path: root/src/import/chips/p9/procedures/hwp/io/p9_io_xbus_linktrain.C

/* IBM_PROLOG_BEGIN_TAG                                                   */
/* This is an automatically generated prolog.                             */
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/* $Source: src/import/chips/p9/procedures/hwp/io/p9_io_xbus_linktrain.C $ */
/*                                                                        */
/* OpenPOWER HostBoot Project                                             */
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/* Contributors Listed Below - COPYRIGHT 2015,2018                        */
/* [+] International Business Machines Corp.                              */
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/* IBM_PROLOG_END_TAG                                                     */
///
/// @file p9_io_xbus_linktrain.C
/// @brief I/O Link Training on the Xbus Links.
///-----------------------------------------------------------------------------
/// *HWP HWP Owner        : Chris Steffen <cwsteffen@us.ibm.com>
/// *HWP HWP Backup Owner : Gary Peterson <garyp@us.ibm.com>
/// *HWP FW Owner         : Jamie Knight <rjknight@us.ibm.com>
/// *HWP Team             : IO
/// *HWP Level            : 3
/// *HWP Consumed by      : FSP:HB
///-----------------------------------------------------------------------------
///
/// @verbatim
/// High-level procedure flow:
///
/// Train the link through several steps (WDERF).
///     - (W) Wiretest
///     - (D) Deskew
///     - (E) Eye Optimization
///     - (R) Repair/Recal
///     - (F) Functional
///
/// Procedure Prereq:
///     - System clocks are running.
///     - Scominit Procedure is completed.
///     - Dccal Procedure is completed.
///
/// @endverbatim
///----------------------------------------------------------------------------

//------------------------------------------------------------------------------
//  Defines
//------------------------------------------------------------------------------

//-----------------------------------------------------------------------------
//  Includes
//-----------------------------------------------------------------------------
#include <p9_io_xbus_linktrain.H>
#include <p9_io_xbus_clear_firs.H>
#include <p9_io_scom.H>
#include <p9_io_regs.H>
#include <p9_io_common.H>

//-----------------------------------------------------------------------------
//  Definitions
//-----------------------------------------------------------------------------

/**
 * @brief I/O EDI+ Training Substeps
 */
enum class State
{
    NONE       = 0x00000000,
    WIRETEST   = 0x00000001,
    DESKEW     = 0x00000002,
    EYEOPT     = 0x00000004,
    REPAIR     = 0x00000008,
    FUNCTIONAL = 0x00000010,
    WDERF      = 0x0000001F
};
inline State operator& (const State& a, const State& b )
{
    return static_cast<State>( static_cast<uint8_t>(a) & static_cast<uint8_t>(b) );
}

/**
 * @brief Adds I/O FFDC Link data to the Error
 * @param[in]  i_mtgt   Master Target
 * @param[in]  i_stgt   Slave Target
 * @param[in]  i_grp    Clock Group
 * @retval     fapi2::ReturnCode
 */
fapi2::ReturnCode add_linktrain_ffdc(
    const XBUS_TGT i_mtgt,
    const XBUS_TGT i_stgt,
    const uint8_t i_grp,
    const bool i_timeout )
{
    const uint8_t  LN0          = 0;
    const uint32_t INVALID_FFDC = 0xFFFFFFFF;
    uint64_t       l_data       = 0;

    // Return Codes:
    //  l_ffdc_rc -- Passed by reference and is used to create the ffdc.  This return code
    //               will be returned at the end of the function
    fapi2::ReturnCode l_ffdc_rc    = 0;

    //  l_rc      -- Used during the data collection and will not cause the function to fail,
    //               only will cause invalid data if the scoms fail.
    fapi2::ReturnCode l_rc         = 0;

    // Create the FFDC Error
    fapi2::IO_XBUS_LINKTRAIN_ERROR ffdc( fapi2::FAPI2_ERRL_SEV_UNRECOVERABLE, l_ffdc_rc );

    ffdc.set_M_TARGET( i_mtgt );
    ffdc.set_S_TARGET( i_stgt );
    ffdc.set_GROUP   ( i_grp  );
    ffdc.set_TIMEOUT ( i_timeout );

