//****************************************************************************** // fapiLogError //****************************************************************************** void fapiLogError(fapi::ReturnCode & io_rc, fapi::fapiErrlSeverity_t i_sev, bool i_unitTestError) { // ENUM CONVERSION FAPI to PLATFORM errlHndl_t l_pError = NULL; FAPI_INF("fapiLogError: logging error"); // Convert a FAPI severity to a ERRORLOG severity ERRORLOG::errlSeverity_t l_sev = ERRORLOG::ERRL_SEV_UNRECOVERABLE; switch (i_sev) { case fapi::FAPI_ERRL_SEV_RECOVERED: l_sev = ERRORLOG::ERRL_SEV_RECOVERED; break; case fapi::FAPI_ERRL_SEV_PREDICTIVE: l_sev = ERRORLOG::ERRL_SEV_PREDICTIVE; break; case fapi::FAPI_ERRL_SEV_UNRECOVERABLE: // l_sev set above break; default: FAPI_ERR("severity (i_sev) of %d is unknown",i_sev); } // Convert the return code to an error log. // This will set the return code to FAPI_RC_SUCCESS and clear any PLAT Data, // HWP FFDC data, and Error Target associated with it. l_pError = fapiRcToErrl(io_rc, l_sev); // Commit the error log. This will delete the error log and set the handle // to NULL. if (i_unitTestError) { errlCommit(l_pError, CXXTEST_COMP_ID); } else { errlCommit(l_pError, HWPF_COMP_ID); } }
//************************************************************************** // FREQVOLTSVC::getSysFreq //************************************************************************** errlHndl_t getSysFreq( uint32_t & o_sysVPDPowerSaveMinFreqMhz, TARGETING::ATTR_NOMINAL_FREQ_MHZ_type & o_sysNomFreqMhz, TARGETING::ATTR_FREQ_CORE_MAX_type & o_sysVPDTurboMaxFreqMhz, TARGETING::ATTR_ULTRA_TURBO_FREQ_MHZ_type & o_sysVPDUltraTurboMinFreqMhz) { uint32_t l_minsysVPDTurboMaxFreqMhz = 0; uint32_t l_maxsysVPDPowerSaveMinFreqMhz = 0; uint32_t l_minsysVPDUltraTurboFreqMhz = 0; fapi::ReturnCode l_rc; errlHndl_t l_err = NULL; do { o_sysNomFreqMhz = 0; o_sysVPDTurboMaxFreqMhz = 0; o_sysVPDPowerSaveMinFreqMhz = 0; o_sysVPDUltraTurboMinFreqMhz = 0; //Get the top level (system) target handle TARGETING::Target* l_pTopLevel = NULL; (void)TARGETING::targetService().getTopLevelTarget(l_pTopLevel); // Assert on failure getting system target assert( l_pTopLevel != NULL ); // Retrun Fvmin as ultra turbo freq if WOF enabled. ATTR_WOF_ENABLED_type l_wofEnabled = l_pTopLevel->getAttr < TARGETING::ATTR_WOF_ENABLED > (); TRACFCOMP(g_fapiTd,"getSysFreq: WOF_ENABLED is %d ",l_wofEnabled); //Filter functional unit TARGETING::PredicateIsFunctional l_isFunctional; // Filter core unit TARGETING::PredicateCTM l_coreUnitFilter(TARGETING::CLASS_UNIT, TARGETING::TYPE_CORE); //Filter functional cores TARGETING::PredicatePostfixExpr l_funcCoreUnitFilter; // core units AND functional l_funcCoreUnitFilter.push(&l_coreUnitFilter).push (&l_isFunctional).And(); // Loop through all the targets, looking for functional core units. TARGETING::TargetRangeFilter