bool findTarget( TARGETING::TargetHandle_t i_chipTgt, AttnList::iterator & it ) { bool matchFound = false; it = std::lower_bound( g_AttnDataList.begin(), g_AttnDataList.end(), i_chipTgt ); if( it != g_AttnDataList.end() && i_chipTgt == (*it).targetHndl ) { matchFound = true; } return matchFound; }
void SYSTEM_DEBUG_CLASS::addChipToAttnList( TARGETING::TargetHandle_t i_chipTgt, ATTENTION_VALUE_TYPE i_attnType ) { AttnData l_attnData( i_chipTgt, i_attnType ); g_AttnDataList.insert( std::lower_bound( g_AttnDataList.begin(), g_AttnDataList.end(), l_attnData ), l_attnData ); }
void SYSTEM_DEBUG_CLASS::initAttnPendingtatus( ) { for( AttnList::iterator i = g_AttnDataList.begin(); i != g_AttnDataList.end(); ++i ) { (*i).isAnalysisNotDone = true; } }
bool findAttention( TARGETING::TargetHandle_t i_chipTgt, ATTENTION_VALUE_TYPE i_eAttnType, AttnList::iterator & it ) { bool matchFound = false; AttnData l_attnData( i_chipTgt, i_eAttnType ); it = std::lower_bound( g_AttnDataList.begin(), g_AttnDataList.end(), l_attnData ); if( it != g_AttnDataList.end() && *it == l_attnData ) { matchFound = true; } return matchFound; }
bool SYSTEM_DEBUG_CLASS::IsAttentionActive( TARGETING::TargetHandle_t i_pChipHandle ) const { bool rc = false; for(AttnList::const_iterator i = g_AttnDataList.begin(); i != g_AttnDataList.end(); ++i) { if((*i).targetHndl == i_pChipHandle) { rc = true; break; } } return rc; }
void SYSTEM_DEBUG_CLASS::SetAttentionType(TARGETING::TargetHandle_t i_pTargetHandle, ATTENTION_VALUE_TYPE i_eAttnType) { if(i_eAttnType > INVALID_ATTENTION_TYPE) { if( !isActiveAttentionPending( i_pTargetHandle, i_eAttnType ) ) { AttnData attnData( i_pTargetHandle, i_eAttnType ); g_AttnDataList.insert( std::lower_bound( g_AttnDataList.begin(), g_AttnDataList.end(), attnData ), attnData ); } } }
uint8_t SYSTEM_DEBUG_CLASS::GetAttentionType(TARGETING::TargetHandle_t i_pChipHandle) const { uint8_t type = INVALID_ATTENTION_TYPE; for(AttnList::const_iterator i = g_AttnDataList.begin(); i != g_AttnDataList.end(); ++i) { if((*i).targetHndl == i_pChipHandle) { type = (uint8_t) (*i).attnType; break; } } return (uint8_t) type; }
TargetHandle_t SYSTEM_DEBUG_CLASS::getTargetWithAttn ( TYPE i_tgtType, ATTENTION_VALUE_TYPE i_attnType) const { TargetHandle_t o_tgt = NULL; for(AttnList::const_iterator i = g_AttnDataList.begin(); i != g_AttnDataList.end(); ++i) { if(( getTargetType( (*i).targetHndl ) == i_tgtType) && ( (*i).attnType == i_attnType ) ) { o_tgt = (*i).targetHndl; break; } } return o_tgt; }
void SYSTEM_DEBUG_CLASS::CalloutThoseAtAttention(STEP_CODE_DATA_STRUCT & serviceData) const { ServiceDataCollector * sdc = serviceData.service_data; CaptureData & capture = sdc->GetCaptureData(); for(AttnList::const_iterator i = g_AttnDataList.begin(); i != g_AttnDataList.end(); ++i) { sdc->SetCallout((*i).targetHndl); AttnData ad(*i); BitString cbs(sizeof(AttnData)*8,(CPU_WORD *)&ad); capture.Add(PlatServices::getSystemTarget(),0,cbs); } sdc->SetCallout(NextLevelSupport_ENUM); }
errlHndl_t MemInjectSink::putAttentions( const AttnList & i_list) { errlHndl_t err = 0; AttnList::const_iterator it = i_list.begin(); while(it != i_list.end()) { err = putAttention(*it); if(err) { break; } ++it; } return err; }
uint32_t SYSTEM_DEBUG_CLASS::Reinitialize(const AttnList & i_attnList) { using PluginDef::bindParm; uint32_t l_rc = 0; do { if ( i_attnList.empty() ) { PRDF_ERR( "SYSTEM_DEBUG_CLASS::Reinitialize() input AttnList is " "empty" ); /*@ * @errortype * @subsys EPUB_FIRMWARE_SP * @reasoncode PRDF_CODE_FAIL * @moduleid PRDF_SDBUG_INIT * @userdata1 0 * @userdata2 0 * @userdata3 0 * @userdata4 0 * @devdesc input AttnList is empty. * @custDesc Chip diagnosis did not find any chip with an * attention. * @procedure EPUB_PRC_SP_CODE */ PRDF_CREATE_ERRL( g_prd_errlHndl, ERRL_SEV_UNRECOVERABLE, // error on diagnostic ERRL_ETYPE_NOT_APPLICABLE, SRCI_MACH_CHECK, SRCI_NO_ATTR, PRDF_SDBUG_INIT, // module id FSP_DEFAULT_REFCODE, PRDF_CODE_FAIL, // Reason code 0, // user data word 1 0, // user data word 2 0, // user data word 3 0 ); // user data word 4 PRDF_ADD_PROCEDURE_CALLOUT( g_prd_errlHndl, SRCI_PRIORITY_MED, EPUB_PRC_SP_CODE ); l_rc = PRD_ATTN_DATA_ACCESS_FAILED; break; } Clear(); for( AttnList::const_iterator i = i_attnList.begin(); i != i_attnList.end(); ++i ) { addChipToAttnList( (*i).targetHndl,(*i).attnType ); // There can be a case where chip has both recoverable and Check // Stop. In that case chip shall report only Check Stop. In such a // case, we analyse the recoverable first and see if we can blame // check stop on recoverable. To ease its handling, let us add a // chip reporting recoverable attention to attention list. if( ((*i).attnType == CHECK_STOP ) || ((*i).attnType == UNIT_CS ) ) { bool l_recovFound = false; ExtensibleChip * l_chip = ( ExtensibleChip *) systemPtr->GetChip( (*i).targetHndl ); ExtensibleChipFunction * ef = l_chip->getExtensibleFunction("CheckForRecovered"); (*ef)( l_chip, bindParm<bool &>( l_recovFound ) ); if ( l_recovFound ) { addChipToAttnList( (*i).targetHndl,RECOVERABLE ); } } } g_init_done = true; } while(0); return l_rc; }