bool isNVDIMM( const TARGETING::Target * i_target )
{
// Not the most elegant way of doing it but the hybrid attributes
// are at the MCS level. Need to find my way up to MCS and check
// if the dimm is hybrid
TARGETING::TargetHandleList l_mcaList;
getParentAffinityTargets(l_mcaList, i_target, TARGETING::CLASS_UNIT, TARGETING::TYPE_MCA);
if (l_mcaList.size())
{
TARGETING::TargetHandleList l_mcsList;
getParentAffinityTargets(l_mcsList, l_mcaList[0], TARGETING::CLASS_UNIT, TARGETING::TYPE_MCS);
if(l_mcsList.size())
{
// 2-D array. [MCA][DIMM]
TARGETING::ATTR_EFF_HYBRID_type l_hybrid;
TARGETING::ATTR_EFF_HYBRID_MEMORY_TYPE_type l_hybrid_type;
if( l_mcsList[0]->tryGetAttr<TARGETING::ATTR_EFF_HYBRID>(l_hybrid) &&
l_mcsList[0]->tryGetAttr<TARGETING::ATTR_EFF_HYBRID_MEMORY_TYPE>(l_hybrid_type) )
{
//Using relative position to lookup the hybrid attribute for the current dimm
TARGETING::ATTR_REL_POS_type l_dimm_rel_pos = i_target->getAttr<ATTR_REL_POS>();
TARGETING::ATTR_REL_POS_type l_mca_rel_pos = l_mcaList[0]->getAttr<ATTR_REL_POS>();
// Verify code is not accessing outside of the array boundaries
// Check if l_dimm_rel_pos is outside of l_hybrid column boundary
assert(l_dimm_rel_pos < sizeof(l_hybrid[0]));
// Check if l_mca_rel_pos is outside of l_hybrid row boundary
assert(l_mca_rel_pos < (sizeof(l_hybrid)/sizeof(l_hybrid[0])));
return (l_hybrid[l_mca_rel_pos][l_dimm_rel_pos] == TARGETING::EFF_HYBRID_IS_HYBRID &&
l_hybrid_type[l_mca_rel_pos][l_dimm_rel_pos] == TARGETING::EFF_HYBRID_MEMORY_TYPE_NVDIMM);
}
}
}
return false;
}
errlHndl_t configureHbrtHypIds(const bool i_configForPhyp)
{
TRACDCOMP( g_trac_runtime, ENTER_MRK "configureHbrtHypIds" );
errlHndl_t pError = NULL;
TARGETING::PredicateCTM isaProc(
TARGETING::CLASS_CHIP, TARGETING::TYPE_PROC);
TARGETING::PredicateCTM isaMembuf(
TARGETING::CLASS_CHIP, TARGETING::TYPE_MEMBUF);
TARGETING::PredicateCTM isaCore(
TARGETING::CLASS_UNIT, TARGETING::TYPE_CORE);
TARGETING::PredicatePostfixExpr isaProcMembufOrCore;
isaProcMembufOrCore.push(&isaProc).push(&isaMembuf).Or()
.push(&isaCore).Or();
TARGETING::TargetRangeFilter pIt(
TARGETING::targetService().begin(),
TARGETING::targetService().end(),
&isaProcMembufOrCore);
for (; pIt; ++pIt)
{
auto hbrtHypId = HBRT_HYP_ID_UNKNOWN;
// Phyp is the only special case
if(i_configForPhyp)
{
auto rtType = RT_TYPE_UNKNOWN;
pError = getRtTypeForTarget(*pIt,rtType);
if(pError)
{
break;
}
if( (*pIt)->getAttr<TARGETING::ATTR_TYPE>()
== TARGETING::TYPE_CORE)
{
if(TARGETING::is_fused_mode())
{
