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|
/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/sbe/sbe_update.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2013,2014 */
/* [+] Google Inc. */
/* [+] 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 */
#include <vector>
#include <trace/interface.H>
#include <vpd/mvpdenums.H>
#include <errl/errlentry.H>
#include <errl/errlmanager.H>
#include <errl/errludtarget.H>
#include <errl/errlreasoncodes.H>
#include <targeting/common/predicates/predicatectm.H>
#include <targeting/common/utilFilter.H>
#include <targeting/common/targetservice.H>
#include <util/align.H>
#include <util/crc32.H>
#include <util/misc.H>
#include <errno.h>
#include <pnor/pnorif.H>
#include <pnor/ecc.H>
#include <devicefw/driverif.H>
#include <sys/mm.h>
#include <sys/misc.h>
#include <sys/msg.h>
#include <hwas/common/deconfigGard.H>
#include <initservice/initserviceif.H>
#include <config.h>
#include <sbe/sbeif.H>
#include <sbe/sbereasoncodes.H>
#include "sbe_update.H"
// fapi support
#include <fapi.H>
#include <fapiHwpExecutor.H>
#include <hwpf/plat/fapiPlatHwpInvoker.H>
#include <hwpf/plat/fapiPlatTrace.H>
//Procedures
#include <p8_xip_customize.H>
#include <sbe_xip_image.h>
#include <p8_image_help_base.H>
// ----------------------------------------------
// Trace definitions
// ----------------------------------------------
trace_desc_t* g_trac_sbe = NULL;
TRAC_INIT( & g_trac_sbe, SBE_COMP_NAME, KILOBYTE );
// ------------------------
// Macros for unit testing
//#define TRACUCOMP(args...) TRACFCOMP(args)
#define TRACUCOMP(args...)
// ----------------------------------------
// Global Variables for MBOX Ipl Query
static bool g_mbox_query_done = false;
static bool g_mbox_query_result = false;
static bool g_istep_mode = false;
using namespace ERRORLOG;
using namespace TARGETING;
namespace SBE
{
enum {
SBE_IMG_VADDR = VMM_VADDR_SBE_UPDATE,
RING_BUF1_VADDR = FIXED_SEEPROM_WORK_SPACE + SBE_IMG_VADDR,
RING_BUF2_VADDR = RING_BUF1_VADDR + FIXED_RING_BUF_SIZE,
//NOTE: recycling the same memory space for different
//steps in the process.
SBE_ECC_IMG_VADDR = RING_BUF1_VADDR,
SBE_ECC_IMG_MAX_SIZE = VMM_VADDR_SBE_UPDATE_END - SBE_ECC_IMG_VADDR,
};
/////////////////////////////////////////////////////////////////////
errlHndl_t updateProcessorSbeSeeproms()
{
errlHndl_t err = NULL;
errlHndl_t err_cleanup = NULL;
sbeTargetState_t sbeState;
std::vector<sbeTargetState_t> sbeStates_vector;
bool l_cleanupVmmSpace = false;
bool l_restartNeeded = false;
TRACUCOMP( g_trac_sbe,
ENTER_MRK"updateProcessorSbeSeeproms()" );
do{
// Get Target Service, and the system target.
TargetService& tS = targetService();
TARGETING::Target* sys = NULL;
(void) tS.getTopLevelTarget( sys );
assert(sys, "updateProcessorSbeSeeproms() system target is NULL");
/*****************************************************************/
/* Skip Update if MNFG_FLAG_FSP_UPDATE_SBE_IMAGE is set */
/* AND there is a FSP present */
/*****************************************************************/
ATTR_MNFG_FLAGS_type mnfg_flags = sys->getAttr<ATTR_MNFG_FLAGS>();
if ( (mnfg_flags & MNFG_FLAG_FSP_UPDATE_SBE_IMAGE)
&& INITSERVICE::spBaseServicesEnabled() // true => FSP present
)
{
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update skipped due to "
"FSP present and MNFG_FLAG_FSP_UPDATE_SBE_IMAGE "
"(0x%.16X) is set in MNFG Flags 0x%.16X",
MNFG_FLAG_FSP_UPDATE_SBE_IMAGE, mnfg_flags);
break;
}
// For a future check, determine if in istep mode and FSP is present
if ( sys->getAttr<ATTR_ISTEP_MODE>() && // true => istep mode
INITSERVICE::spBaseServicesEnabled() ) // true => FSP present
{
g_istep_mode = true;
}
//Make sure procedure constants keep within expected range.
