/*
* Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: Object Interface Implementation
*
*/
#include <stdio.h>
#include <stdlib.h>
#include "xaobjectitf.h"
/**
* Base interface XAObjectItf implementation
*/
XAresult XAObjectItfImpl_Realize(XAObjectItf self, XAboolean async)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
XAresult retval = XA_RESULT_SUCCESS;
DEBUG_API("->XAObjectItfImpl_Realize");
if (!pObjImp || pObjImp != pObjImp->self)
{
DEBUG_ERR("XA_RESULT_PARAMETER_INVALID");
DEBUG_API("<-XAObjectItfImpl_Realize");
/* invalid parameter */
return XA_RESULT_PARAMETER_INVALID;
}
if (async)
{
/* invoke asynchronously */
if (!pObjImp->callBack)
{
retval = XA_RESULT_PARAMETER_INVALID;
}
else
{
/* check if another async operation is processed */
if (pObjImp->asyncOngoing)
{
/* abort ongoing operation */
XAImpl_CancelThread(pObjImp->asyncThr);
}
pObjImp->asyncOngoing = XA_BOOLEAN_TRUE;
if (XAImpl_StartThread(pObjImp->asyncThr, NULL,
XAObjectItfImpl_AsyncRealize, (void*) (self)))
{
pObjImp->asyncOngoing = XA_BOOLEAN_FALSE;
retval = XA_RESULT_RESOURCE_ERROR;
}
else
{
retval = XA_RESULT_SUCCESS;
}
}
}
else
{
/* Check if the object is in unrealized state */
if (pObjImp->state != XA_OBJECT_STATE_UNREALIZED)
{
DEBUG_ERR("XA_RESULT_PRECONDITIONS_VIOLATED");
DEBUG_API("<-XAObjectItfImpl_Realize");
return XA_RESULT_PRECONDITIONS_VIOLATED;
}
/* invoke synchronously */
if (pObjImp->DoRealizeImpl)
{
retval = pObjImp->DoRealizeImpl(self);
}
}
DEBUG_API("<-XAObjectItfImpl_Realize");
return retval;
}
XAresult XAObjectItfImpl_Resume(XAObjectItf self, XAboolean async)
{
XAresult retval = XA_RESULT_SUCCESS;
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
DEBUG_API("->XAObjectItfImpl_Resume");
if (!pObjImp || pObjImp != pObjImp->self)
{
DEBUG_ERR("XA_RESULT_PARAMETER_INVALID");
DEBUG_API("<-XAObjectItfImpl_Resume");
/* invalid parameter */
return XA_RESULT_PARAMETER_INVALID;
}
if (async)
{
/* invoke asynchronously */
if (!pObjImp->callBack)
{
retval = XA_RESULT_PARAMETER_INVALID;
}
else
{
/* check if another async operation is processed */
if (pObjImp->asyncOngoing)
{
/* abort ongoing operation */
XAImpl_CancelThread(pObjImp->asyncThr);
}
pObjImp->asyncOngoing = XA_BOOLEAN_TRUE;
if (XAImpl_StartThread(pObjImp->asyncThr, NULL,
XAObjectItfImpl_AsyncResume, (void*) (self)))
{
pObjImp->asyncOngoing = XA_BOOLEAN_FALSE;
retval = XA_RESULT_RESOURCE_ERROR;
}
else
{
retval = XA_RESULT_SUCCESS;
}
}
}
else
{
/* invoke synchronously */
if (pObjImp->DoResumeImpl)
{
retval = pObjImp->DoResumeImpl(self);
}
}
DEBUG_API("<-XAObjectItfImpl_Resume");
return retval;
}
XAresult XAObjectItfImpl_GetState(XAObjectItf self, XAuint32 *pState)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
DEBUG_API("->XAObjectItfImpl_GetState");
if (!pObjImp || pObjImp != pObjImp->self || !pState)
{
DEBUG_ERR("XA_RESULT_PARAMETER_INVALID");
DEBUG_API("<-XAObjectItfImpl_GetState");
/* invalid parameter */
return XA_RESULT_PARAMETER_INVALID;
}
