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|
/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/hwpf/hwp/mc_config/mc_config.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* COPYRIGHT International Business Machines Corp. 2012,2014 */
/* */
/* 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 mc_config.C
*
* Support file for IStep: mc_config
* Step 12 MC Config
*
* *****************************************************************
* THIS FILE WAS GENERATED ON 2012-03-01:1032
* *****************************************************************
*
* HWP_IGNORE_VERSION_CHECK
*
*/
/******************************************************************************/
// Includes
/******************************************************************************/
#include <stdint.h>
#include <trace/interface.H>
#include <initservice/taskargs.H>
#include <errl/errlentry.H>
#include <hwpisteperror.H>
#include <errl/errludtarget.H>
#include <initservice/isteps_trace.H>
// targeting support
#include <targeting/common/commontargeting.H>
#include <targeting/common/utilFilter.H>
// fapi support
#include <fapi.H>
#include <fapiPlatHwpInvoker.H>
#include "mc_config.H"
#include "mss_volt/mss_volt.H"
#include "mss_freq/mss_freq.H"
#include "mss_eff_config/mss_eff_config.H"
#include "mss_eff_config/mss_eff_config_thermal.H"
#include "mss_eff_config/mss_eff_grouping.H"
#include "mss_eff_config/opt_memmap.H"
#include "mss_attr_cleanup/mss_attr_cleanup.H"
#include "mss_eff_mb_interleave/mss_eff_mb_interleave.H"
namespace MC_CONFIG
{
using namespace ISTEP;
using namespace ISTEP_ERROR;
using namespace ERRORLOG;
using namespace TARGETING;
using namespace fapi;
//
// Wrapper function to call host_collect_dimm_spd
//
void* call_host_collect_dimm_spd( void *io_pArgs )
{
errlHndl_t l_err = NULL;
IStepError l_stepError;
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"call_host_collect_dimm_spd entry" );
// Get a list of all present Centaurs
TargetHandleList l_presCentaurs;
getChipResources(l_presCentaurs, TYPE_MEMBUF, UTIL_FILTER_PRESENT);
// Associated MBA targets
TARGETING::TargetHandleList l_mbaList;
// Define predicate for associated MBAs
PredicateCTM predMba(CLASS_UNIT, TYPE_MBA);
PredicatePostfixExpr presMba;
PredicateHwas predPres;
predPres.present(true);
presMba.push(&predMba).push(&predPres).And();
for (TargetHandleList::const_iterator
l_cenIter = l_presCentaurs.begin();
l_cenIter != l_presCentaurs.end();
++l_cenIter)
{
// make a local copy of the target for ease of use
TARGETING::Target * l_pCentaur = *l_cenIter;
// Retrieve HUID of current Centaur
TARGETING::ATTR_HUID_type l_currCentaurHuid =
TARGETING::get_huid(l_pCentaur);
// Dump current run on target
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"Running mss_attr_cleanup HWP on "
"target HUID %.8X", l_currCentaurHuid);
// find all present MBAs associated with this Centaur
TARGETING::TargetHandleList l_presMbas;
targetService().getAssociated(l_presMbas,
l_pCentaur,
TargetService::CHILD,
TargetService::IMMEDIATE,
&presMba);
// If not at least two MBAs found
if (l_presMbas.size() < 2)
{
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"Not enough MBAs found for Centaur target HUID %.8X, "
"skipping this Centaur.",
l_currCentaurHuid);
continue;
}
// Create FAPI Targets.