assert((FIXED_SEEPROM_WORK_SPACE <= VMM_SBE_UPDATE_SIZE/2),
"updateProcessorSbeSeeproms() FIXED_SEEPROM_WORK_SPACE "
"too large");
assert((FIXED_RING_BUF_SIZE <= VMM_SBE_UPDATE_SIZE/4),
"updateProcessorSbeSeeproms() FIXED_RING_BUF_SIZE too "
"large");
// reset global variables for MBOX Ipl Query
g_mbox_query_done = false;
g_mbox_query_result = false;
// Create VMM space for p8_xip_customize() procedure
err = createSbeImageVmmSpace();
if (err)
{
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): "
"createSbeImageVmmSpace() Failed. ",
"rc=0x%.4X", err->reasonCode() );
break;
}
else
{
// Make sure cleanup gets called
l_cleanupVmmSpace = true;
}
/*****************************************************************/
/* Iterate over all the functional processors and do for each: */
/* 1) Check their SBE State (PNOR, MVPD, SEEPROMs, etc), */
/* 2) Determine the Necessary Update */
/* 3) Perform Update Action */
/*****************************************************************/
TARGETING::TargetHandleList procList;
TARGETING::getAllChips(procList,
TARGETING::TYPE_PROC,
true); // true: return functional targets
if( ( 0 == procList.size() ) ||
( NULL == procList[0] ) )
{
TRACFCOMP( g_trac_sbe, ERR_MRK"updateProcessorSbeSeeproms() - "
"No functional processors Found!" );
break;
}
// Get the Master Proc Chip Target for comparisons later
TARGETING::Target* masterProcChipTargetHandle = NULL;
err = tS.queryMasterProcChipTargetHandle(
masterProcChipTargetHandle);
if (err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"updateProcessorSbeSeeproms() - "
"queryMasterProcChipTargetHandle returned error. "
"Commit here and continue. Check below against "
"masterProcChipTargetHandle=NULL is ok");
errlCommit( err, SBE_COMP_ID );
err = NULL;
}
#ifdef CONFIG_NO_SBE_UPDATES
TRACFCOMP( g_trac_sbe, INFO_MRK"updateProcessorSbeSeeproms() - "
"SBE updates not configured");
break;
#endif
for(uint32_t i=0; i<procList.size(); i++)
{
/*********************************************/
/* Collect SBE Information for this Target */
/*********************************************/
memset(&sbeState, 0, sizeof(sbeState));
sbeState.target = procList[i];
TRACUCOMP( g_trac_sbe, "updateProcessorSbeSeeproms(): "
"Main Loop: tgt=0x%X, i=%d",
TARGETING::get_huid(sbeState.target), i)
// Check to see if current target is master processor
if ( sbeState.target == masterProcChipTargetHandle)
{
TRACUCOMP(g_trac_sbe,"sbeState.target=0x%X is MASTER. "
" (i=%d)",
TARGETING::get_huid(sbeState.target), i);
sbeState.target_is_master = true;
}
else
{
sbeState.target_is_master = false;
}
err = getSbeInfoState(sbeState);
if (err)
{
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): "
"getSbeInfoState() Failed "
"rc=0x%.4X, Target UID=0x%X",
err->reasonCode(),
TARGETING::get_huid(sbeState.target));
// Don't break - handle error at the end of the loop
}
/**********************************************/
/* Determine update actions for this target */
/**********************************************/
// Skip if we got an error collecting SBE Info State
if ( err == NULL )
{
err = getTargetUpdateActions(sbeState);
if (err)
{
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): "
"getTargetUpdateActions() Failed "
"rc=0x%.4X, Target UID=0x%X",
err->reasonCode(),
TARGETING::get_huid(sbeState.target));
// Don't break - handle error at the end of the loop,
}
}
/**********************************************/
/* Perform Update Actions For This Target */
/**********************************************/
if ((err == NULL) && (sbeState.update_actions & DO_UPDATE))
{
err = performUpdateActions(sbeState);
if (err)
{
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): "
"performUpdateActions() Failed "
"rc=0x%.4X, Target UID=0x%X",
err->reasonCode(),
TARGETING::get_huid(sbeState.target));
// Don't break - handle error at the end of the loop,
}
else
{
// Target updated without failure, so set IPL_RESTART
// flag, if necessary
if (sbeState.update_actions & IPL_RESTART)
{
l_restartNeeded = true;
}
}
}
if ( err )
{
// Something failed for this target.
