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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/isteps/tod/TodDrawer.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2012,2017 */
/* [+] International Business Machines Corp. */
/* */
/* */
/* Licensed under the Apache License, Version 2.0 (the "License"); */
/* you may not use this file except in compliance with the License. */
/* You may obtain a copy of the License at */
/* */
/* http://www.apache.org/licenses/LICENSE-2.0 */
/* */
/* Unless required by applicable law or agreed to in writing, software */
/* distributed under the License is distributed on an "AS IS" BASIS, */
/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
/* implied. See the License for the specific language governing */
/* permissions and limitations under the License. */
/* */
/* IBM_PROLOG_END_TAG */
/**
* @file TodDrawer.C
*
* @brief The file implements methods of TodDrawer class
*/
//------------------------------------------------------------------------------
//Includes
//------------------------------------------------------------------------------
//Targeting support
#include <targeting/common/commontargeting.H>
#include <targeting/common/util.H>
#include <attributeenums.H>
#include "TodControls.H"
#include "TodProc.H"
#include "TodDrawer.H"
#include "TodUtils.H"
#include <hwas/common/deconfigGard.H>
//Standard library
#include <list>
#include "TodUtils.H"
#include <isteps/tod_init_reasoncodes.H>
namespace TOD
{
//******************************************************************************
// TodDrawer::TodDrawer
//******************************************************************************
TodDrawer::TodDrawer(const uint8_t i_drawerId,
const TARGETING::Target* i_parentNode):
iv_todDrawerId(i_drawerId),
iv_isTodMaster(false),
iv_parentNodeTarget(i_parentNode)
{
do
{
if (!iv_parentNodeTarget)
{
TOD_ERR_ASSERT(0, "Error creating TOD drawer with id 0x%.2X,"
"parent node pointer passed as NULL",
i_drawerId);
break;
}
TOD_ENTER("Created TOD drawer with id 0x%.2X, parent node 0x%.8X",
i_drawerId,
i_parentNode->getAttr<TARGETING::ATTR_HUID>());
} while (0);
TOD_EXIT();
}
//******************************************************************************
// TodDrawer::~TodDrawer
//******************************************************************************
TodDrawer::~TodDrawer()
{
TOD_ENTER();
for(TodProcContainer::iterator l_itr = iv_todProcList.begin();
l_itr != iv_todProcList.end();
++l_itr)
{
delete (*l_itr);
}
iv_todProcList.clear();
TOD_EXIT();
}
//******************************************************************************
// TodDrawer::getProcWithMaxCores
//******************************************************************************
void TodDrawer::getProcWithMaxCores(
const TodProc* i_procToIgnore,
TodProc*& o_pTodProc,
uint32_t& o_coreCount,
TodProcContainer* i_pProcList) const
{
TOD_ENTER("getProcWithMaxCores");
o_pTodProc = NULL;
o_coreCount = 0;
do{
//List of functional cores
TARGETING::TargetHandleList l_funcCoreTargetList;
TARGETING::PredicateCTM
l_coreCTM(TARGETING::CLASS_UNIT,TARGETING::TYPE_CORE);
TARGETING::PredicateHwas l_funcPred;
l_funcPred.functional(true);
TARGETING::PredicatePostfixExpr l_funcCorePostfixExpr;
l_funcCorePostfixExpr.push(&l_coreCTM).push(&l_funcPred).And();
TodProc* l_pSelectedTarget = NULL;
uint32_t l_maxCores = 0;
const TodProcContainer &l_procList =
i_pProcList ? *i_pProcList : iv_todProcList;
for(TodProcContainer::const_iterator l_procIter =
l_procList.begin();
l_procIter != l_procList.end();
++l_procIter)
{
if((NULL != i_procToIgnore) &&
(i_procToIgnore->getTarget()->getAttr<TARGETING::ATTR_HUID>() ==
(*l_procIter)->getTarget()->getAttr<TARGETING::ATTR_HUID>()))
{
continue;
}
l_funcCoreTargetList.clear();
