResourceLeak.track(...). boolean closed = leak.close(trackedByteBuf); assert closed; }
@Override protected void deallocate() { destroy(); if (leak != null) { boolean closed = leak.close(ReferenceCountedOpenSslContext.this); assert closed; } } };
private void closeLeak(ByteBuf trackedByteBuf) { // Close the ResourceLeakTracker with the tracked ByteBuf as argument. This must be the same that was used when // calling DefaultResourceLeak.track(...). boolean closed = leak.close(trackedByteBuf); assert closed; }
@Override protected void deallocate() { shutdown(); if (leak != null) { boolean closed = leak.close(ReferenceCountedOpenSslEngine.this); assert closed; } } };
@Override protected void deallocate() { clear(); final ResourceLeakTracker<DnsMessage> leak = this.leak; if (leak != null) { boolean closed = leak.close(this); assert closed; } }
@Override protected void deallocate() { shutdown(); if (leak != null) { boolean closed = leak.close(ReferenceCountedOpenSslEngine.this); assert closed; } } };
@Override protected void deallocate() { clear(); final ResourceLeakTracker<DnsMessage> leak = this.leak; if (leak != null) { boolean closed = leak.close(this); assert closed; } }
@Override protected void deallocate() { SSL.freeX509Chain(chain); chain = 0; SSL.freePrivateKey(privateKey); privateKey = 0; if (leak != null) { boolean closed = leak.close(this); assert closed; } }
@Override protected void deallocate() { SSL.freeX509Chain(chain); chain = 0; SSL.freePrivateKey(privateKey); privateKey = 0; if (leak != null) { boolean closed = leak.close(this); assert closed; } }
private void closeLeak(ByteBuf trackedByteBuf) { // Close the ResourceLeakTracker with the tracked ByteBuf as argument. This must be the same that was used when // calling DefaultResourceLeak.track(...). boolean closed = leak.close(trackedByteBuf); assert closed; }
@Override protected void deallocate() { destroy(); if (leak != null) { boolean closed = leak.close(ReferenceCountedOpenSslContext.this); assert closed; } } };
@Override protected void deallocate() { shutdown(); if (leak != null) { boolean closed = leak.close(ReferenceCountedOpenSslEngine.this); assert closed; } } };