// Save error information
sbeState.err_plid = err->plid();
sbeState.err_eid = err->eid();
sbeState.err_rc = err->reasonCode();
// Commit the error here and move on to the next target,
// or if no targets left, will just continue the IPL
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): "
"Committing Error Log rc=0x%.4X eid=0x%.8X "
"plid=0x%.8X for Target UID=0x%X, but "
"continuing procedure",
sbeState.err_rc, sbeState.err_eid,
sbeState.err_plid,
TARGETING::get_huid(sbeState.target));
errlCommit( err, SBE_COMP_ID );
}
// Push this sbeState onto the vector
sbeStates_vector.push_back(sbeState);
} //end of Target for loop collecting each target's SBE State
/**************************************************************/
/* Perform System Operation */
/**************************************************************/
// Restart IPL if SBE Update requires it
if ( l_restartNeeded == true )
{
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): Restart "
"Needed (%d). Calling preReIplCheck()",
l_restartNeeded);
err = preReIplCheck(sbeStates_vector);
if ( err )
{
// Something failed on the check. Commit the error here
// and continue with the Re-IPL Request
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): "
"Committing Error Log rc=0x%.4X from "
"preReIplCheck(), but doing Re-IPL",
err->reasonCode());
errlCommit( err, SBE_COMP_ID );
}
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): Calling "
"INITSERVICE::doShutdown() with "
"SBE_UPDATE_REQUEST_REIPL = 0x%X",
SBE_UPDATE_REQUEST_REIPL );
INITSERVICE::doShutdown(SBE_UPDATE_REQUEST_REIPL);
}
/************************************************************/
/* Deconfigure any Processors that have a Version different */
/* from the Master Processor's Version */
/************************************************************/
err = masterVersionCompare(sbeStates_vector);
if ( err )
{
// Something failed on the check
TRACFCOMP( g_trac_sbe,
INFO_MRK"updateProcessorSbeSeeproms(): Call to "
"masterVersionCompare() failed rc=0x%.4X",
err->reasonCode());
}
}while(0);
// Cleanup VMM Workspace
if ( l_cleanupVmmSpace == true )
{
err_cleanup = cleanupSbeImageVmmSpace();
if ( err_cleanup != NULL )
{
if ( err != NULL )
{
// 2 error logs, so commit the cleanup log here
TRACFCOMP( g_trac_sbe,
ERR_MRK"updateProcessorSbeSeeproms(): Previous "
"error (rc=0x%X) before cleanupSbeImageVmmSpace"
"() failed. Committing cleanup error (rc=0x%X) "
"and returning original error",
err->reasonCode(), err_cleanup->reasonCode() );
errlCommit( err_cleanup, SBE_COMP_ID );
}
else
{
// no previous error, so returning cleanup error
TRACFCOMP( g_trac_sbe,
ERR_MRK"updateProcessorSbeSeeproms(): "
"cleanupSbeImageVmmSpace() failed.",
"rc=0x%.4X", err_cleanup->reasonCode() );
err = err_cleanup;
}
}
}
TRACUCOMP( g_trac_sbe,
EXIT_MRK"updateProcessorSbeSeeproms()" );
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t findSBEInPnor(TARGETING::Target* i_target,
void*& o_imgPtr,
size_t& o_imgSize,
sbe_image_version_t* o_version)
{
errlHndl_t err = NULL;
PNOR::SectionInfo_t pnorInfo;
sbeToc_t* sbeToc = NULL;
uint8_t ec = 0;
PNOR::SectionId pnorSectionId = PNOR::INVALID_SECTION;
void* hdr_Ptr = NULL;
o_imgPtr = NULL;
o_imgSize = 0;
TRACDCOMP( g_trac_sbe,
ENTER_MRK"findSBEInPnor()" );
do{
// Get the correct PNOR Section Id
if ( i_target->getAttr<ATTR_TYPE>() == TYPE_PROC )
{