// If we're in fused core mode, all core ID's must
// match that of the parent EX
auto type = TARGETING::TYPE_EX;
const TARGETING::Target* pEx =
TARGETING::getParent(*pIt,type);
// If this fails, everything is already hosed
assert(pEx != NULL);
hbrtHypId = (pEx)->getAttr<TARGETING::ATTR_ORDINAL_ID>();
}else
{
hbrtHypId = (*pIt)->getAttr<TARGETING::ATTR_ORDINAL_ID>();
}
}
else if( (*pIt)->getAttr<TARGETING::ATTR_TYPE>()
== TARGETING::TYPE_MEMBUF )
{
//MEMBUF
// 0b1000.0000.0000.0000.0000.0PPP.PPPP.MMMM
// where PP is the parent proc's id, MMMM is memory channel
//
TARGETING::TargetHandleList targetList;
getParentAffinityTargets(targetList,
(*pIt),
TARGETING::CLASS_UNIT,
TARGETING::TYPE_MCS);
assert( !targetList.empty() );
auto mcs_target = targetList[0];
auto pos = mcs_target->getAttr<TARGETING::ATTR_CHIP_UNIT>();
targetList.clear();
getParentAffinityTargets(targetList,
mcs_target,
TARGETING::CLASS_CHIP,
TARGETING::TYPE_PROC);
assert( !targetList.empty() );
auto procTarget = targetList[0];
hbrtHypId = procTarget->getAttr<TARGETING::ATTR_ORDINAL_ID>();
hbrtHypId = (hbrtHypId << RT_TARG::MEMBUF_ID_SHIFT);
hbrtHypId += pos;
}
else // just PROC
{
hbrtHypId = (*pIt)->getAttr<TARGETING::ATTR_ORDINAL_ID>();
}
hbrtHypId |= rtType;
}
else
{
pError = computeNonPhypRtTarget(*pIt,hbrtHypId);
if(pError)
{
break;
}
}
(*pIt)->setAttr<TARGETING::ATTR_HBRT_HYP_ID>(hbrtHypId);
TRACDCOMP( g_trac_runtime, "configureHbrtHypIds> "
"Set ATTR_HBRT_HYP_ID attribute to 0x%016llX on targeting target "
"with HUID of 0x%08X",
hbrtHypId,TARGETING::get_huid(*pIt));
}
TRACDCOMP( g_trac_runtime, EXIT_MRK "configureHbrtHypIds" );
return pError;
}
/**
* @brief Returns the runtime target ID for a given targeting target for all
* hypervisors other than PHyp
* @param[in] i_pTarget Targeting target, must not be NULL (asserts
* otherwise)
* @param[out] o_rtTargetId Runtime target ID which maps to the given targeting
* target
* @return Error log handle
* @retval NULL Computed a valid runtime target ID for the given input
* targeting target and returned it in the output parameter.
* @retval !NULL Failed to compute a runtime target ID for the given input
* targeting target. Ignore output parameter.
*/
errlHndl_t computeNonPhypRtTarget(
const TARGETING::Target* i_pTarget,
RT_TARG::rtChipId_t& o_rtTargetId)
{
assert(i_pTarget != NULL);
errlHndl_t pError = NULL;
do
{
if(i_pTarget == TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL)
{
TARGETING::Target* masterProcChip = NULL;
TARGETING::targetService().