*pState = pObjImp->state;
DEBUG_API("<-XAObjectItfImpl_GetState");
return XA_RESULT_SUCCESS;
}
XAresult XAObjectItfImpl_GetInterface(XAObjectItf self,
const XAInterfaceID iid, void *pInterface)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
XAObjItfMapEntry *mapEntry = NULL;
DEBUG_API("->XAObjectItfImpl_GetInterface");
if (!pObjImp || pObjImp != pObjImp->self || !pInterface || !iid)
{
DEBUG_ERR("XA_RESULT_PARAMETER_INVALID");
DEBUG_API("<-XAObjectItfImpl_GetInterface");
/* invalid parameter */
return XA_RESULT_PARAMETER_INVALID;
}
if (pObjImp->state != XA_OBJECT_STATE_REALIZED)
{
DEBUG_ERR("XA_RESULT_PRECONDITIONS_VIOLATED");
DEBUG_API("<-XAObjectItfImpl_GetInterface");
/*state is not correct */
return XA_RESULT_PRECONDITIONS_VIOLATED;
}
mapEntry = XAObjectItfImpl_GetItfEntry(self, iid);
if (mapEntry && mapEntry->pItf)
{
*(void**) pInterface = &(mapEntry->pItf);
DEBUG_API("<-XAObjectItfImpl_GetInterface");
return XA_RESULT_SUCCESS;
}
else
{
DEBUG_ERR("XA_RESULT_FEATURE_UNSUPPORTED");
DEBUG_API("<-XAObjectItfImpl_GetInterface");
return XA_RESULT_FEATURE_UNSUPPORTED;
}
}
XAresult XAObjectItfImpl_RegisterCallback(XAObjectItf self,
xaObjectCallback callback, void *pContext)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
DEBUG_API("->XAObjectItfImpl_RegisterCallback");
if (!pObjImp || pObjImp != pObjImp->self)
{
DEBUG_ERR("XA_RESULT_PARAMETER_INVALID");
DEBUG_API("<-XAObjectItfImpl_RegisterCallback");
/* invalid parameter */
return XA_RESULT_PARAMETER_INVALID;
}
pObjImp->callBack = callback;
pObjImp->context = pContext;
pObjImp->cbPtrToSelf = self;
DEBUG_API("<-XAObjectItfImpl_RegisterCallback");
return XA_RESULT_SUCCESS;
}
void XAObjectItfImpl_AbortAsyncOperation(XAObjectItf self)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
DEBUG_API("->XAObjectItfImpl_AbortAsyncOperation");
if (pObjImp && (pObjImp == pObjImp->self) && pObjImp->callBack
&& pObjImp->asyncOngoing)
{
/* abort ongoing operation */
XAImpl_CancelThread(pObjImp->asyncThr);
}
DEBUG_API("<-XAObjectItfImpl_AbortAsyncOperation");
}
void XAObjectItfImpl_Destroy(XAObjectItf self)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
DEBUG_API("->XAObjectItfImpl_Destroy");
if (pObjImp && pObjImp == pObjImp->self)
{
if (pObjImp->asyncOngoing)
{
/* abort ongoing operation */
XAImpl_CancelThread(pObjImp->asyncThr);
}
/* free object specific resources */
if (pObjImp->FreeResourcesImpl)
{
pObjImp->FreeResourcesImpl(self);
}
free(pObjImp->interfaceMap);
XAImpl_DeleteThreadHandle(pObjImp->asyncThr);
free(pObjImp);
}
DEBUG_API("<-XAObjectItfImpl_Destroy");
}
XAresult XAObjectItfImpl_SetPriority(XAObjectItf self, XAint32 priority,
XAboolean preemptable)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
DEBUG_API("->XAObjectItfImpl_SetPriority");
if (!pObjImp || pObjImp != pObjImp->self)
{
DEBUG_ERR("XA_RESULT_PARAMETER_INVALID");
DEBUG_API("<-XAObjectItfImpl_SetPriority");
/* invalid parameter */
return XA_RESULT_PARAMETER_INVALID;
}
pObjImp->priority = priority;