l_pFilter( TARGETING::targetService().begin(), TARGETING::targetService().end(), &l_funcCoreUnitFilter); // Assert if no functional cores are found assert(l_pFilter); bool l_copyOnce = true; // Loop through functional cores to get frequency for(; l_pFilter; ++l_pFilter ) { TARGETING::Target * l_pTarget = *l_pFilter; fapi::voltageBucketData_t l_poundVdata = {0}; // Get Parent Chip target const TARGETING::Target * l_pChipTarget = getParentChip(l_pTarget); fapi::Target l_pFapiChipTarget(fapi::TARGET_TYPE_PROC_CHIP, (const_cast<TARGETING::Target*>(l_pChipTarget) )); // Get core number for record number TARGETING::ATTR_CHIP_UNIT_type l_coreNum = l_pTarget->getAttr<TARGETING::ATTR_CHIP_UNIT>(); uint32_t l_record = (uint32_t) MVPD::LRP0 + l_coreNum; // Get #V bucket data l_rc = fapiGetPoundVBucketData(l_pFapiChipTarget, l_record, l_poundVdata); if(l_rc) { TRACFCOMP( g_fapiTd,ERR_MRK"Error getting #V data for HUID:" "0x%08X", l_pTarget->getAttr<TARGETING::ATTR_HUID>()); // Convert fapi returnCode to Error handle l_err = fapiRcToErrl(l_rc); break; } uint32_t l_sysVPDPowerSaveMinFreqMhz = l_poundVdata.PSFreq; TARGETING::ATTR_NOMINAL_FREQ_MHZ_type l_sysNomFreqMhz = l_poundVdata.nomFreq; TARGETING::ATTR_FREQ_CORE_MAX_type l_sysVPDTurboMaxFreqMhz = l_poundVdata.turboFreq; // WOF defines the reserved Fvmin value as ultra turbo TARGETING::ATTR_ULTRA_TURBO_FREQ_MHZ_type l_sysVPDUltraTurboFreqMhz = l_poundVdata.fvminFreq; TRACFCOMP(g_fapiTd,INFO_MRK"Nominal freq is: [0x%08X]. Turbo " "freq is: [0x%08x]. PowerSave freq is: [0x%08X]." " Ultra Turbo is: [0x%08x]", l_sysNomFreqMhz, l_sysVPDTurboMaxFreqMhz, l_sysVPDPowerSaveMinFreqMhz, l_sysVPDUltraTurboFreqMhz); if( true == l_copyOnce) { o_sysNomFreqMhz = l_sysNomFreqMhz; l_minsysVPDTurboMaxFreqMhz = l_sysVPDTurboMaxFreqMhz; l_maxsysVPDPowerSaveMinFreqMhz = l_sysVPDPowerSaveMinFreqMhz; l_minsysVPDUltraTurboFreqMhz = l_sysVPDUltraTurboFreqMhz; l_copyOnce = false; } // frequency is never zero so create error if it is zero. if( (l_sysNomFreqMhz == 0) || (l_sysVPDTurboMaxFreqMhz == 0) || (l_sysVPDPowerSaveMinFreqMhz == 0) ) { TRACFCOMP(g_fapiTd,ERR_MRK"Frequency is zero, " "nominal freq: 0x%04X,turbo freq: 0x%08X", "PowerSave freq is: [0x%08X]", l_sysNomFreqMhz, l_sysVPDTurboMaxFreqMhz, l_sysVPDPowerSaveMinFreqMhz); /*@ * @errortype * @moduleid fapi::MOD_GET_SYS_FREQ * @reasoncode fapi::RC_INVALID_DATA * @userdata1[0:31] Proc HUID * @userdata1[32:63] Nominal frequency * @userdata2[0:31] Max Turbo frequency from VPD * @userdata2[32:63] Min Power Save frequency from VPD * @devdesc Either nominal, max turbo or min power * save frequency for the processor HUID * (userdata1) is zero */ l_err = new ERRORLOG::ErrlEntry( ERRORLOG::ERRL_SEV_UNRECOVERABLE, fapi::MOD_GET_SYS_FREQ, fapi::RC_INVALID_DATA, TWO_UINT32_TO_UINT64( l_pTarget->getAttr<TARGETING::ATTR_HUID>(), l_sysNomFreqMhz), TWO_UINT32_TO_UINT64(l_sysVPDTurboMaxFreqMhz, l_sysVPDPowerSaveMinFreqMhz)); // Callout