const fapi::Target l_fapiCentaurTarget(TARGET_TYPE_MEMBUF_CHIP,
(const_cast<TARGETING::Target*>(l_pCentaur)));
const fapi::Target l_fapiMba0Target(TARGET_TYPE_MBA_CHIPLET,
(const_cast<TARGETING::Target*>(l_presMbas[0])));
const fapi::Target l_fapiMba1Target(TARGET_TYPE_MBA_CHIPLET,
(const_cast<TARGETING::Target*>(l_presMbas[1])));
// call the HWP with each fapi::Target
FAPI_INVOKE_HWP(l_err, mss_attr_cleanup, l_fapiCentaurTarget,
l_fapiMba0Target, l_fapiMba1Target);
if (l_err)
{
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"ERROR 0x%.8X: mss_attr_cleanup HWP returns error",
l_err->reasonCode());
// capture the target data in the elog
ErrlUserDetailsTarget(l_pCentaur).addToLog(l_err);
// Create IStep error log and cross reference error that occurred
l_stepError.addErrorDetails(l_err);
// Commit Error
errlCommit(l_err, HWPF_COMP_ID);
}
else
{
// Success
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"Successfully ran mss_attr_cleanup HWP on "
"CENTAUR target HUID %.8X "
"and associated MBAs",
l_currCentaurHuid);
}
}
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"call_host_collect_dimm_spd exit" );
// end task, returning any errorlogs to IStepDisp
return l_stepError.getErrorHandle();
}
//
// Wrapper function to call mss_volt
//
void* call_mss_volt( void *io_pArgs )
{
errlHndl_t l_err = NULL;
IStepError l_StepError;
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace, "call_mss_volt entry" );
TARGETING::TargetHandleList l_membufTargetList;
getAllChips(l_membufTargetList, TYPE_MEMBUF);
//get a list of unique VmemIds
std::vector<TARGETING::ATTR_VMEM_ID_type> l_VmemList;
for (TargetHandleList::const_iterator
l_membuf_iter = l_membufTargetList.begin();
l_membuf_iter != l_membufTargetList.end();
++l_membuf_iter)
{
TARGETING::ATTR_VMEM_ID_type l_VmemID =
(*l_membuf_iter)->getAttr<ATTR_VMEM_ID>();
l_VmemList.push_back(l_VmemID);
}
std::sort(l_VmemList.begin(), l_VmemList.end());
std::vector<TARGETING::ATTR_VMEM_ID_type>::iterator objItr;
objItr=std::unique(l_VmemList.begin(), l_VmemList.end());
l_VmemList.erase(objItr,l_VmemList.end());
//for each unique VmemId filter it out of the list of membuf targets
//to create a subsetlist of membufs with just that vmemid
std::vector<TARGETING::ATTR_VMEM_ID_type>::iterator l_vmem_iter;
for (l_vmem_iter = l_VmemList.begin();
l_vmem_iter != l_VmemList.end();
++l_vmem_iter)
{
// declare a vector of fapi targets to pass to mss_volt
std::vector<fapi::Target> l_membufFapiTargets;
for (TargetHandleList::const_iterator
l_membuf_iter = l_membufTargetList.begin();
l_membuf_iter != l_membufTargetList.end();
++l_membuf_iter)
{
// make a local copy of the target for ease of use
const TARGETING::Target* l_membuf_target = *l_membuf_iter;
if (l_membuf_target->getAttr<ATTR_VMEM_ID>()==*l_vmem_iter)
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"===== add to fapi::Target vector vmem_id=0x%08X "
"target HUID %.8X",
l_membuf_target->getAttr<ATTR_VMEM_ID>(),
TARGETING::get_huid(l_membuf_target));
fapi::Target l_membuf_fapi_target(fapi::TARGET_TYPE_MEMBUF_CHIP,
(const_cast<TARGETING::Target*>(l_membuf_target)) );
l_membufFapiTargets.push_back( l_membuf_fapi_target );
}
}
//now have the a list of fapi membufs with just the one VmemId
//call the HWP on the list of fapi targets
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"===== mss_volt HWP( vector )" );
FAPI_INVOKE_HWP(l_err, mss_volt, l_membufFapiTargets);
// process return code.
if ( l_err )
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"ERROR 0x%.8X: mss_volt HWP( ) ", l_err->reasonCode());
// Create IStep error log and cross reference to error that occurred
l_StepError.addErrorDetails( l_err );
// Commit Error
errlCommit( l_err, HWPF_COMP_ID );
}
else
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"SUCCESS : mss_volt HWP( )" );
}
} // endfor
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace, "call_mss_volt exit" );
return l_StepError.getErrorHandle();
}
//
// Wrapper function to call mss_freq
//
void* call_mss_freq( void *io_pArgs )
{
errlHndl_t l_err = NULL;
IStepError l_StepError;
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace, "call_mss_freq entry" );
TARGETING::TargetHandleList l_membufTargetList;
getAllChips(l_membufTargetList, TYPE_MEMBUF);
for (TargetHandleList::const_iterator
l_membuf_iter = l_membufTargetList.begin();
l_membuf_iter != l_membufTargetList.end();
++l_membuf_iter)
{
// make a local copy of the target for ease of use
const TARGETING::Target* l_membuf_target = *l_membuf_iter;
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"===== mss_freq HWP "
"target HUID %.8X",
TARGETING::get_huid(l_membuf_target));
// call the HWP with each target ( if parallel, spin off a task )
// $$const fapi::Target l_fapi_membuf_target(
fapi::Target l_fapi_membuf_target(fapi::TARGET_TYPE_MEMBUF_CHIP,
(const_cast<TARGETING::Target*>(l_membuf_target)) );
FAPI_INVOKE_HWP(l_err, mss_freq, l_fapi_membuf_target);
// process return code.
