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//
// Copyright (c) ZeroC, Inc. All rights reserved.
//
namespace Ice
{
namespace hold
{
public sealed class HoldI : Test.HoldDisp_
{
private static void test(bool b)
{
if(!b)
{
throw new System.Exception();
}
}
public HoldI(Timer timer, Ice.ObjectAdapter adapter)
{
_timer = timer;
_adapter = adapter;
}
public override void
putOnHold(int milliSeconds, Ice.Current current)
{
if(milliSeconds < 0)
{
_adapter.hold();
}
else if(milliSeconds == 0)
{
_adapter.hold();
_adapter.activate();
}
else
{
_timer.schedule(() =>
{
try
{
putOnHold(0, null);
}
catch(Ice.ObjectAdapterDeactivatedException)
{
}
}, milliSeconds);
}
}
public override void
waitForHold(Ice.Current current)
{
_timer.schedule(() =>
{
try
{
current.adapter.waitForHold();
current.adapter.activate();
}
catch(Ice.ObjectAdapterDeactivatedException)
{
//
// This shouldn't occur. The test ensures all the waitForHold timers are
// finished before shutting down the communicator.
//
test(false);
}
}, 0);
}
public override int
set(int value, int delay, Ice.Current current)
{
System.Threading.Thread.Sleep(delay);
lock(this)
{
int tmp = _last;
_last = value;
return tmp;
}
}
public override void
setOneway(int value, int expected, Ice.Current current)
{
lock(this)
{
test(_last == expected);
_last = value;
}
}
public override void
shutdown(Ice.Current current)
{
_adapter.hold();
_adapter.getCommunicator().shutdown();
}
private Ice.ObjectAdapter _adapter;
private int _last = 0;
private Timer _timer;
}
}
}
|