pnorSectionId = PNOR::SBE_IPL;
}
else if ( i_target->getAttr<ATTR_TYPE>() == TYPE_MEMBUF )
{
pnorSectionId = PNOR::CENTAUR_SBE;
}
else
{
// Unsopported target type was passed in
TRACFCOMP( g_trac_sbe, ERR_MRK"findSBEInPnor: Unsupported "
"target type was passed in: uid=0x%X, type=0x%X",
TARGETING::get_huid(i_target),
i_target->getAttr<ATTR_TYPE>());
/*@
* @errortype
* @moduleid SBE_FIND_IN_PNOR
* @reasoncode SBE_INVALID_INPUT
* @userdata1 Target Unit Id
* @userdata2 Target Type
* @devdesc Unsupported Target Type passed in
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_FIND_IN_PNOR,
SBE_INVALID_INPUT,
TARGETING::get_huid(i_target),
i_target->getAttr<ATTR_TYPE>());
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
// Get SBE PNOR section info from PNOR RP
err = PNOR::getSectionInfo( pnorSectionId,
pnorInfo );
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"findSBEInPnor: Error calling "
"PNOR::getSectionInfo() rc=0x%.4X",
err->reasonCode() );
break;
}
TRACUCOMP( g_trac_sbe,
INFO_MRK"findSBEInPnor: UID=0x%X, sectionId=0x%X. "
"pnor vaddr = 0x%.16X",
TARGETING::get_huid(i_target),
pnorSectionId, pnorInfo.vaddr);
sbeToc = reinterpret_cast<sbeToc_t*>( pnorInfo.vaddr );
if (sbeToc->eyeCatch != SBETOC_EYECATCH)
{
//The SBE partition does not have the proper eyecatcher
TRACFCOMP( g_trac_sbe, ERR_MRK"findSBEInPnor: SBE partition "
"does not have the proper eyecatcher: was: 0x%X, "
"should be: 0x%X",
sbeToc->eyeCatch, SBETOC_EYECATCH );
TRACFBIN( g_trac_sbe, "sbeToc", sbeToc, sizeof(sbeToc_t));
/*@
* @errortype
* @moduleid SBE_FIND_IN_PNOR
* @reasoncode SBE_INVALID_EYECATCHER
* @userdata1 SBE TOC EYE-CATCHER
* @userdata2 Expected EYE-CATCHER
* @devdesc Unsupported EYE-CATCHER found in TOC
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_FIND_IN_PNOR,
SBE_INVALID_EYECATCHER,
sbeToc->eyeCatch,
SBETOC_EYECATCH);
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
else
{
//Check the TOC Version
if( SUPPORTED_TOC_VER != sbeToc->tocVersion)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"findSBEInPnor: Unsupported "
"SBE TOC Version in SBE Partition" );
TRACFBIN( g_trac_sbe, "sbeToc", sbeToc, sizeof(sbeToc_t));
/*@
* @errortype
* @moduleid SBE_FIND_IN_PNOR
* @reasoncode SBE_UNSUPPORTED_TOC
* @userdata1[0:31] CHIP EC
* @userdata1[32:63] Expected TOC Version
* @userdata2[0:31] SBE TOC Version
* @userdata2[32:63] SBE TOC EyeCatch
* @devdesc SBE partition contains unsupported version
* of Table of Contents
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_FIND_IN_PNOR,
SBE_UNSUPPORTED_TOC,
TWO_UINT32_TO_UINT64(ec,
SUPPORTED_TOC_VER),
TWO_UINT32_TO_UINT64(sbeToc->tocVersion,
sbeToc->eyeCatch));
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
//Walk the TOC and find our current EC
ec = i_target->getAttr<TARGETING::ATTR_EC>();
for(uint32_t i=0; i<MAX_SBE_ENTRIES; i++)
{
if(static_cast<uint32_t>(ec) == sbeToc->entries[i].ec)
{
// EC found in TOC
uint64_t offset = pnorInfo.vaddr
+ static_cast<uint64_t>(sbeToc->entries[i].offset);
hdr_Ptr = reinterpret_cast<void*>( offset );
o_imgSize = sbeToc->entries[i].size;
TRACUCOMP( g_trac_sbe, INFO_MRK"findSBEInPnor: Found "
"EC Image: ec=0x%.2X offset=0x%.16X, i=%d "
"size=0x%X",
ec, offset, i, o_imgSize );
break;
}
}
}
if(NULL == hdr_Ptr)
{
//if we get here, it's an error
TRACFCOMP( g_trac_sbe,ERR_MRK"findSBEInPnor:SBE Image not "
"located, ec=0x%.2X",ec );