    ///////////////////////////////////////////////////////////////////////////
    // Master Common
    ///////////////////////////////////////////////////////////////////////////
    l_rc = io::read( EDIP_RX_CTL_CNTL1_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t  m_wderf_start = io::get( EDIP_RX_START_WDERF_ALIAS,  l_data );
    ffdc.set_M_WDERF_START ( m_wderf_start );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_WDERF_START ( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_STAT1_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_wderf_done = io::get( EDIP_RX_WDERF_DONE_ALIAS,   l_data );
    ffdc.set_M_WDERF_DONE ( m_wderf_done );

    uint64_t m_wderf_failed_alias = io::get( EDIP_RX_WDERF_FAILED_ALIAS, l_data );
    ffdc.set_M_WDERF_FAILED( m_wderf_failed_alias );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_WDERF_DONE  ( INVALID_FFDC );
        ffdc.set_M_WDERF_FAILED( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_STAT2_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_lane_bad_0_15 =  io::get( EDIP_RX_LANE_BAD_VEC_0_15, l_data );
    ffdc.set_M_LANE_BAD_0_15( m_lane_bad_0_15 );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_LANE_BAD_0_15( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_STAT4_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_lane_bad_16_23 =  io::get( EDIP_RX_LANE_BAD_VEC_16_23, l_data );
    ffdc.set_M_LANE_BAD_16_23( m_lane_bad_16_23 );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_LANE_BAD_16_23( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_MODE11_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_lane_disabled_0_15 = io::get( EDIP_RX_LANE_DISABLED_VEC_0_15, l_data );
    ffdc.set_M_LANE_DISABLED_VEC_0_15( m_lane_disabled_0_15 );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_LANE_DISABLED_VEC_0_15( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_MODE12_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_lane_disabled_16_23 = io::get( EDIP_RX_LANE_DISABLED_VEC_16_23, l_data );
    ffdc.set_M_LANE_DISABLED_VEC_16_23( m_lane_disabled_16_23 );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_LANE_DISABLED_VEC_16_23( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_GLBSM_STAT1_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_main_init_state =  io::get( EDIP_RX_MAIN_INIT_STATE, l_data );
    ffdc.set_M_MAIN_INIT_STATE( m_main_init_state );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_MAIN_INIT_STATE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    ///////////////////////////////////////////////////////////////////////////
    // Master Wiretest
    ///////////////////////////////////////////////////////////////////////////
    l_rc = io::read( EDIP_RX_GLBSM_STAT1_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_wiretest_wtm_state =  io::get( EDIP_RX_WTM_STATE, l_data );
    ffdc.set_M_WIRETEST_WTM_STATE( m_wiretest_wtm_state );

    uint64_t m_wiretest_wtr_state =  io::get( EDIP_RX_WTR_STATE, l_data );
    ffdc.set_M_WIRETEST_WTR_STATE( m_wiretest_wtr_state );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_WIRETEST_WTM_STATE( INVALID_FFDC );
        ffdc.set_M_WIRETEST_WTR_STATE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_STAT3_EO_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_wiretest_wtl_sm_status = io::get( EDIP_RX_WTL_SM_STATUS, l_data );
    ffdc.set_M_WIRETEST_WTL_SM_STATUS( m_wiretest_wtl_sm_status );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_WIRETEST_WTL_SM_STATUS( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_GLBSM_STAT2_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t wtr_bad_lane_count =  io::get( EDIP_RX_WTR_BAD_LANE_COUNT, l_data );
    ffdc.set_M_WTR_BAD_LANE_COUNT( wtr_bad_lane_count );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_WTR_BAD_LANE_COUNT( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc =  io::read( EDIP_RX_CTL_STAT5_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_rx_wt_clk_lane_bad_code = io::get( EDIP_RX_WT_CLK_LANE_BAD_CODE, l_data );
    ffdc.set_M_CLK_LANE_BAD_CODE ( m_rx_wt_clk_lane_bad_code );

    uint64_t m_rx_wt_clk_lane_inverted =  io::get( EDIP_RX_WT_CLK_LANE_INVERTED, l_data );
    ffdc.set_M_WT_CLK_LANE_INVERTED( m_rx_wt_clk_lane_inverted );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_CLK_LANE_BAD_CODE   ( INVALID_FFDC );
        ffdc.set_M_WT_CLK_LANE_INVERTED( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    ///////////////////////////////////////////////////////////////////////////
    // Master Deskew
    ///////////////////////////////////////////////////////////////////////////