if ( l_err )
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"ERROR 0x%.8X: mss_freq HWP ",
l_err->reasonCode());
// capture the target data in the elog
ErrlUserDetailsTarget(l_membuf_target).addToLog( l_err );
// Create IStep error log and cross reference to error that occurred
l_StepError.addErrorDetails( l_err );
// Commit Error
errlCommit( l_err, HWPF_COMP_ID );
}
else
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"SUCCESS : mss_freq HWP");
}
} // End memBuf loop
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace, "call_mss_freq exit" );
return l_StepError.getErrorHandle();
}
errlHndl_t call_mss_eff_grouping()
{
errlHndl_t l_err = NULL;
TARGETING::TargetHandleList l_procsList;
getAllChips(l_procsList, TYPE_PROC);
for (TargetHandleList::const_iterator
l_proc_iter = l_procsList.begin();
l_proc_iter != l_procsList.end();
++l_proc_iter)
{
// make a local copy of the target for ease of use
const TARGETING::Target* l_cpu_target = *l_proc_iter;
// print call to hwp and write HUID of the target(s)
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"===== mss_eff_grouping HWP cpu "
"target HUID %.8X",
TARGETING::get_huid(l_cpu_target));
// cast OUR type of target to a FAPI type of target.
const fapi::Target l_fapi_cpu_target(fapi::TARGET_TYPE_PROC_CHIP,
(const_cast<TARGETING::Target*>(l_cpu_target)) );
TARGETING::TargetHandleList l_membufsList;
getChildAffinityTargets(l_membufsList, l_cpu_target,
CLASS_CHIP, TYPE_MEMBUF);
std::vector<fapi::Target> l_associated_centaurs;
for (TargetHandleList::const_iterator
l_membuf_iter = l_membufsList.begin();
l_membuf_iter != l_membufsList.end();
++l_membuf_iter)
{
// make a local copy of the target for ease of use
const TARGETING::Target* l_pTarget = *l_membuf_iter;
// cast OUR type of target to a FAPI type of target.
const fapi::Target l_fapi_centaur_target(fapi::TARGET_TYPE_MEMBUF_CHIP,
(const_cast<TARGETING::Target*>(l_pTarget)) );
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"target HUID %.8X", TARGETING::get_huid(l_pTarget));
l_associated_centaurs.push_back(l_fapi_centaur_target);
}
FAPI_INVOKE_HWP(l_err, mss_eff_grouping,
l_fapi_cpu_target, l_associated_centaurs);
// process return code.
if ( l_err )
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"ERROR 0x%.8X: mss_eff_grouping HWP",
l_err->reasonCode());
// capture the target data in the elog
ErrlUserDetailsTarget(l_cpu_target).addToLog(l_err);
break; // break out mba loop
}
else
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"SUCCESS : mss_eff_grouping HWP");
}
} // endfor
return l_err;
}
errlHndl_t call_opt_memmap( bool i_initBase )
{
errlHndl_t l_err = NULL;
TARGETING::TargetHandleList l_procs;
getAllChips(l_procs, TYPE_PROC);
std::vector<fapi::Target> l_fapi_procs;
for ( TARGETING::TargetHandleList::const_iterator
l_iter = l_procs.begin();
l_iter != l_procs.end();
++l_iter )
{
// make a local copy of the target for ease of use
const TARGETING::Target* l_target = *l_iter;
// cast OUR type of target to a FAPI type of target.