TRACFBIN( g_trac_sbe, "sbeToc", sbeToc, sizeof(sbeToc_t));
/*@
* @errortype
* @moduleid SBE_FIND_IN_PNOR
* @reasoncode SBE_EC_NOT_FOUND
* @userdata1[0:31] CHIP EC
* @userdata1[32:63] PNOR Section ID
* @userdata2[0:31] SBE TOC Version
* @userdata2[32:63] SBE TOC EyeCatch
* @devdesc SBE image for current chip EC was not found
* in PNOR
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_FIND_IN_PNOR,
SBE_EC_NOT_FOUND,
TWO_UINT32_TO_UINT64(ec,
pnorSectionId),
TWO_UINT32_TO_UINT64(sbeToc->tocVersion,
sbeToc->eyeCatch));
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
// The SBE Image for the corresponding EC was found, check if
// it includes a SBE Header
if (pnorInfo.sha512perEC)
{
TRACFCOMP(g_trac_sbe,INFO_MRK"findSBEInPnor: sha512perEC Found in %s", pnorInfo.name);
// Advance PNOR pointer 4k to move it past header page to the
// start of the non-customized SBE image
o_imgPtr = reinterpret_cast<void*>
(reinterpret_cast<char*>(hdr_Ptr)+0x1000);
}
if(NULL != o_version)
{
err = readPNORVersion(hdr_Ptr,
*o_version);
if(err)
{
break;
}
}
}while(0);
TRACDCOMP( g_trac_sbe,
EXIT_MRK"findSBEInPnor(): o_imgPtr=%p, o_imgSize=0x%X",
o_imgPtr, o_imgSize );
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t procCustomizeSbeImg(TARGETING::Target* i_target,
void* i_sbePnorPtr,
size_t i_maxImgSize,
void* io_imgPtr,
size_t& o_actImgSize)
{
errlHndl_t err = NULL;
fapi::ReturnCode rc_fapi = fapi::FAPI_RC_SUCCESS;
uint32_t coreMask = 0x0000FFFF;
size_t maxCores = P8_MAX_EX_PER_PROC;
int coreCount = 0;
uint32_t procIOMask = 0;
uint32_t tmpImgSize = static_cast<uint32_t>(i_maxImgSize);
bool procedure_success = false;
TRACUCOMP( g_trac_sbe,
ENTER_MRK"procCustomizeSbeImg(): uid=0x%X, i_sbePnorPtr= "
"%p, maxS=0x%X, io_imgPtr=%p",
TARGETING::get_huid(i_target), i_sbePnorPtr,
i_maxImgSize, io_imgPtr);
do{
// cast OUR type of target to a FAPI type of target.
const fapi::Target
l_fapiTarg(fapi::TARGET_TYPE_PROC_CHIP,
(const_cast<TARGETING::Target*>(i_target)));
// The p8_xip_customize() procedure tries to include as much core
// information as possible, but is limited by SBE Image size
// constraints.
// First, maximize core mask for the target
// Then loop on the procedure call, where the loop is designed to
// remove the number of cores passed into p8_xip_customize() until
// an image can be created successfully.
// Maximize Core mask for this target
err = selectBestCores(i_target,
maxCores,
coreMask);
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"procCustomizeSbeImg() - "
"selectBestCores() failed rc=0x%X. "
"MaxCores=0x%.8X. HUID=0x%X. Aborting "
"Customization of SBE Image",
err->reasonCode(), maxCores,
TARGETING::get_huid(i_target));
break;
}
// setup loop parameters
coreCount = __builtin_popcount(coreMask);
procIOMask = coreMask;
while( coreCount >= 0 )
{
FAPI_EXEC_HWP( rc_fapi,
p8_xip_customize,
l_fapiTarg,
i_sbePnorPtr, //image in
io_imgPtr, //image out
tmpImgSize,
0, //IPL
0, //HB/IPL
(void*)RING_BUF1_VADDR,
(uint32_t)FIXED_RING_BUF_SIZE,
(void*)RING_BUF2_VADDR,
(uint32_t)FIXED_RING_BUF_SIZE,
procIOMask);
// Check the return code
if ( !rc_fapi )
{
// Procedure was successful
procedure_success = true;
o_actImgSize = static_cast<size_t>(tmpImgSize);
TRACUCOMP( g_trac_sbe, "procCustomizeSbeImg(): "
"p8_xip_customize success=%d, procIOMask=0x%X "
"o_actImgSize=0x%X, rc_fapi=0x%X",