HW as VPD data is incorrect l_err->addHwCallout(l_pTarget, HWAS::SRCI_PRIORITY_HIGH, HWAS::DECONFIG, HWAS::GARD_NULL); break; } // If WOF is enabled, Ultra Turbo frequency should not be zero. // Return 0 for ultra turbo freq if( (fapi::ENUM_ATTR_WOF_ENABLED_ENABLED == l_wofEnabled) && (l_sysVPDUltraTurboFreqMhz == 0) ) { TRACFCOMP(g_fapiTd, ERR_MRK"GetSysFreq: Ultra Turbo frequency is 0"); /*@ * @errortype * @moduleid fapi::MOD_GET_SYS_FREQ * @reasoncode fapi::RC_INVALID_ULTRA_TURBO_FREQ * @userdata1 Proc HUID * @userdata2 Invalid ultra turbo frequency * @devdesc When WOF is enabled, ultra turbo freq * should not be 0 */ l_err = new ERRORLOG::ErrlEntry( ERRORLOG::ERRL_SEV_UNRECOVERABLE, fapi::MOD_GET_SYS_FREQ, fapi::RC_INVALID_ULTRA_TURBO_FREQ, l_pTarget->getAttr<TARGETING::ATTR_HUID>(), l_sysVPDUltraTurboFreqMhz); // Callout HW as VPD data is incorrect l_err->addHwCallout(l_pTarget, HWAS::SRCI_PRIORITY_MED, HWAS::NO_DECONFIG, HWAS::GARD_NULL); // log error and keep going errlCommit(l_err,HWPF_COMP_ID); } // Validate nominal frequency. If differs, // create error and stop processing further. if( o_sysNomFreqMhz != l_sysNomFreqMhz ) { TRACFCOMP(g_fapiTd,ERR_MRK "Nominal Frequency:[0x%04X] does not " "match with other core nominal frequency:[0x%04X]", l_sysNomFreqMhz, o_sysNomFreqMhz); /*@ * @errortype * @moduleid fapi::MOD_GET_SYS_FREQ * @reasoncode fapi::RC_INVALID_FREQ * @userdata1 Invalid frequency * @userdata2 Expected frequency * @devdesc Nominal frequency(userdata1) does not match * nominal frequency(userdata2) on other cores. * Should be the same for all chips. */ l_err = new ERRORLOG::ErrlEntry( ERRORLOG::ERRL_SEV_UNRECOVERABLE, fapi::MOD_GET_SYS_FREQ, fapi::RC_INVALID_FREQ, l_sysNomFreqMhz, o_sysNomFreqMhz); // Callout HW as VPD data is incorrect l_err->addHwCallout(l_pTarget, HWAS::SRCI_PRIORITY_HIGH, HWAS::DECONFIG, HWAS::GARD_NULL); break; } // Save the min turbo freq if (l_sysVPDTurboMaxFreqMhz < l_minsysVPDTurboMaxFreqMhz) { l_minsysVPDTurboMaxFreqMhz = l_sysVPDTurboMaxFreqMhz; } // Save the max powersave freq if (l_sysVPDPowerSaveMinFreqMhz > l_maxsysVPDPowerSaveMinFreqMhz) { l_maxsysVPDPowerSaveMinFreqMhz = l_sysVPDPowerSaveMinFreqMhz; } // Save the min ultra turbo freq // If WOF is enabled, do not expect to see a zero value. But if // there is a zero value, then return zero. if (l_sysVPDUltraTurboFreqMhz < l_minsysVPDUltraTurboFreqMhz) { l_minsysVPDUltraTurboFreqMhz = l_sysVPDUltraTurboFreqMhz; } } // end for loop if (l_err != NULL) { break; } // Get min turbo freq o_sysVPDTurboMaxFreqMhz = l_minsysVPDTurboMaxFreqMhz; // Get max powersave freq o_sysVPDPowerSaveMinFreqMhz = l_maxsysVPDPowerSaveMinFreqMhz; // Get ultra turbo freq o_sysVPDUltraTurboMinFreqMhz = l_minsysVPDUltraTurboFreqMhz; } while (0); TRACFCOMP(g_fapiTd,EXIT_MRK"o_sysNomFreqMhz: 0x%08X, " "o_sysVPDTurboMaxFreqMhz: 0x%08X, " "o_sysVPDPowerSaveMinFreqMhz: 0x%08X, " "o_sysVPDUltraTurboFreqMhz: 0x%08x", o_sysNomFreqMhz, o_sysVPDTurboMaxFreqMhz, o_sysVPDPowerSaveMinFreqMhz, o_sysVPDUltraTurboMinFreqMhz ); return l_err; }