masterProcChipTargetHandle(masterProcChip);
i_pTarget = masterProcChip;
}
auto targetingTargetType = i_pTarget->getAttr<TARGETING::ATTR_TYPE>();
if(targetingTargetType == TARGETING::TYPE_PROC)
{
uint32_t fabId =
i_pTarget->getAttr<TARGETING::ATTR_FABRIC_GROUP_ID>();
uint32_t procPos =
i_pTarget->getAttr<TARGETING::ATTR_FABRIC_CHIP_ID>();
o_rtTargetId = PIR_t::createChipId( fabId, procPos );
}
else if( targetingTargetType == TARGETING::TYPE_MEMBUF)
{
//MEMBUF
// 0b1000.0000.0000.0000.0000.0GGG.GCCC.MMMM
// where GGGG is group, CCC is chip, MMMM is memory channel
//
TARGETING::TargetHandleList targetList;
getParentAffinityTargets(targetList,
i_pTarget,
TARGETING::CLASS_UNIT,
TARGETING::TYPE_DMI);
if( targetList.empty() )
{
auto huid = get_huid(i_pTarget);
TRACFCOMP(g_trac_runtime, ERR_MRK
"No associated DMI targeting target(s) found for MEMBUF "
"targeting target with HUID of 0x%08X",
huid);
/*@
* @error
* @moduleid RUNTIME::MOD_CUST_COMP_NON_PHYP_RT_TARGET
* @reasoncode RUNTIME::RT_UNIT_TARGET_NOT_FOUND
* @userdata1 MEMBUF targeting target's HUID
* @devdesc No associated DMI targeting target(s) found for
* given MEMBUF targeting target
*/
pError = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_INFORMATIONAL,
RUNTIME::MOD_CUST_COMP_NON_PHYP_RT_TARGET,
RUNTIME::RT_UNIT_TARGET_NOT_FOUND,
huid,
0,
true);
ERRORLOG::ErrlUserDetailsTarget(i_pTarget,"Targeting Target").
addToLog(pError);
break;
}
auto target = targetList[0];
auto pos = target->getAttr<TARGETING::ATTR_CHIP_UNIT>();
targetList.clear();
getParentAffinityTargets(targetList,
target,
TARGETING::CLASS_CHIP,
TARGETING::TYPE_PROC);
if(targetList.empty())
{
pError = createProcNotFoundError(target);
break;
}
auto procTarget = targetList[0];
pError = computeNonPhypRtTarget(procTarget, o_rtTargetId);
if(pError)
{
break;
}
o_rtTargetId = (o_rtTargetId << RT_TARG::MEMBUF_ID_SHIFT);
o_rtTargetId += pos;
o_rtTargetId |= HBRT_MEMBUF_TYPE;
}
else if(targetingTargetType == TARGETING::TYPE_CORE)
{
// CORE
// 0b0100.0000.0000.0000.0000.GGGG.CCCP.PPPP
// GGGG is group, CCC is chip, PPPPP is core
auto pos = i_pTarget->getAttr<TARGETING::ATTR_CHIP_UNIT>();
const TARGETING::Target* procTarget = getParentChip(i_pTarget);
if(procTarget == NULL)
{
pError = createProcNotFoundError(i_pTarget);
break;
}
pError = computeNonPhypRtTarget(procTarget, o_rtTargetId);
if(pError)
{
break;
}
o_rtTargetId = PIR_t::createCoreId(o_rtTargetId,pos);
o_rtTargetId |= HBRT_CORE_TYPE;
}
else
{
auto huid = get_huid(i_pTarget);
TRACFCOMP(g_trac_runtime,ERR_MRK
"Targeting target type 0x%08X not supported. Cannot "
"convert targeting target with HUID of 0x%08X into a "
"runtime target ID",
targetingTargetType,
huid);
/*@
* @errortype
* @moduleid RUNTIME::MOD_CUST_COMP_NON_PHYP_RT_TARGET
* @reasoncode RUNTIME::RT_TARGET_TYPE_NOT_SUPPORTED
* @userdata1 Targeting target's HUID
* @userdata2 Targeting target's type
* @devdesc The targeting type of the input targeting target is
* not supported by runtime code
*/
pError = new ERRORLOG::ErrlEntry(
ERRORLOG::ERRL_SEV_INFORMATIONAL,
RUNTIME::MOD_CUST_COMP_NON_PHYP_RT_TARGET,
RUNTIME::RT_TARGET_TYPE_NOT_SUPPORTED,
huid,
targetingTargetType,
true);
ERRORLOG::ErrlUserDetailsTarget(i_pTarget,"Targeting Target").
addToLog(pError);
}
} while(0);
return pError;
}