    ///////////////////////////////////////////////////////////////////////////
    // Master Eye Optimization
    ///////////////////////////////////////////////////////////////////////////
    l_rc = io::read( EDIP_RX_GLBSM_STAT1_EO_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_eye_opt_state = io::get( EDIP_RX_EYE_OPT_STATE, l_data );
    ffdc.set_M_EYE_OPT_STATE( m_eye_opt_state );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_EYE_OPT_STATE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_CNTL13_EO_PG, i_mtgt, i_grp, LN0, l_data );
    uint64_t m_hist_min_eye_width = io::get( EDIP_RX_HIST_MIN_EYE_WIDTH, l_data );
    ffdc.set_M_HIST_MIN_EYE_WIDTH( m_hist_min_eye_width );

    uint64_t m_hist_min_eye_width_lane = io::get( EDIP_RX_HIST_MIN_EYE_WIDTH_LANE, l_data );
    ffdc.set_M_HIST_MIN_EYE_WIDTH_LANE( m_hist_min_eye_width_lane );

    uint64_t m_hist_min_eye_width_valid =  io::get( EDIP_RX_HIST_MIN_EYE_WIDTH_VALID, l_data );
    ffdc.set_M_HIST_MIN_EYE_WIDTH_VALID(m_hist_min_eye_width_valid );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_HIST_MIN_EYE_WIDTH      ( INVALID_FFDC );
        ffdc.set_M_HIST_MIN_EYE_WIDTH_LANE ( INVALID_FFDC );
        ffdc.set_M_HIST_MIN_EYE_WIDTH_VALID( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    ///////////////////////////////////////////////////////////////////////////
    // Master Repair
    ///////////////////////////////////////////////////////////////////////////
    l_rc =  io::read( EDIP_RX_GLBSM_STAT4_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_rpr_state =  io::get( EDIP_RX_RPR_STATE, l_data );
    ffdc.set_M_RPR_STATE( m_rpr_state );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_RPR_STATE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_GLBSM_STAT9_E_PG, i_mtgt, i_grp, LN0, l_data );

    uint64_t m_bad_lane1 =  io::get( EDIP_RX_BAD_LANE1,     l_data );
    ffdc.set_M_BAD_LANE1    ( m_bad_lane1 );

    uint64_t m_bad_lane2 =  io::get( EDIP_RX_BAD_LANE2,     l_data );
    ffdc.set_M_BAD_LANE2    ( m_bad_lane2 );

    uint64_t m_bad_lane_code = io::get( EDIP_RX_BAD_LANE_CODE,   l_data );
    ffdc.set_M_BAD_LANE_CODE( m_bad_lane_code );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_M_BAD_LANE1    ( INVALID_FFDC );
        ffdc.set_M_BAD_LANE2    ( INVALID_FFDC );
        ffdc.set_M_BAD_LANE_CODE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    ///////////////////////////////////////////////////////////////////////////
    // Master Functional Mode
    ///////////////////////////////////////////////////////////////////////////

    ///////////////////////////////////////////////////////////////////////////
    // Slave Common
    ///////////////////////////////////////////////////////////////////////////
    l_rc = io::read( EDIP_RX_CTL_CNTL1_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t  s_wderf_start = io::get( EDIP_RX_START_WDERF_ALIAS,  l_data );
    ffdc.set_S_WDERF_START ( s_wderf_start );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_WDERF_START ( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_STAT1_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_wderf_done = io::get( EDIP_RX_WDERF_DONE_ALIAS,   l_data );
    ffdc.set_S_WDERF_DONE  ( s_wderf_done );

    uint64_t s_wderf_failed_alias = io::get( EDIP_RX_WDERF_FAILED_ALIAS, l_data );
    ffdc.set_S_WDERF_FAILED( s_wderf_failed_alias );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_WDERF_DONE  ( INVALID_FFDC );
        ffdc.set_S_WDERF_FAILED( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_STAT2_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_lane_bad_0_15 =  io::get( EDIP_RX_LANE_BAD_VEC_0_15, l_data );
    ffdc.set_S_LANE_BAD_0_15( s_lane_bad_0_15 );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_LANE_BAD_0_15( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }


    l_rc = io::read( EDIP_RX_CTL_STAT4_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_lane_bad_16_23 = io::get( EDIP_RX_LANE_BAD_VEC_16_23, l_data);
    ffdc.set_S_LANE_BAD_16_23( s_lane_bad_16_23 );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_LANE_BAD_16_23( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_MODE11_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t  s_lane_disabled_vec_0_15 = io::get( EDIP_RX_LANE_DISABLED_VEC_0_15, l_data );
    ffdc.set_S_LANE_DISABLED_VEC_0_15( s_lane_disabled_vec_0_15 );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_LANE_DISABLED_VEC_0_15( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_MODE12_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_lane_disabled_vec_16_23 = io::get( EDIP_RX_LANE_DISABLED_VEC_16_23, l_data );
    ffdc.set_S_LANE_DISABLED_VEC_16_23( s_lane_disabled_vec_16_23 );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_LANE_DISABLED_VEC_16_23( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_GLBSM_STAT1_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_main_init_state = io::get( EDIP_RX_MAIN_INIT_STATE, l_data );
    ffdc.set_S_MAIN_INIT_STATE( s_main_init_state );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_MAIN_INIT_STATE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    ///////////////////////////////////////////////////////////////////////////
    // Slave Wiretest
    ///////////////////////////////////////////////////////////////////////////
    l_rc = io::read( EDIP_RX_GLBSM_STAT1_E_PG, i_stgt, i_grp, LN0, l_data );
    uint64_t  s_wiretest_wtm_state  =  io::get( EDIP_RX_WTM_STATE, l_data );
    uint64_t  s_wiretest_wtr_state  =  io::get( EDIP_RX_WTR_STATE, l_data );
    ffdc.set_S_WIRETEST_WTM_STATE( s_wiretest_wtm_state );
    ffdc.set_S_WIRETEST_WTR_STATE( s_wiretest_wtr_state );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_WIRETEST_WTM_STATE( INVALID_FFDC );
        ffdc.set_S_WIRETEST_WTR_STATE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_STAT3_EO_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_wiretest_wtl_sm_status = io::get( EDIP_RX_WTL_SM_STATUS, l_data );
    ffdc.set_S_WIRETEST_WTL_SM_STATUS( s_wiretest_wtl_sm_status );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_WIRETEST_WTL_SM_STATUS( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_GLBSM_STAT2_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_wtr_bad_lane_count =  io::get( EDIP_RX_WTR_BAD_LANE_COUNT, l_data );
    ffdc.set_S_WTR_BAD_LANE_COUNT( s_wtr_bad_lane_count );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_WTR_BAD_LANE_COUNT( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc =  io::read( EDIP_RX_CTL_STAT5_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_clk_lane_bad_code =  io::get( EDIP_RX_WT_CLK_LANE_BAD_CODE, l_data );
    ffdc.set_S_CLK_LANE_BAD_CODE   ( s_clk_lane_bad_code );

    uint64_t s_wt_clk_lane_inverted =  io::get( EDIP_RX_WT_CLK_LANE_INVERTED, l_data );
    ffdc.set_S_WT_CLK_LANE_INVERTED( s_wt_clk_lane_inverted );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_CLK_LANE_BAD_CODE   ( INVALID_FFDC );
        ffdc.set_S_WT_CLK_LANE_INVERTED( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    ///////////////////////////////////////////////////////////////////////////
    // Slave Deskew
    ///////////////////////////////////////////////////////////////////////////

    ///////////////////////////////////////////////////////////////////////////
    // Slave Eye Optimization
    ///////////////////////////////////////////////////////////////////////////
    l_rc = io::read( EDIP_RX_GLBSM_STAT1_EO_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_eye_opt_state =  io::get( EDIP_RX_EYE_OPT_STATE, l_data );
    ffdc.set_S_EYE_OPT_STATE( s_eye_opt_state );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_EYE_OPT_STATE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_CTL_CNTL13_EO_PG, i_stgt, i_grp, LN0, l_data );
    uint64_t s_hist_min_eye_width =  io::get( EDIP_RX_HIST_MIN_EYE_WIDTH, l_data );
    ffdc.set_S_HIST_MIN_EYE_WIDTH( s_hist_min_eye_width );

    uint64_t s_hist_min_eye_width_lane =   io::get( EDIP_RX_HIST_MIN_EYE_WIDTH_LANE, l_data );
    ffdc.set_S_HIST_MIN_EYE_WIDTH_LANE( s_hist_min_eye_width_lane );

    uint64_t s_hist_min_eye_width_valid = io::get( EDIP_RX_HIST_MIN_EYE_WIDTH_VALID, l_data );
    ffdc.set_S_HIST_MIN_EYE_WIDTH_VALID( s_hist_min_eye_width_valid );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_HIST_MIN_EYE_WIDTH      ( INVALID_FFDC );
        ffdc.set_S_HIST_MIN_EYE_WIDTH_LANE ( INVALID_FFDC );
        ffdc.set_S_HIST_MIN_EYE_WIDTH_VALID( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    ///////////////////////////////////////////////////////////////////////////
    // Slave Repair
    ///////////////////////////////////////////////////////////////////////////
    l_rc = io::read( EDIP_RX_GLBSM_STAT4_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_rpr_state =  io::get( EDIP_RX_RPR_STATE, l_data );
    ffdc.set_S_RPR_STATE( s_rpr_state );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_RPR_STATE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    l_rc = io::read( EDIP_RX_GLBSM_STAT9_E_PG, i_stgt, i_grp, LN0, l_data );

    uint64_t s_bad_lane1 = io::get( EDIP_RX_BAD_LANE1,     l_data );
    ffdc.set_S_BAD_LANE1    ( s_bad_lane1 );

