C++ (Cpp) mfgMode示例

示例#1

文件： prdfCommonPlugins.C 项目： open-power/hostboot

/**
 * @brief   When not in MNFG mode, clear the service call flag so that
 *          thresholding will still be done, but no visible error log committed.
 * @param   i_chip EX chip
 * @param   i_sc   Step code data struct
 * @returns SUCCESS always
 */
int32_t ClearServiceCallFlag( ExtensibleChip * i_chip,
                              STEP_CODE_DATA_STRUCT & i_sc )
{
    if ( i_sc.service_data->IsAtThreshold() && !mfgMode() &&
         (CHECK_STOP != i_sc.service_data->getPrimaryAttnType()) &&
         (UNIT_CS    != i_sc.service_data->getSecondaryAttnType()) )
    {
        i_sc.service_data->clearServiceCall();
    }

    return SUCCESS;
}

示例#2

文件： prdfLaneRepair.C 项目： jk-ozlabs/hostboot

int32_t handleLaneRepairEvent( ExtensibleChip * i_chip,
                               TYPE i_busType,
                               uint32_t i_busPos,
                               STEP_CODE_DATA_STRUCT & i_sc,
                               bool i_spareDeployed )
{
    #define PRDF_FUNC "[LaneRepair::handleLaneRepairEvent] "

    int32_t l_rc = SUCCESS;
    TargetHandle_t rxBusTgt = NULL;
    TargetHandle_t txBusTgt = NULL;
    bool thrExceeded = true;
    std::vector<uint8_t> rx_lanes;
    std::vector<uint8_t> rx_vpdLanes;
    std::vector<uint8_t> tx_vpdLanes;
    BitStringBuffer l_vpdLaneMap0to63(64);
    BitStringBuffer l_vpdLaneMap64to127(64);
    BitStringBuffer l_newLaneMap0to63(64);
    BitStringBuffer l_newLaneMap64to127(64);

    do
    {
        #ifdef __HOSTBOOT_MODULE
        if ( CHECK_STOP == i_sc.service_data->GetAttentionType() )
        {
            // This would only happen on OpenPOWER machines when we are doing
            // the post IPL analysis. In this case, we do not have the FFDC to
            // query the IO registers so simply set service call and skip
            // everything else.
            i_sc.service_data->SetServiceCall();
            return SUCCESS;
        }
        #endif

        // Get the RX and TX targets.
        l_rc = CalloutUtil::getBusEndpoints( i_chip, rxBusTgt, txBusTgt,
                                             i_busType, i_busPos );
        if ( SUCCESS != l_rc )
        {
            PRDF_ERR( PRDF_FUNC "getBusEndpoints() failed" );
            break;
        }

        // Call io_read_erepair
        l_rc = readErepair(rxBusTgt, rx_lanes);
        if (SUCCESS != l_rc)
        {
            PRDF_ERR( PRDF_FUNC "readErepair() failed: rxBusTgt=0x%08x",
                      getHuid(rxBusTgt) );
            break;
        }

        // Add newly failed lanes to capture data
        for (std::vector<uint8_t>::iterator lane = rx_lanes.begin();
             lane != rx_lanes.end(); ++lane)
        {
            PRDF_INF( PRDF_FUNC "New failed lane on RX HUID 0x%08x: %d",
                      getHuid(rxBusTgt), *lane);
            if (*lane < 64)
                l_newLaneMap0to63.Set(*lane);
            else if (*lane < 127)
                l_newLaneMap64to127.Set(*lane - 64);
            else
            {
                PRDF_ERR( PRDF_FUNC "Invalid lane number %d: rxBusTgt=0x%08x",
                          *lane, getHuid(rxBusTgt) );
                l_rc = FAIL; break;
            }
        }
        if ( SUCCESS != l_rc ) break;

        // Add failed lane capture data to errorlog
        i_sc.service_data->GetCaptureData().Add(i_chip->GetChipHandle(),
                                ( Util::hashString("ALL_FAILED_LANES_0TO63") ^
                                  i_chip->getSignatureOffset() ),
                                l_newLaneMap0to63);
        i_sc.service_data->GetCaptureData().Add(i_chip->GetChipHandle(),
                                ( Util::hashString("ALL_FAILED_LANES_64TO127") ^
                                  i_chip->getSignatureOffset() ),
                                l_newLaneMap64to127);

        if (!mfgMode()) // Don't read/write VPD in mfg mode
        {
            // Read Failed Lanes from VPD
            l_rc = getVpdFailedLanes(rxBusTgt, rx_vpdLanes, tx_vpdLanes);
            if (SUCCESS != l_rc)
            {
                PRDF_ERR( PRDF_FUNC "getVpdFailedLanes() failed: "
                          "rxBusTgt=0x%08x", getHuid(rxBusTgt) );
                break;
            }

