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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/import/chips/p9/procedures/hwp/memory/lib/workarounds/seq_workarounds.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2017 */
/* [+] International Business Machines Corp. */
/* */
/* */
/* Licensed under the Apache License, Version 2.0 (the "License"); */
/* you may not use this file except in compliance with the License. */
/* You may obtain a copy of the License at */
/* */
/* http://www.apache.org/licenses/LICENSE-2.0 */
/* */
/* Unless required by applicable law or agreed to in writing, software */
/* distributed under the License is distributed on an "AS IS" BASIS, */
/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
/* implied. See the License for the specific language governing */
/* permissions and limitations under the License. */
/* */
/* IBM_PROLOG_END_TAG */
///
/// @file workarounds/seq_workarounds.C
/// @brief Workarounds for the SEQ logic blocks
/// Workarounds are very deivce specific, so there is no attempt to generalize
/// this code in any way.
///
// *HWP HWP Owner: Louis Stermole <stermole@us.ibm.com>
// *HWP HWP Backup: Stephen Glancy <sglancy@us.ibm.com>
// *HWP Team: Memory
// *HWP Level: 2
// *HWP Consumed by: FSP:HB
#include <fapi2.H>
#include <p9_mc_scom_addresses.H>
#include <generic/memory/lib/utils/scom.H>
#include <lib/workarounds/seq_workarounds.H>
namespace mss
{
namespace workarounds
{
namespace seq
{
///
/// @brief ODT Config workaround
/// For Nimbus DD1, ODT2 and ODT3 bits are swapped in each of the PHY config registers
/// @param[in] i_target the fapi2 target of the port
/// @return fapi2::ReturnCode FAPI2_RC_SUCCESS if ok
/// @note This function is called during the phy scom init procedure, after the initfile is
/// processed.
///
fapi2::ReturnCode odt_config( const fapi2::Target<fapi2::TARGET_TYPE_MCA>& i_target )
{
// skip the workaroud if attribute is not set
if (! mss::chip_ec_feature_mss_odt_config(i_target) )
{
return fapi2::FAPI2_RC_SUCCESS;
}
FAPI_INF("Running ODT Config workaround on %s", mss::c_str(i_target));
std::vector<fapi2::buffer<uint64_t>> l_read;
static const std::vector<uint64_t> ODT_REGS =
{
MCA_DDRPHY_SEQ_ODT_RD_CONFIG0_P0, MCA_DDRPHY_SEQ_ODT_RD_CONFIG1_P0,
MCA_DDRPHY_SEQ_ODT_WR_CONFIG0_P0, MCA_DDRPHY_SEQ_ODT_WR_CONFIG1_P0
};
FAPI_TRY(mss::scom_suckah(i_target, ODT_REGS, l_read));
for (auto& l_data : l_read)
{
// Note these bit positions are the same in RD_CONFIG* and WR_CONFIG*
constexpr uint64_t EVEN_RANK_ODT2 = 50;
constexpr uint64_t EVEN_RANK_ODT3 = 51;
constexpr uint64_t ODD_RANK_ODT2 = 58;
constexpr uint64_t ODD_RANK_ODT3 = 59;
bool l_odt2 = 0;
bool l_odt3 = 0;
// swap even rank ODT2 and ODT3
l_odt2 = l_data.getBit<EVEN_RANK_ODT2>();
l_odt3 = l_data.getBit<EVEN_RANK_ODT3>();
l_data.writeBit<EVEN_RANK_ODT2>(l_odt3).writeBit<EVEN_RANK_ODT3>(l_odt2);
// swap odd rank ODT2 and ODT3
l_odt2 = l_data.getBit<ODD_RANK_ODT2>();
l_odt3 = l_data.getBit<ODD_RANK_ODT3>();
l_data.writeBit<ODD_RANK_ODT2>(l_odt3).writeBit<ODD_RANK_ODT3>(l_odt2);
}
FAPI_TRY(mss::scom_blastah(i_target, ODT_REGS, l_read));
fapi_try_exit:
return fapi2::current_err;
}
} // close namespace seq
} // close namespace workarounds
} // close namespace mss
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