    uint64_t s_bad_lane2 = io::get( EDIP_RX_BAD_LANE2,     l_data );
    ffdc.set_S_BAD_LANE2    ( s_bad_lane2 );

    uint64_t s_bad_lane_code = io::get( EDIP_RX_BAD_LANE_CODE,     l_data );
    ffdc.set_S_BAD_LANE_CODE    ( s_bad_lane_code );

    if( l_rc != fapi2::FAPI2_RC_SUCCESS )
    {
        ffdc.set_S_BAD_LANE1    ( INVALID_FFDC );
        ffdc.set_S_BAD_LANE2    ( INVALID_FFDC );
        ffdc.set_S_BAD_LANE_CODE( INVALID_FFDC );
        l_rc = fapi2::FAPI2_RC_SUCCESS;
    }

    ///////////////////////////////////////////////////////////////////////////
    // Slave Functional Mode
    ///////////////////////////////////////////////////////////////////////////

    // Log FFDC
    ffdc.execute();

    return l_ffdc_rc;
}

/**
 * @brief Starts I/O Training on Xbus (EDI Plus).  The slave target must start
 *   training before the master.  This function also assumes that dccal( tx
 *   impedance calibration and rx offset calibration) are complete.
 * @param[in]  i_tgt    Fapi2 Target
 * @param[in]  i_grp    Reperesents the clock group
 * @param[in]  i_wderf  Represents which training substeps are run.
 * @retval     fapi2::ReturnCode
 */
fapi2::ReturnCode linktrain_start(
    const XBUS_TGT i_tgt,
    const uint8_t  i_grp,
    const State    i_wderf )
{
    FAPI_IMP("linktrain_start: P9 I/O EDI+ Xbus Entering");
    const uint8_t LN0 = 0;

    FAPI_TRY( io::rmw( EDIP_RX_START_WDERF_ALIAS, i_tgt, i_grp, LN0, static_cast<uint64_t>(i_wderf ) ),
              "linktrain_start: rmw to start wderf failed." );

fapi_try_exit:
    FAPI_IMP("linktrain_start: P9 I/O EDI+ Xbus Exiting");
    return fapi2::current_err;
}

/**
 * @brief This function polls the EDI Plus training logic until the training
 *   is complete.  During the case of an error/timeout, the code will log
 *   FFDC data, which is added to the original error.
 * @param[in]  i_mtgt     Master Target
 * @param[in]  i_stgt     Slave Target
 * @param[in]  i_grp      Clock Group
 * @param[in]  i_started  The started EDI Plus training substeps
 * @retval     fapi2::ReturnCode
 */
fapi2::ReturnCode linktrain_poll(
    const XBUS_TGT i_mtgt,
    const XBUS_TGT i_stgt,
    const uint8_t  i_grp,
    const State    i_started )
{
    FAPI_IMP( "linktrain_poll: P9 I/O EDI+ Xbus Entering" );

    const uint8_t  MAXLOOPS         = 100;
    const uint64_t DELAY_1MS        = 1000000;
    const uint64_t DELAY_SIM_CYCLES = 2000000;  // Set lower due to sim speed up
    const uint8_t  LN0              = 0;
    uint8_t        l_loops          = 0;
    uint64_t       l_reg_data       = 0;
    State          l_done_state     = State::NONE;
    State          l_failed_state   = State::NONE;

    // In the P9 EDI+ Xbus unit model, polling finishes in
    //   17 loops @ 20 million cycles = 340 million cycles
    // For hardware timeout, we used what was used in p8, 1ms @ 100 cycles for
    //   a max of 100ms to complete training.
    while( ++l_loops < MAXLOOPS )
    {
        // Get Done/Failed WDERF Status
        FAPI_TRY( io::read( EDIP_RX_CTL_STAT1_E_PG, i_mtgt, i_grp, LN0, l_reg_data ) );
        l_done_state   = static_cast<State>( io::get( EDIP_RX_WDERF_DONE_ALIAS,   l_reg_data ) );
        l_failed_state = static_cast<State>( io::get( EDIP_RX_WDERF_FAILED_ALIAS, l_reg_data ) );

        // Check if all substeps are complete
        if( i_started == ( i_started & l_done_state ) )
        {
            break;
        }

        // Check if any substeps have failed.
        if( l_failed_state != State::NONE )
        {
            break;
        }