            // Add VPD lanes to capture data
            for (std::vector<uint8_t>::iterator lane = rx_vpdLanes.begin();
                 lane != rx_vpdLanes.end(); ++lane)
            {
                if (*lane < 64)
                    l_vpdLaneMap0to63.Set(*lane);
                else if (*lane < 127)
                    l_vpdLaneMap64to127.Set(*lane - 64);
                else
                {
                    PRDF_ERR( PRDF_FUNC "Invalid VPD lane number %d: "
                              "rxBusTgt=0x%08x", *lane, getHuid(rxBusTgt) );
                    l_rc = FAIL; break;
                }
            }
            if ( SUCCESS != l_rc ) break;

            // Add failed lane capture data to errorlog
            i_sc.service_data->GetCaptureData().Add(i_chip->GetChipHandle(),
                                ( Util::hashString("VPD_FAILED_LANES_0TO63") ^
                                  i_chip->getSignatureOffset() ),
                                l_vpdLaneMap0to63);
            i_sc.service_data->GetCaptureData().Add(i_chip->GetChipHandle(),
                               ( Util::hashString("VPD_FAILED_LANES_64TO127") ^
                                 i_chip->getSignatureOffset() ),
                               l_vpdLaneMap64to127);

            if (i_spareDeployed)
            {
                // Call Erepair to update VPD
                l_rc = setVpdFailedLanes(rxBusTgt, txBusTgt,
                                         rx_lanes, thrExceeded);
                if (SUCCESS != l_rc)
                {
                    PRDF_ERR( PRDF_FUNC "setVpdFailedLanes() failed: "
                              "rxBusTgt=0x%08x txBusTgt=0x%08x",
                              getHuid(rxBusTgt), getHuid(txBusTgt) );
                    break;
                }
                if( thrExceeded )
                {
                    i_sc.service_data->SetErrorSig(
                                            PRDFSIG_ERepair_FWThrExceeded );
                }
            }
        }

        if (i_spareDeployed && !thrExceeded)
        {
            // Update lists of lanes from VPD
            rx_vpdLanes.clear(); tx_vpdLanes.clear();
            l_rc = getVpdFailedLanes(rxBusTgt, rx_vpdLanes, tx_vpdLanes);
            if (SUCCESS != l_rc)
            {
                PRDF_ERR( PRDF_FUNC "getVpdFailedLanes() before power down "
                          "failed: rxBusTgt=0x%08x", getHuid(rxBusTgt) );
                break;
            }

            // Power down all lanes that have been saved in VPD
            l_rc = powerDownLanes(rxBusTgt, rx_vpdLanes, tx_vpdLanes);
            if (SUCCESS != l_rc)
            {
                PRDF_ERR( PRDF_FUNC "powerDownLanes() failed: rxBusTgt=0x%08x",
                          getHuid(rxBusTgt) );
                break;
            }
        }
        else
        {
            // Make predictive
            i_sc.service_data->SetServiceCall();
        }
    } while (0);

    // Clear FIRs
    if (rxBusTgt)
    {
        l_rc |= erepairFirIsolation(rxBusTgt);
        l_rc |= clearIOFirs(rxBusTgt);
    }

    if ( i_spareDeployed )
    {
        l_rc |= cleanupSecondaryFirBits( i_chip, i_busType, i_busPos );
    }

    // This return code gets returned by the plugin code back to the rule code.
    // So, we do not want to give a return code that the rule code does not
    // understand. So far, there is no need return a special code, so always
    // return SUCCESS.
    if ( SUCCESS != l_rc )
    {
        PRDF_ERR( PRDF_FUNC "i_chip: 0x%08x i_busType:%d i_busPos:%d",
                  i_chip->GetId(), i_busType, i_busPos );

        i_sc.service_data->SetErrorSig( PRDFSIG_ERepair_ERROR );
        CalloutUtil::defaultError( i_sc );
    }

    return SUCCESS;

    #undef PRDF_FUNC
}