pObjImp->preemptable = preemptable;
DEBUG_API("<-XAObjectItfImpl_SetPriority");
return XA_RESULT_SUCCESS;
}
XAresult XAObjectItfImpl_GetPriority(XAObjectItf self, XAint32 *pPriority,
XAboolean *pPreemptable)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
DEBUG_API("->XAObjectItfImpl_GetPriority");
if (!pObjImp || pObjImp != pObjImp->self)
{
DEBUG_ERR("XA_RESULT_PARAMETER_INVALID");
DEBUG_API("<-XAObjectItfImpl_GetPriority");
/* invalid parameter */
return XA_RESULT_PARAMETER_INVALID;
}
*pPriority = pObjImp->priority;
*pPreemptable = pObjImp->preemptable;
DEBUG_API("<-XAObjectItfImpl_GetPriority");
return XA_RESULT_SUCCESS;
}
XAresult XAObjectItfImpl_SetLossOfControlInterfaces(XAObjectItf self,
XAint16 numInterfaces, XAInterfaceID *pInterfaceIDs,
XAboolean enabled)
{
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
XAint32 itfIndex = 0;
XAObjItfMapEntry *mapEntry = NULL;
DEBUG_API("->XAObjectItfImpl_SetLossOfControlInterfaces");
if (!pObjImp || pObjImp != pObjImp->self || !pInterfaceIDs)
{
DEBUG_ERR("XA_RESULT_PARAMETER_INVALID");
DEBUG_API("<-XAObjectItfImpl_SetLossOfControlInterfaces");
/* invalid parameter */
return XA_RESULT_PARAMETER_INVALID;
}
if (pInterfaceIDs)
{
for (itfIndex = 0; itfIndex < numInterfaces; itfIndex++)
{
mapEntry = XAObjectItfImpl_GetItfEntry(self,
pInterfaceIDs[itfIndex]);
if (mapEntry)
{
mapEntry->locEnabled = enabled;
}
}
}
DEBUG_API("<-XAObjectItfImpl_SetLossOfControlInterfaces");
return XA_RESULT_SUCCESS;
}
/**
* XAObjectItfImpl -specific methods
**/
/*
* Allocate and init new object itf instance
*/
XAresult XAObjectItfImpl_Init(XAObjectItfImpl* self, XAuint32 itfCount,
const XAInterfaceID** itfIIDs, xaDoRealizeImpl doRealizeImpl,
xaDoResumeImpl doResumeImpl, xaFreeResourcesImpl freeResourcesImpl)
{
XAuint32 i = 0;
DEBUG_API("->XAObjectItfImpl_Init");
self->interfaceMap = (XAObjItfMapEntry*) calloc(itfCount,
sizeof(XAObjItfMapEntry));
if (!self->interfaceMap)
{
free(self);
DEBUG_ERR("XA_RESULT_MEMORY_FAILURE");
DEBUG_API("<-XAObjectItfImpl_Init");
return XA_RESULT_MEMORY_FAILURE;
}
if (XAImpl_CreateThreadHandle(&(self->asyncThr)) != XA_RESULT_SUCCESS)
{
free(self);
DEBUG_ERR("XA_RESULT_MEMORY_FAILURE");
DEBUG_API("<-XAObjectItfImpl_Init");
return XA_RESULT_MEMORY_FAILURE;
}
for (i = 0; i < itfCount; i++)
{
self->interfaceMap[i].mapIdx = i;
self->interfaceMap[i].iid = *(itfIIDs[i]);
self->interfaceMap[i].pItf = NULL;
self->interfaceMap[i].locEnabled = XA_BOOLEAN_FALSE;
self->interfaceMap[i].required = XA_BOOLEAN_FALSE;
self->interfaceMap[i].isDynamic = XA_BOOLEAN_FALSE;
}
self->interfaceMap[0].pItf = self;
self->interfaceMap[0].required = XA_BOOLEAN_TRUE;
self->interfaceCount = itfCount;
self->priority = XA_PRIORITY_NORMAL;
self->preemptable = XA_BOOLEAN_FALSE;
self->state = XA_OBJECT_STATE_UNREALIZED;
self->callBack = NULL;
self->context = NULL;
self->asyncOngoing = XA_BOOLEAN_FALSE;
self->cbPtrToSelf = NULL;
self->DoRealizeImpl = doRealizeImpl;
self->DoResumeImpl = doResumeImpl;