//Find the funcational core targets on this proc
TARGETING::targetService().getAssociated(l_funcCoreTargetList,
(*l_procIter)->getTarget(),
TARGETING::TargetService::CHILD,
TARGETING::TargetService::ALL,
&l_funcCorePostfixExpr);
if ( l_funcCoreTargetList.size() > l_maxCores )
{
l_pSelectedTarget = *l_procIter;
l_maxCores = l_funcCoreTargetList.size();
}
}
if ( l_maxCores > 0 )
{
o_pTodProc = l_pSelectedTarget;
o_coreCount = l_maxCores;
TOD_INF("getProcWithMaxCores,On drawer 0x%2X, processor 0x%08X "
"has maximum cores count = %d ",
iv_todDrawerId,
l_pSelectedTarget->getTarget()->getAttr<TARGETING::ATTR_HUID>(),
l_maxCores);
}
}while(0);
TOD_EXIT();
}
//******************************************************************************
// TodDrawer::findMasterProc
//******************************************************************************
errlHndl_t TodDrawer::findMasterProc(TodProc*& o_drawerMaster) const
{
TOD_ENTER();
errlHndl_t l_errHdl = NULL;
TodProc* l_pMasterProc = NULL;
do{
TodProcContainer::const_iterator l_procIter = iv_todProcList.begin();
for (; l_procIter != iv_todProcList.end(); ++l_procIter)
{
if(((*l_procIter)->getMasterType() == TodProc::TOD_MASTER)
||
((*l_procIter)->getMasterType() == TodProc::DRAWER_MASTER))
{
l_pMasterProc = (*l_procIter);
break;
}
}
if(iv_todProcList.end() == l_procIter)
{
TOD_ERR("No master proc for drawer 0x%.2X",iv_todDrawerId);
/*@
* @errortype
* @moduleid TOD_FIND_MASTER_PROC
* @reasoncode TOD_NO_MASTER_PROC
* @userdata1 TOD drawer id
* @devdesc No master proc set for this drawer
* @custdesc Service Processor Firmware couldn't detect any
* functional master processor required to boot the
* host
*/
const bool hbSwError = true;
l_errHdl = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_UNRECOVERABLE,
TOD_FIND_MASTER_PROC,
TOD_NO_MASTER_PROC,
iv_todDrawerId,
hbSwError);
}
}while(0);
o_drawerMaster = l_pMasterProc;
TOD_EXIT();
return l_errHdl;
}
//******************************************************************************
// TodDrawer::addProc
//******************************************************************************
void TodDrawer::addProc(TodProc* i_proc)
{
if(i_proc)
{
iv_todProcList.push_back(i_proc);
}
else
{
TOD_ERR_ASSERT("Code bug! Null Proc Target passed!");
}
}
//******************************************************************************
// TodDrawer::getPotentialMdmts
//******************************************************************************
void TodDrawer::getPotentialMdmts(
TodProcContainer& o_procList) const
{
TOD_ENTER("TodDrawer::getPotentialMdmts");
bool l_isGARDed = false;
errlHndl_t l_errHdl = NULL;
const TARGETING::Target* l_procTarget = NULL;
for(const auto & l_procItr : iv_todProcList)
{
l_procTarget = l_procItr->getTarget();
//Check if the target is not black listed
if ( !(TOD::isProcBlackListed(l_procTarget)) )
{
//Check if the target is not garded
l_errHdl = TOD::checkGardStatusOfTarget(l_procTarget,
l_isGARDed);
if(l_errHdl)
{
TOD_ERR("Failed in checkGardStatusOfTarget() to get the "
" GARD state for the target 0x%.8x",
GETHUID(l_procTarget));
errlCommit(l_errHdl, TOD_COMP_ID);
//Ignore this target as the gard status for this target
//could not be obtained.
continue;
}
TARGETING::ATTR_HWAS_STATE_type l_state =
l_procTarget->getAttr<TARGETING::ATTR_HWAS_STATE>();
if ( (!l_isGARDed) ||
(l_state.deconfiguredByEid ==
HWAS::DeconfigGard::CONFIGURED_BY_RESOURCE_RECOVERY) )
{
o_procList.push_back(l_procItr);
}
else
{
TOD_INF("PROC target 0x%.8x cannot be choosen as MDMT as"
"its garded",GETHUID(l_procTarget));
}
}
else
{
TOD_INF("PROC target 0x%.8x cannot be choosen as MDMT as it"
"is backlisted",GETHUID(l_procTarget));
}
l_isGARDed = false;
}//End of for loop
TOD_EXIT();
}
}//end of namespace
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