        FAPI_TRY( fapi2::delay( DELAY_1MS, DELAY_SIM_CYCLES ) );
    }

    // Check the error conditions.
    if(l_failed_state != State::NONE )
    {
        FAPI_ERR( "I/O EDI+ Xbus Link Training Failed." );
        FAPI_TRY( add_linktrain_ffdc( i_mtgt, i_stgt, i_grp, false ) );
    }
    else if( i_started != ( i_started & l_done_state ) )
    {
        FAPI_ERR( "I/O EDI+ Xbus Link Training Timeout." );
        FAPI_TRY( add_linktrain_ffdc( i_mtgt, i_stgt, i_grp, true ) );
    }
    else
    {
        FAPI_INF( "linktrain_poll: P9 I/O EDI+ Xbus Training Successful in %d loops.", l_loops );
    }

fapi_try_exit:
    FAPI_IMP( "linktrain_poll: P9 I/O EDI+ Xbus Exiting" );
    return fapi2::current_err;
}



/**
 * @brief Find which target is the master target.  If neither target is the master,
 *   then we will throw an error.  The master / slave target will be set and passed
 *   by reference.
 * @param[in]  i_tgt    Fapi2 Target
 * @param[in]  i_ctgt   Connected Fapi2 Target
 * @param[out] o_mtgt   Master Fapi2 Target
 * @param[out] o_stgt   Slave Fapi2 Target
 * @retval     ReturnCode
 */
fapi2::ReturnCode find_master_endpoint(
    const XBUS_TGT i_tgt,
    const XBUS_TGT i_ctgt,
    XBUS_TGT&      o_mtgt,
    XBUS_TGT&      o_stgt )
{
    uint8_t l_master_mode = 0;
    uint8_t l_cmaster_mode = 0;

    FAPI_IMP( "find_master_endpoint: P9 I/O EDI+ Xbus Entering" );

    FAPI_TRY( FAPI_ATTR_GET(fapi2::ATTR_IO_XBUS_MASTER_MODE, i_tgt, l_master_mode) );

    FAPI_TRY( FAPI_ATTR_GET(fapi2::ATTR_IO_XBUS_MASTER_MODE, i_ctgt, l_cmaster_mode) );

    // Check if both targets are master -- Bad
    if( l_master_mode == fapi2::ENUM_ATTR_IO_XBUS_MASTER_MODE_TRUE &&
        l_cmaster_mode == fapi2::ENUM_ATTR_IO_XBUS_MASTER_MODE_TRUE )
    {
        FAPI_ASSERT( false, fapi2::IO_XBUS_NOT_MASTER()
                     .set_TARGET( i_tgt )
                     .set_CTARGET( i_ctgt ),
                     "Both Targets have the I/O EDIP Master Mode bits set." );
    }
    // Check if the first target is a master
    else if( l_master_mode == fapi2::ENUM_ATTR_IO_XBUS_MASTER_MODE_TRUE )
    {
        FAPI_DBG( "find_master_endpoint: Target is Master" );
        o_mtgt = i_tgt;
        o_stgt = i_ctgt;
    }
    // Check if the connected target is a master
    else if( l_cmaster_mode == fapi2::ENUM_ATTR_IO_XBUS_MASTER_MODE_TRUE )
    {
        FAPI_DBG( "find_master_endpoint: Connected target is Master" );
        o_mtgt = i_ctgt;
        o_stgt = i_tgt;
    }
    // Neither target is the master -- Bad
    else
    {
        FAPI_ASSERT( false, fapi2::IO_XBUS_NOT_MASTER()
                     .set_TARGET( i_tgt )
                     .set_CTARGET( i_ctgt ),
                     "find_master_endpoint: Neither target or connected target is master." );
    }

fapi_try_exit:
    FAPI_IMP( "find_master_endpoint: P9 I/O EDI+ Xbus Exiting" );
    return fapi2::current_err;
}

/**
 * @brief Enables the Tx Serializer Sync on Xbus (EDI Plus).
 * @param[in]  i_mtgt   Master Fapi2 Target
 * @param[in]  i_stgt   Slave Fapi2 Target
 * @param[in]  i_ grp   Clock group
 * @retval     fapi2::ReturnCode
 */
fapi2::ReturnCode tx_serializer_sync_power_on(
    const XBUS_TGT i_mtgt,
    const XBUS_TGT i_stgt,
    const uint8_t  i_grp )
{
    FAPI_IMP( "tx_serializer_sync_power_on: I/O EDI+ Xbus Entering" );
    const uint8_t XBUS_LANES = 17;
    const uint8_t LN0        = 0;

    FAPI_TRY( io::rmw( EDIP_TX_CLK_UNLOAD_CLK_DISABLE, i_mtgt, i_grp, LN0, 0 ),
              "master rmw to edip_tx_clk_unload_clk_disable failed." );
    FAPI_TRY( io::rmw( EDIP_TX_CLK_UNLOAD_CLK_DISABLE, i_stgt, i_grp, LN0, 0 ),
              "slave rmw to edip_tx_clk_unload_clk_disable failed." );