//************************************************************************** // FREQVOLTSVC::getSysFreq //************************************************************************** errlHndl_t getSysFreq( uint32_t & o_sysVPDPowerSaveMinFreqMhz, TARGETING::ATTR_NOMINAL_FREQ_MHZ_type & o_sysNomFreqMhz, TARGETING::ATTR_FREQ_CORE_MAX_type & o_sysVPDTurboMaxFreqMhz) { uint32_t l_minsysVPDTurboMaxFreqMhz = 0; uint32_t l_maxsysVPDPowerSaveMinFreqMhz = 0; fapi::ReturnCode l_rc; errlHndl_t l_err = NULL; do { o_sysNomFreqMhz = 0; o_sysVPDTurboMaxFreqMhz = 0; o_sysVPDPowerSaveMinFreqMhz = 0; //Filter functional unit TARGETING::PredicateIsFunctional l_isFunctional; // Filter core unit TARGETING::PredicateCTM l_coreUnitFilter(TARGETING::CLASS_UNIT, TARGETING::TYPE_CORE); //Filter functional cores TARGETING::PredicatePostfixExpr l_funcCoreUnitFilter; // core units AND functional l_funcCoreUnitFilter.push(&l_coreUnitFilter).push (&l_isFunctional).And(); // Loop through all the targets, looking for functional core units. TARGETING::TargetRangeFilter l_pFilter( TARGETING::targetService().begin(), TARGETING::targetService().end(), &l_funcCoreUnitFilter); // Assert if no functional cores are found assert(l_pFilter); bool l_copyOnce = true; // Loop through functional cores to get frequency for(; l_pFilter; ++l_pFilter ) { TARGETING::Target * l_pTarget = *l_pFilter; fapi::voltageBucketData_t l_poundVdata = {0}; // Get Parent Chip target const TARGETING::Target * l_pChipTarget = getParentChip(l_pTarget); // Get core number for record number TARGETING::ATTR_CHIP_UNIT_type l_coreNum = l_pTarget->getAttr<TARGETING::ATTR_CHIP_UNIT>(); uint32_t l_record = (uint32_t) MVPD::LRP0 + l_coreNum; // Get #V bucket data l_rc = fapiGetPoundVBucketData(l_pChipTarget, l_record, l_poundVdata); if(l_rc) { TRACFCOMP( g_fapiTd,ERR_MRK"Error getting #V data for HUID:" "0x%08X", l_pTarget->getAttr<TARGETING::ATTR_HUID>()); // Convert fapi returnCode to Error handle l_err = fapiRcToErrl(l_rc); break; } uint32_t l_sysVPDPowerSaveMinFreqMhz = l_poundVdata.PSFreq; TARGETING::ATTR_NOMINAL_FREQ_MHZ_type l_sysNomFreqMhz = l_poundVdata.nomFreq; TARGETING::ATTR_FREQ_CORE_MAX_type l_sysVPDTurboMaxFreqMhz = l_poundVdata.turboFreq; TRACFCOMP(g_fapiTd,INFO_MRK"Nominal freq is: [0x%08X]. Turbo " "freq is: [0x%08x]. PowerSave freq is: [0x%08X]", l_sysNomFreqMhz, l_sysVPDTurboMaxFreqMhz, l_sysVPDPowerSaveMinFreqMhz ); if( true == l_copyOnce) { o_sysNomFreqMhz = l_sysNomFreqMhz; l_minsysVPDTurboMaxFreqMhz = l_sysVPDTurboMaxFreqMhz; l_maxsysVPDPowerSaveMinFreqMhz = l_sysVPDPowerSaveMinFreqMhz; l_copyOnce = false; } // frequency is never zero so create error if it is zero. if( (l_sysNomFreqMhz == 0) || (l_sysVPDTurboMaxFreqMhz == 0) || (l_sysVPDPowerSaveMinFreqMhz == 0) ) { TRACFCOMP(g_fapiTd,ERR_MRK"Frequency is zero, " "nominal freq: 0x%04X,turbo freq: 0x%08X", "PowerSave freq is: [0x%08X]", l_sysNomFreqMhz, l_sysVPDTurboMaxFreqMhz, l_sysVPDPowerSaveMinFreqMhz); /*@ * @errortype * @moduleid fapi::MOD_GET_SYS_FREQ * @reasoncode fapi::RC_INVALID_DATA * @userdata1[0:31] Proc HUID * @userdata1[32:63] Nominal frequency * @userdata2[0:31] Max Turbo frequency from VPD * @userdata2[32:63] Min Power Save frequency from VPD * @devdesc Either nominal, max turbo or min power * save frequency for the processor HUID * (userdata1) is zero */ l_err = new ERRORLOG::ErrlEntry( ERRORLOG::ERRL_SEV_UNRECOVERABLE, fapi::MOD_GET_SYS_FREQ, fapi::RC_INVALID_DATA, TWO_UINT32_TO_UINT64( l_pTarget->getAttr<TARGETING::ATTR_HUID>(), l_sysNomFreqMhz), TWO_UINT32_TO_UINT64(l_sysVPDTurboMaxFreqMhz, l_sysVPDPowerSaveMinFreqMhz)); // Callout HW as VPD data is incorrect l_err->addHwCallout(l_pTarget, HWAS::SRCI_PRIORITY_HIGH, HWAS::DECONFIG, HWAS::GARD_NULL); break; } // Validate nominal frequency. If differs, // create error and stop processing further. if( o_sysNomFreqMhz != l_sysNomFreqMhz ) { TRACFCOMP(g_fapiTd,ERR_MRK "Nominal Frequency:[0x%04X] does not " "match with other core nominal frequency:[0x%04X]", l_sysNomFreqMhz, o_sysNomFreqMhz); /*@ * @errortype * @moduleid fapi::MOD_GET_SYS_FREQ * @reasoncode fapi::RC_INVALID_FREQ * @userdata1 Invalid frequency * @userdata2 Expected frequency * @devdesc Nominal frequency(userdata1) does not match * nominal frequency(userdata2) on other cores. * Should be the same for all chips. */ l_err = new ERRORLOG::ErrlEntry( ERRORLOG::ERRL_SEV_UNRECOVERABLE, fapi::MOD_GET_SYS_FREQ, fapi::RC_INVALID_FREQ, l_sysNomFreqMhz, o_sysNomFreqMhz); // Callout HW as VPD data is incorrect l_err->addHwCallout(l_pTarget, HWAS::SRCI_PRIORITY_HIGH, HWAS::DECONFIG, HWAS::GARD_NULL); break; } // Save the min turbo freq if (l_sysVPDTurboMaxFreqMhz < l_minsysVPDTurboMaxFreqMhz) { l_minsysVPDTurboMaxFreqMhz = l_sysVPDTurboMaxFreqMhz; } // Save the max powersave freq if (l_sysVPDPowerSaveMinFreqMhz > l_maxsysVPDPowerSaveMinFreqMhz) { l_maxsysVPDPowerSaveMinFreqMhz = l_sysVPDPowerSaveMinFreqMhz; } } // end for loop if (l_err != NULL) { break; } // Get min turbo freq o_sysVPDTurboMaxFreqMhz = l_minsysVPDTurboMaxFreqMhz; // Get max powersave freq o_sysVPDPowerSaveMinFreqMhz = l_maxsysVPDPowerSaveMinFreqMhz; } while (0); TRACFCOMP(g_fapiTd,EXIT_MRK"o_sysNomFreqMhz: 0x%08X, " "o_sysVPDTurboMaxFreqMhz: 0x%08X, " "o_sysVPDPowerSaveMinFreqMhz: 0x%08X", o_sysNomFreqMhz, o_sysVPDTurboMaxFreqMhz, o_sysVPDPowerSaveMinFreqMhz ); return l_err; }