self->FreeResourcesImpl = freeResourcesImpl;
/* init itf default implementation */
self->itf.Realize = XAObjectItfImpl_Realize;
self->itf.Resume = XAObjectItfImpl_Resume;
self->itf.GetState = XAObjectItfImpl_GetState;
self->itf.GetInterface = XAObjectItfImpl_GetInterface;
self->itf.RegisterCallback = XAObjectItfImpl_RegisterCallback;
self->itf.AbortAsyncOperation = XAObjectItfImpl_AbortAsyncOperation;
self->itf.Destroy = XAObjectItfImpl_Destroy;
self->itf.SetPriority = XAObjectItfImpl_SetPriority;
self->itf.GetPriority = XAObjectItfImpl_GetPriority;
self->itf.SetLossOfControlInterfaces
= XAObjectItfImpl_SetLossOfControlInterfaces;
self->self = self;
DEBUG_API("<-XAObjectItfImpl_Init");
return XA_RESULT_SUCCESS;
}
/*
* Asynchronous invocation of Realize
*/
void* XAObjectItfImpl_AsyncRealize(void* args)
{
XAresult retval = XA_RESULT_SUCCESS;
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*(XAObjectItf) (args));
DEBUG_API("->XAObjectItfImpl_AsyncRealize");
if (pObjImp && pObjImp == pObjImp->self)
{
/* Check if the object is in unrealized state */
if (pObjImp->state != XA_OBJECT_STATE_UNREALIZED)
{
retval = XA_RESULT_PRECONDITIONS_VIOLATED;
}
else if (pObjImp->DoRealizeImpl)
{
retval = pObjImp->DoRealizeImpl((XAObjectItf) (args));
}
if (pObjImp->callBack)
{
pObjImp->callBack(pObjImp->cbPtrToSelf, pObjImp->context,
XA_OBJECT_EVENT_ASYNC_TERMINATION, retval,
pObjImp->state, NULL);
}
pObjImp->asyncOngoing = XA_BOOLEAN_FALSE;
XAImpl_ExitThread(pObjImp->asyncThr);
}
else
{
DEBUG_API("XAObjectItfImpl_AsyncRealize: INVALID args");
}
DEBUG_API("<-XAObjectItfImpl_AsyncRealize");
return NULL;
}
/*
* Asynchronous invocation of Resume
*/
void* XAObjectItfImpl_AsyncResume(void* args)
{
XAresult retval = XA_RESULT_SUCCESS;
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*(XAObjectItf) (args));
DEBUG_API("->XAObjectItfImpl_AsyncResume");
if (pObjImp && pObjImp == pObjImp->self)
{
if (pObjImp->DoResumeImpl)
{
retval = pObjImp->DoResumeImpl((XAObjectItf) (args));
}
if (pObjImp->callBack)
{
pObjImp->callBack(pObjImp->cbPtrToSelf, pObjImp->context,
XA_OBJECT_EVENT_ASYNC_TERMINATION, retval,
pObjImp->state, NULL);
}
pObjImp->asyncOngoing = XA_BOOLEAN_FALSE;
XAImpl_ExitThread(pObjImp->asyncThr);
}
else
{
DEBUG_API("XAObjectItfImpl_AsyncResume: INVALID args");
}
DEBUG_API("<-XAObjectItfImpl_AsyncResume");
return NULL;
}
XAObjItfMapEntry* XAObjectItfImpl_GetItfEntry(const XAObjectItf self,
const XAInterfaceID iid)
{
XAuint32 mapIndex = 0;
XAObjectItfImpl* pObjImp = (XAObjectItfImpl*) (*self);
DEBUG_API("->XAObjectItfImpl_GetItfEntry");
if (pObjImp && (pObjImp == pObjImp->self) && pObjImp->interfaceMap && iid)
{
/* Check interface */
for (mapIndex = 0; mapIndex < pObjImp->interfaceCount; mapIndex++)
{
if (XACommon_EqualIIds(pObjImp->interfaceMap[mapIndex].iid, iid))
{
DEBUG_API("<-XAObjectItfImpl_GetItfEntry");
return &(pObjImp->interfaceMap[mapIndex]);
}
}
}
DEBUG_API("<-XAObjectItfImpl_GetItfEntry");
return NULL;
}