    FAPI_TRY( io::rmw( EDIP_TX_CLK_RUN_COUNT, i_mtgt, i_grp, LN0, 0 ),
              "master rmw to edip_tx_clk_run_count failed." );
    FAPI_TRY( io::rmw( EDIP_TX_CLK_RUN_COUNT, i_stgt, i_grp, LN0, 0 ),
              "slave rmw to edip_tx_clk_run_count failed." );

    FAPI_TRY( io::rmw( EDIP_TX_CLK_RUN_COUNT, i_mtgt, i_grp, LN0, 1 ),
              "master rmw to edip_tx_clk_run_count failed." );
    FAPI_TRY( io::rmw( EDIP_TX_CLK_RUN_COUNT, i_stgt, i_grp, LN0, 1 ),
              "slave rmw to edip_tx_clk_run_count failed." );

    FAPI_TRY( io::rmw( EDIP_TX_CLK_UNLOAD_CLK_DISABLE, i_mtgt, i_grp, LN0, 1 ),
              "master rmw to edip_tx_clk_unload_clk_disable failed." );
    FAPI_TRY( io::rmw( EDIP_TX_CLK_UNLOAD_CLK_DISABLE, i_stgt, i_grp, LN0, 1 ),
              "slave rmw to edip_tx_clk_unload_clk_disable failed." );

    for( uint8_t lane = 0; lane < XBUS_LANES; ++lane )
    {
        FAPI_TRY( io::rmw( EDIP_TX_UNLOAD_CLK_DISABLE, i_mtgt, i_grp, lane, 0x0 ),
                  "master rmw to edip_tx_unload_clk_disable Failed" );
        FAPI_TRY( io::rmw( EDIP_TX_UNLOAD_CLK_DISABLE, i_stgt, i_grp, lane, 0x0 ),
                  "slave rmw to edip_tx_unload_clk_disable Failed" );
    }

fapi_try_exit:
    FAPI_IMP( "tx_serializer_sync_power_on: I/O EDI+ Xbus Exiting" );
    return fapi2::current_err;
}

/**
 * @brief Disables the Tx Serializer Sync on Xbus (EDI Plus).
 * @param[in]  i_mtgt   Master Fapi2 Target
 * @param[in]  i_mtgt   Slave Fapi2 Target
 * @param[in]  i_grp    Clock group
 * @retval     fapi2::ReturnCode
 */
fapi2::ReturnCode tx_serializer_sync_power_off(
    const XBUS_TGT i_mtgt,
    const XBUS_TGT i_stgt,
    const uint8_t  i_grp )
{
    FAPI_IMP( "tx_serializer_sync_power_off: I/O EDI+ Xbus Entering" );
    const uint8_t XBUS_LANES = 17;

    for( uint8_t lane = 0; lane < XBUS_LANES; ++lane )
    {
        FAPI_TRY( io::rmw( EDIP_TX_UNLOAD_CLK_DISABLE, i_mtgt, i_grp, lane, 0x1 ),
                  "master rmw to edip_tx_unload_clk_disable Failed" );
        FAPI_TRY( io::rmw( EDIP_TX_UNLOAD_CLK_DISABLE, i_stgt, i_grp, lane, 0x1 ),
                  "slave rmw to edip_tx_unload_clk_disable Failed" );
    }

fapi_try_exit:
    FAPI_IMP( "tx_serializer_sync_power_off: I/O EDI+ Xbus Exiting" );
    return fapi2::current_err;
}

/**
 * @brief Reads and Sets bad lane vector data from the
 *   passed target and stores the data in an attribute.
 * @param[in]  i_target     Fapi2 Target
 * @param[in]  i_group      Clock Group
 * @retval     ReturnCode
 */
fapi2::ReturnCode set_bad_lane_data(
    const XBUS_TGT i_tgt,
    const uint8_t  i_grp)
{
    FAPI_IMP( "P9 I/O EDI+ Xbus Entering" );
    const uint8_t LN0             = 0;
    uint64_t      l_data          = 0;
    uint32_t      l_bad_lane_data = 0;

    FAPI_TRY( io::read( EDIP_RX_LANE_BAD_VEC_0_15, i_tgt, i_grp, LN0, l_data ),
              "rmw to edip_rx_lane_bad_vec_0_15 failed." );

    l_bad_lane_data = ( io::get( EDIP_RX_LANE_BAD_VEC_0_15, l_data ) << 8 ) & 0x00FFFF00;

