path: root/src/import/chips/p9/procedures/hwp/memory/lib/dimm/rcd_load.C

/* IBM_PROLOG_BEGIN_TAG                                                   */
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/* $Source: src/import/chips/p9/procedures/hwp/memory/lib/dimm/rcd_load.C $ */
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///
/// @file rcd_load.C
/// @brief Run and manage the RCD_LOAD engine
///
// *HWP HWP Owner: Jacob Harvey <jlharvey@us.ibm.com>
// *HWP HWP Backup: Andre Marin <aamarin@us.ibm.com>
// *HWP Team: Memory
// *HWP Level: 3
// *HWP Consumed by: FSP:HB

#include <fapi2.H>

#include <mss.H>
#include <lib/dimm/rcd_load.H>
#include <lib/dimm/rcd_load_ddr4.H>
#include <generic/memory/lib/utils/find.H>

using fapi2::TARGET_TYPE_MCBIST;
using fapi2::TARGET_TYPE_MCA;
using fapi2::TARGET_TYPE_MCS;
using fapi2::TARGET_TYPE_DIMM;

using fapi2::FAPI2_RC_SUCCESS;

namespace mss
{

///
/// @brief Perform the rcd_load operations - TARGET_TYPE_MCBIST specialization
/// @param[in] i_target, a fapi2::Target<TARGET_TYPE_MCBIST>
/// @return FAPI2_RC_SUCCESS if and only if ok
///
template<>
fapi2::ReturnCode rcd_load<TARGET_TYPE_MCBIST>( const fapi2::Target<TARGET_TYPE_MCBIST>& i_target )
{
    // A vector of CCS instructions. We'll ask the targets to fill it, and then we'll execute it
    ccs::program<TARGET_TYPE_MCBIST> l_program;

    uint8_t l_sim = 0;
    // Clear the initial delays. This will force the CCS engine to recompute the delay based on the
    // instructions in the CCS instruction vector
    l_program.iv_poll.iv_initial_delay = 0;
    l_program.iv_poll.iv_initial_sim_delay = 0;

    FAPI_TRY(mss::is_simulation(l_sim));

    for ( const auto& p : mss::find_targets<TARGET_TYPE_MCA>(i_target) )
    {
        for ( const auto& d : mss::find_targets<TARGET_TYPE_DIMM>(p) )
        {
            // CKE needs to be LOW before running the RCW sequence
            // So we use the power down entry command to achieve this
            if(!l_sim)
            {
                l_program.iv_instructions.push_back( ccs::pde_command<TARGET_TYPE_MCBIST>() );
            }

            FAPI_DBG("rcd load for %s", mss::c_str(d));
            FAPI_TRY( perform_rcd_load(d, l_program.iv_instructions),
                      "Failed perform_rcd_load() for %s", mss::c_str(d) );
        }// dimms

        // We have to configure the CCS engine to let it know which port these instructions are
        // going out (or whether it's broadcast ...) so lets execute the instructions we presently
        // have so that we kind of do this by port
        FAPI_TRY( ccs::execute(i_target, l_program, p),
                  "Failed to execute ccs for %s", mss::c_str(p) );
    }// ports

fapi_try_exit:
    return fapi2::current_err;
}

///
/// @brief Perform the rcd_load operations - unknown DIMM case
/// @param[in] i_target, a fapi2::Target<TARGET_TYPE_DIMM>
/// @param[in] a vector of CCS instructions we should add to (unused)
/// @return FAPI2_RC_SUCCESS if and only if ok
///
template<>
fapi2::ReturnCode perform_rcd_load<DEFAULT_KIND>( const fapi2::Target<TARGET_TYPE_DIMM>& i_target,
        std::vector< ccs::instruction_t<TARGET_TYPE_MCBIST> >& i_inst)
{
    uint8_t l_type = 0;
    uint8_t l_gen = 0;

    FAPI_TRY( mss::eff_dimm_type(i_target, l_type) );
    FAPI_TRY( mss::eff_dram_gen(i_target, l_gen) );

    // If we're here, we have a problem. The DIMM kind (type and/or generation) wasn't known
    // to our dispatcher. We have a DIMM plugged in we don't know how to deal with.
    FAPI_ASSERT(false,
                fapi2::MSS_UNKNOWN_DIMM()
                .set_DIMM_TYPE(l_type)
                .set_DRAM_GEN(l_gen)
                .set_DIMM_IN_ERROR(i_target),
                "Unable to perform rcd load on %s: unknown type (%d) or generation (%d)",
                mss::c_str(i_target), l_type, l_gen);

fapi_try_exit:
    return fapi2::current_err;
}

///
/// @brief Perform the rcd_load operations - RDIMM DDR4
/// @param[in] i_target, a fapi2::Target<TARGET_TYPE_DIMM>
/// @param[in] a vector of CCS instructions we should add to
/// @return FAPI2_RC_SUCCESS if and only if ok
///
template<>
fapi2::ReturnCode perform_rcd_load<KIND_RDIMM_DDR4>( const fapi2::Target<TARGET_TYPE_DIMM>& i_target,
        std::vector< ccs::instruction_t<TARGET_TYPE_MCBIST> >& i_inst)
{
    FAPI_DBG("perform rcd_load for %s [expecting rdimm (ddr4)]", mss::c_str(i_target));
    FAPI_TRY( rcd_load_ddr4(i_target, i_inst),
              "Failed rcd_load_ddr4() for %s", mss::c_str(i_target) );

fapi_try_exit:
    return fapi2::current_err;
}

///
/// @brief Perform the rcd_load operations - LRDIMM DDR4
/// @param[in] i_target, a fapi2::Target<TARGET_TYPE_DIMM>
/// @param[in] a vector of CCS instructions we should add to
/// @return FAPI2_RC_SUCCESS if and only if ok
///
template<>
fapi2::ReturnCode perform_rcd_load<KIND_LRDIMM_DDR4>( const fapi2::Target<TARGET_TYPE_DIMM>& i_target,
        std::vector< ccs::instruction_t<TARGET_TYPE_MCBIST> >& i_inst)
{
    FAPI_DBG("perform rcd_load for %s [expecting lrdimm (ddr4)]", mss::c_str(i_target));
    FAPI_TRY( rcd_load_ddr4(i_target, i_inst) );

fapi_try_exit:
    return fapi2::current_err;
}


///
/// @brief Perform the rcd_load operations - start the dispatcher
/// @param[in] i_target, a fapi2::Target<TARGET_TYPE_DIMM>
/// @param[in] a vector of CCS instructions we should add to
/// @return FAPI2_RC_SUCCESS if and only if ok
///
template<>
fapi2::ReturnCode perform_rcd_load<FORCE_DISPATCH>( const fapi2::Target<TARGET_TYPE_DIMM>& i_target,
        std::vector< ccs::instruction_t<TARGET_TYPE_MCBIST> >& i_inst)
{
    uint8_t l_type = 0;
    uint8_t l_gen = 0;

    FAPI_TRY( mss::eff_dimm_type(i_target, l_type) );
    FAPI_TRY( mss::eff_dram_gen(i_target, l_gen) );

    return perform_rcd_load_dispatch<FORCE_DISPATCH>(dimm_kind( l_type, l_gen ), i_target, i_inst);

fapi_try_exit:
    FAPI_ERR("couldn't get dimm type, dram gen: %s", mss::c_str(i_target));
    return fapi2::current_err;
}

} // namespace