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The text window server notifier framework is a system that loads
plug-in DLLs from \sys\bin\tnotifiers
.
It is used only in test ROMs and is never used in production code. For production code, use the Extended Notifier Framework. The architecture of both frameworks is identical; however, the interface classes have different names.
These DLLs are expected to export a single factory function at ordinal #1 that returns an array of notifiers. A special notifier target type is supported by makmake. The second Uid for notifiers should be 0x10005522.
The behaviour of notifiers is supplied by providing an implementation
of the MNotifierBase
interface. A notifier is associated
with a channel and a priority. Priority is used to determine the order of
activation if more than one notifier is activated at any time. Priority only
affects notifiers on the same channel (e.g. a screen or LED). This means that
two notifiers can be active at the same time provided that they are on
different channels.
The channel and priority used by all the notifiers in the system needs
to be considered carefully to avoid them interfering with each other in
unexpected ways. The MNotifierBase
derived class also
needs to be implemented correctly. Text window server notifiers run in the
window server thread and are accessed on the client side via
RNotifier
. Note that if a notifier panics it will lead to
a device reset.
The factory function at ordinal #1 is expected to return an array of notifiers. The following is a typical implementation:
EXPORT_C CArrayPtr<MNotifierBase>* NotifierArray()
{
CArrayPtrFlat<MNotifierBase>* notifiers=new CArrayPtrFlat<MNotifierBase>(5);
if (notifiers)
{
TRAPD(err, CreateNotifiersL(notifiers));
if(err)
{
TInt count = notifiers->Count();
while(count--)
{
(*notifiers)[count]->Release();
}
delete notifiers;
notifiers = NULL;
}
}
return(notifiers);
}
Note that ownership of the notifier array or its contents is not transferred to the framework until this function returns. To avoid memory leaks, all acquired resources must be freed if anything goes wrong part of the way through its processing.
Calling Release()
on a notifier should cause that notifier
to free all of its resources, and as a minimum should call delete
this;
. See MNotifierBase::Release()
.
Returning a Null
value from this function causes the
framework to leave with KErrNoMemory
.
The CreateNotifiersL()
function should be implemented as
follows:
LOCAL_C void CreateNotifiersL(CArrayPtrFlat<MNotifierBase>* aNotifiers)
{
MNotifierBase* notifier;
notifier = CMyNotifierA::NewL();
CleanupStack::PushL(notifier);
aNotifiers->AppendL(notifier);
CleanupStack::Pop(notifier);
...
...
// typically, repeat this procedure for as
// many notifiers as are implemented
// in the plug-in DLL.
}
Note the use of the standard Symbian OS technique of using the cleanup
stack to hold pointers to allocated objects for as long as these objects have
no owner; this prevents memory leaks. For this reason, avoid using a technique
such as aNotifiers->AppendL(CMyNotifierA::NewL());
, which,
although shorter, will result in a memory leak if the AppendL()
operation fails.