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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/import/chips/p9/procedures/hwp/memory/p9_mss_freq.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2015,2017 */
/* [+] 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 p9_mss_freq.C
/// @brief Calculate and save off DIMM frequencies
///
// *HWP HWP Owner: Andre Marin <aamarin@us.ibm.com>
// *HWP HWP Backup: Jacob Harvey <jlharvey@us.ibm.com>
// *HWP Team: Memory
// *HWP Level: 3
// *HWP Consumed by: FSP:HB
//----------------------------------------------------------------------
// Includes
//----------------------------------------------------------------------
#include <p9_mss_freq.H>
// std lib
#include <map>
#include <utility>
// fapi2
#include <fapi2.H>
// mss lib
#include <generic/memory/lib/spd/common/ddr4/spd_decoder_ddr4.H>
#include <lib/spd/spd_factory.H>
#include <lib/freq/cas_latency.H>
#include <lib/freq/sync.H>
#include <generic/memory/lib/utils/c_str.H>
#include <generic/memory/lib/utils/find.H>
#include <lib/utils/count_dimm.H>
#include <generic/memory/lib/utils/index.H>
#include <lib/shared/mss_const.H>
using fapi2::TARGET_TYPE_MCS;
using fapi2::TARGET_TYPE_MCA;
using fapi2::TARGET_TYPE_DIMM;
using fapi2::TARGET_TYPE_MCBIST;
using fapi2::FAPI2_RC_SUCCESS;
extern "C"
{
///
/// @brief Calculate and save off DIMM frequencies
/// @param[in] i_target, the controller (e.g., MCS)
/// @return FAPI2_RC_SUCCESS iff ok
///
fapi2::ReturnCode p9_mss_freq( const fapi2::Target<TARGET_TYPE_MCS>& i_target )
{
// TODO RTC:161701 p9_mss_freq needs to be re-worked to work per-MC as it's hard
// (if not impossible) to know the appropriate freq if we don't have information
// for both MCS. Setting one to max freq doesn't work in the case of 0 DIMM as
// there is no check for other freq's and we end up setting the chosen freq to
// the default.
// So for now, iterate over all the MCBIST. This isn't great as we do this work
// twice for every MC. However, attribute access is cheap so this will suffice for
// the time being.
std::vector< std::vector<uint64_t> > l_min_dimm_freq(mss::MCS_PER_MC, std::vector<uint64_t> (mss::PORTS_PER_MCS, 0) );
const auto& l_mcbist = mss::find_target<TARGET_TYPE_MCBIST>(i_target);
// If there are no DIMM, we can just get out.
if (mss::count_dimm(l_mcbist) == 0)
{
FAPI_INF("Seeing no DIMM on %s, no freq to set", mss::c_str(l_mcbist));
return FAPI2_RC_SUCCESS;
}
for (const auto& l_mcs : mss::find_targets<TARGET_TYPE_MCS>(l_mcbist))
{
const auto l_mcs_index = mss::index(l_mcs);
std::vector< std::pair< uint64_t, fapi2::Target<fapi2::TARGET_TYPE_MCA>> > l_desired_cas_latency;
for (const auto& l_mca : mss::find_targets<TARGET_TYPE_MCA>(l_mcs) )
{
const auto l_index = mss::index(l_mca);
// Get cached decoder
std::vector< std::shared_ptr<mss::spd::decoder> > l_factory_caches;
FAPI_TRY( mss::spd::populate_decoder_caches(l_mca, l_factory_caches),
"%s. Failed to populate decoder cache", mss::c_str(l_mca) );
{
// instantiation of class that calculates CL algorithm
fapi2::ReturnCode l_rc;
mss::cas_latency l_cas_latency( l_mca, l_factory_caches, l_rc );
FAPI_TRY( l_rc, "%s. Failed to initialize cas_latency ctor", mss::c_str(l_mca) );
if(l_cas_latency.iv_dimm_list_empty)
{
// Cannot fail out for an empty DIMM configuration, so default values are set
FAPI_INF("%s. DIMM list is empty! Setting default values for CAS latency and DIMM speed.",
mss::c_str(l_mca) );
}
else
{
// We set this to a non-0 so we avoid divide-by-zero errors in the conversions which
// go from clocks to time (and vice versa.) We have other bugs if there was really
// no MT/s determined and there really is a DIMM installed, so this is ok.
// We pick the maximum frequency supported by the system as the default.
uint64_t l_desired_cl = 0;
l_min_dimm_freq[l_mcs_index][l_index] = fapi2::ENUM_ATTR_MSS_FREQ_MT2666;
uint64_t l_tCKmin = 0;
// Find CAS latency using JEDEC algorithm
FAPI_TRY( l_cas_latency.find_cl(l_desired_cl, l_tCKmin) );
FAPI_INF("%s. Result from CL algorithm, CL (nck): %d, tCK (ps): %d",
mss::c_str(l_mca), l_desired_cl, l_tCKmin);
l_desired_cas_latency.push_back(std::make_pair(l_desired_cl, l_mca) );
// Find dimm transfer speed from selected tCK
FAPI_TRY( mss::ps_to_freq(l_tCKmin, l_min_dimm_freq[l_mcs_index][l_index]),
"%s. Failed ps_to_freq()", mss::c_str(l_mca) );
FAPI_INF("DIMM speed from selected tCK (ps): %d for %s",
l_min_dimm_freq[l_mcs_index][l_index],
mss::c_str(l_mca));
FAPI_TRY(mss::select_supported_freq(l_mca, l_min_dimm_freq[l_mcs_index][l_index]),
"Failed select_supported_freq() for %s", mss::c_str(l_mca));
FAPI_INF("%s. Selected DIMM speed from supported speeds: %d",
mss::c_str(l_mca), l_min_dimm_freq[l_mcs_index][l_index]);
}// end else
} // close scope
} // End
FAPI_TRY(mss::set_CL_attr(l_mcs, l_desired_cas_latency),
"%s. Failed set_CL_attr()", mss::c_str(i_target) );
} // close for each mcs
FAPI_TRY(mss::set_freq_attrs(l_mcbist, l_min_dimm_freq),
"%s. Failed set_freq_attrs()", mss::c_str(i_target) );
fapi_try_exit:
return fapi2::current_err;
}// p9_mss_freq
}// extern C
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