const fapi::Target l_fapi_target(fapi::TARGET_TYPE_PROC_CHIP,
(const_cast<TARGETING::Target*>(l_target)) );
l_fapi_procs.push_back(l_fapi_target);
}
FAPI_INVOKE_HWP(l_err, opt_memmap, l_fapi_procs, i_initBase);
if ( l_err )
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"ERROR 0x%.8X: opt_memmap HWP", l_err->reasonCode());
}
else
{
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"SUCCESS : opt_memmap HWP");
}
return l_err;
}
//
// Wrapper function to call mss_eff_config
//
void* call_mss_eff_config( void *io_pArgs )
{
errlHndl_t l_err = NULL;
IStepError l_StepError;
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace, "call_mss_eff_config entry" );
// Get all functional MBA chiplets
TARGETING::TargetHandleList l_mbaTargetList;
getAllChiplets(l_mbaTargetList, TYPE_MBA);
// Iterate over all MBAs, calling mss_eff_config and mss_eff_config_thermal
for (TargetHandleList::const_iterator l_mba_iter = l_mbaTargetList.begin();
l_mba_iter != l_mbaTargetList.end(); ++l_mba_iter)
{
// Get the TARGETING::Target pointer and its HUID
const TARGETING::Target* l_mba_target = *l_mba_iter;
uint32_t l_huid = TARGETING::get_huid(l_mba_target);
// Create a FAPI target representing the MBA
const fapi::Target l_fapi_mba_target(fapi::TARGET_TYPE_MBA_CHIPLET,
(const_cast<TARGETING::Target*>(l_mba_target)));
// Call the mss_eff_config HWP
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"===== mss_eff_config HWP. MBA HUID %.8X", l_huid);
FAPI_INVOKE_HWP(l_err, mss_eff_config, l_fapi_mba_target);
if (l_err)
{
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"ERROR 0x%.8X: mss_eff_config HWP ", l_err->reasonCode());
// Ensure istep error created and has same plid as this error
ErrlUserDetailsTarget(l_mba_target).addToLog(l_err);
l_StepError.addErrorDetails(l_err);
errlCommit(l_err, HWPF_COMP_ID);
}
else
{
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"SUCCESS : mss_eff_config HWP");
// Call the mss_eff_config_thermal HWP
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"===== mss_eff_config_thermal HWP. MBA HUID %.8X", l_huid);
FAPI_INVOKE_HWP(l_err, mss_eff_config_thermal, l_fapi_mba_target);
if (l_err)
{
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"ERROR 0x%.8X: mss_eff_config_thermal HWP ", l_err->reasonCode());
// Ensure istep error created and has same plid as this error
ErrlUserDetailsTarget(l_mba_target).addToLog(l_err);
l_StepError.addErrorDetails(l_err);
errlCommit(l_err, HWPF_COMP_ID);
}
else
{
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"SUCCESS : mss_eff_config_thermal HWP");
}
}
}
if (l_StepError.isNull())
{
// Flush out BASE attributes to starting values
l_err = call_opt_memmap(true);
if (!l_err)
{
// Stack the memory on each chip
l_err = call_mss_eff_grouping();
if (!l_err)
{
// Move the BASES around to the real final values
l_err = call_opt_memmap(false);
if (!l_err)
{
// Stack the memory again based on system-wide positions
l_err = call_mss_eff_grouping();
}
}
}
if (l_err)
{
// Ensure istep error created and has same plid as this error
l_StepError.addErrorDetails( l_err );
errlCommit( l_err, HWPF_COMP_ID );
}
}
// Calling mss_eff_mb_interleave
if (l_StepError.isNull())
{
TARGETING::TargetHandleList l_membufTargetList;
getAllChips(l_membufTargetList, TYPE_MEMBUF);
for (TargetHandleList::const_iterator
l_membuf_iter = l_membufTargetList.begin();
l_membuf_iter != l_membufTargetList.end();
++l_membuf_iter)
{
const TARGETING::Target* l_membuf_target = *l_membuf_iter;
TRACFCOMP( ISTEPS_TRACE::g_trac_isteps_trace,
"===== Running mss_eff_mb_interleave HWP on HUID %.8X",
TARGETING::get_huid(l_membuf_target));
fapi::Target l_membuf_fapi_target(fapi::TARGET_TYPE_MEMBUF_CHIP,
(const_cast<TARGETING::Target*>(l_membuf_target)) );
FAPI_INVOKE_HWP(l_err, mss_eff_mb_interleave, l_membuf_fapi_target);
if (l_err)
{
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"ERROR 0x%.8X: mss_eff_mb_interleave HWP returns error",
l_err->reasonCode());
ErrlUserDetailsTarget(l_membuf_target).addToLog(l_err);
l_StepError.addErrorDetails(l_err);
errlCommit(l_err, HWPF_COMP_ID);
}
else
{
TRACFCOMP(ISTEPS_TRACE::g_trac_isteps_trace,
"Successfully ran mss_eff_mb_interleave HWP on HUID %.8X",
TARGETING::get_huid(l_membuf_target));
}
}
}
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace, "call_mss_eff_config exit" );
return l_StepError.getErrorHandle();
}
//
// Wrapper function to call mss_attr_update
//
void* call_mss_attr_update( void *io_pArgs )
{
IStepError l_StepError;
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace, "call_mss_attr_update entry");
TRACDCOMP( ISTEPS_TRACE::g_trac_isteps_trace, "call_mss_attr_update exit" );
return l_StepError.getErrorHandle();
}
}; // end namespace
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