    FAPI_TRY( io::read( EDIP_RX_LANE_BAD_VEC_16_23, i_tgt, i_grp, LN0, l_data ),
              "rmw to edip_rx_lane_bad_vec_16_23 failed." );

    l_bad_lane_data |= ( io::get( EDIP_RX_LANE_BAD_VEC_16_23, l_data ) & 0x000000FF );

    if (i_grp == 0)
    {
        FAPI_TRY(FAPI_ATTR_SET(fapi2::ATTR_IO_XBUS_GRP0_PRE_BAD_LANE_DATA,
                               i_tgt, l_bad_lane_data));
    }
    else
    {
        FAPI_TRY(FAPI_ATTR_SET(fapi2::ATTR_IO_XBUS_GRP1_PRE_BAD_LANE_DATA,
                               i_tgt, l_bad_lane_data));
    }

fapi_try_exit:
    FAPI_IMP( "P9 I/O EDI+ Xbus Exiting" );
    return fapi2::current_err;
}

/**
 * @brief A HWP that runs on every link of the XBUS(EDI+)
 * @param[in] i_mode  Linktraining Mode
 * @param[in] i_tgt   Reference to the Master Target
 * @param[in] i_ctgt  Reference to the Slave Target
 * @param[in] i_grp   Clock Group
 * @retval    ReturnCode
 */
fapi2::ReturnCode p9_io_xbus_linktrain(
    const XBUS_TGT i_tgt,
    const XBUS_TGT i_ctgt,
    const uint8_t  i_grp )
{
    FAPI_IMP( "p9_io_xbus_linktrain: P9 I/O EDI+ Xbus Entering" );
    XBUS_TGT l_mtgt;
    XBUS_TGT l_stgt;

    char l_tgt_str[fapi2::MAX_ECMD_STRING_LEN];
    char l_ctgt_str[fapi2::MAX_ECMD_STRING_LEN];
    fapi2::toString( i_tgt,  l_tgt_str,  fapi2::MAX_ECMD_STRING_LEN );
    fapi2::toString( i_ctgt, l_ctgt_str, fapi2::MAX_ECMD_STRING_LEN );

    FAPI_DBG( "I/O Xbus Targets: Target(%s) Connected(%s) Group(%d)",
              l_tgt_str, l_ctgt_str, i_grp );

    // Find which target is the master target.  If neither target is the master,
    //   then we will throw an error.  The master / slave target will be set
    //   and passed by reference.
    FAPI_TRY( find_master_endpoint( i_tgt, i_ctgt, l_mtgt, l_stgt ),
              "Find Master Endpoint Failed" );


    // Shorten timers if we are running in simulation
    FAPI_TRY( p9_io_xbus_shorten_timers( l_mtgt, i_grp ) );
    FAPI_TRY( p9_io_xbus_shorten_timers( l_stgt, i_grp ) );


    // Record the Bad Lane Vectors Prior to link training.
    FAPI_TRY(set_bad_lane_data(l_mtgt, i_grp),
             "Pre Training: Get Bad Lane Vector Failed on Master");


    FAPI_TRY(set_bad_lane_data(l_stgt, i_grp),
             "Pre Training: Get Bad Lane Vector Failed on Slave");


    // Clock Serializer Init -- isn't strictly necessary but does line up the
    //   clock serializer counter wit the data slices.
    FAPI_TRY( tx_serializer_sync_power_on( l_mtgt, l_stgt, i_grp ),
              "tx_serializer_sync_power_on Failed." );


    // Start Slave/Master Target Link Training
    FAPI_TRY( linktrain_start( l_stgt, i_grp, State::WDERF ),
              "P9 IO Xbus Linktrain Start Slave Training Failed" );
    FAPI_TRY( linktrain_start( l_mtgt, i_grp, State::WDERF ),
              "P9 IO Xbus Linktrain Start Master Training Failed." );


    // Poll for Training to Complete on Master Target
    FAPI_TRY( linktrain_poll( l_mtgt, l_stgt, i_grp, State::WDERF ),
              "P9 IO Xbus Linktrain Polling Failed" );


    // >> HW390103 -- Leave Tx Unload Clock Disable Off
    //// Disable the Tx Serializer Sync
    //FAPI_TRY( tx_serializer_sync_power_off( l_mtgt, l_stgt, i_grp ),
    //          "tx_serializer_sync_power_off Failed.");
    // << HW390103 -- Leave Tx Unload Clock Disable Off

fapi_try_exit:
    FAPI_IMP( "p9_io_xbus_linktrain: P9 I/O EDI+ Xbus Exiting" );
    return fapi2::current_err;
}