procedure_success, procIOMask, o_actImgSize,
uint32_t(rc_fapi));
// exit loop
break;
}
else
{
// Look for a specific return code
if ( static_cast<uint32_t>(rc_fapi) ==
fapi::RC_PROC_XIPC_OVERFLOW_BEFORE_REACHING_MINIMUM_EXS
)
{
// This is a specific return code from p8_xip_customize
// where the cores sent in couldn't fit, but possibly
// a different procIOMask would work
TRACFCOMP( g_trac_sbe,
ERR_MRK"procCustomizeSbeImg(): FAPI_EXEC_HWP("
"p8_xip_customize) returned rc=0x%X, "
"XIPC_OVERFLOW_BEFORE_REACHING_MINIMUM_EXS-Retry "
"MaxCores=0x%.8X. HUID=0x%X. coreMask=0x%.8X, "
"procIOMask=0x%.8X. coreCount=%d",
uint32_t(rc_fapi), maxCores,
TARGETING::get_huid(i_target),
coreMask, procIOMask, coreCount);
// Setup for next loop - update coreMask
err = selectBestCores(i_target,
--coreCount,
procIOMask);
if ( err )
{
TRACFCOMP(g_trac_sbe,
ERR_MRK"procCustomizeSbeImg() - "
"selectBestCores() failed rc=0x%X. "
"coreCount=0x%.8X. HUID=0x%X. Aborting "
"Customization of SBE Image",
err->reasonCode(), coreCount,
TARGETING::get_huid(i_target));
// break from while loop
break;
}
TRACFCOMP( g_trac_sbe, "procCustomizeSbeImg(): for "
"next loop: procIOMask=0x%.8X, coreMask="
"0x%.8X, coreCount=%d",
procIOMask, coreMask, coreCount);
// No break - keep looping
}
else
{
// Unexpected return code - create err and fail
TRACFCOMP( g_trac_sbe,
ERR_MRK"procCustomizeSbeImg(): FAPI_EXEC_HWP("
"p8_xip_customize) failed with rc=0x%X, "
"MaxCores=0x%X. HUID=0x%X. coreMask=0x%.8X, "
"procIOMask=0x%.8X. coreCount=%d. Create "
"err and break loop",
uint32_t(rc_fapi), maxCores,
TARGETING::get_huid(i_target),
coreMask, procIOMask, coreCount);
err = fapiRcToErrl(rc_fapi);
ERRORLOG::ErrlUserDetailsTarget(i_target,
"Proc Target")
.addToLog(err);
err->collectTrace(SBE_COMP_NAME, 256);
// break from while loop
break;
}
}
} // end of while loop
if(err)
{
// There was a previous error, so break here
break;
}
if ( procedure_success == false )
{
// No err, but exit from while loop before successful
TRACFCOMP( g_trac_sbe, ERR_MRK"procCustomizeSbeImg() - "
"Failure to successfully complete p8_xip_customize()"
". HUID=0x%X, rc=0x%X, coreCount=%d, coreMask=0x%.8X"
" procIOMask=0x%.8X, maxCores=0x%X",
TARGETING::get_huid(i_target), uint32_t(rc_fapi),
coreCount, coreMask, procIOMask, maxCores);
/*@
* @errortype
* @moduleid SBE_CUSTOMIZE_IMG
* @reasoncode SBE_P8_XIP_CUSTOMIZE_UNSUCCESSFUL
* @userdata1[0:31] procIOMask in/out parameter
* @userdata1[32:63] rc of procedure
* @userdata2[0:31] coreMask of target
* @userdata2[32:63] coreCount - updated on the loops
* @devdesc Unsuccessful in creating Customized SBE Image
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_CUSTOMIZE_IMG,
SBE_P8_XIP_CUSTOMIZE_UNSUCCESSFUL,
TWO_UINT32_TO_UINT64(procIOMask,
uint32_t(rc_fapi)),
TWO_UINT32_TO_UINT64(coreMask,
coreCount));
ErrlUserDetailsTarget(i_target
).addToLog(err);
err->collectTrace("FAPI", 256);
err->collectTrace(SBE_COMP_NAME, 256);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
}
}while(0);
TRACUCOMP( g_trac_sbe,
EXIT_MRK"procCustomizeSbeImg(): io_imgPtr=%p, "
"o_actImgSize=0x%X, rc_fapi=0x%X, procedure_success=%d",
io_imgPtr, o_actImgSize, uint32_t(rc_fapi),
procedure_success );
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t selectBestCores(TARGETING::Target* i_target,
size_t i_maxExs,
uint32_t& o_exMask)
{
TRACUCOMP( g_trac_sbe,
ENTER_MRK"selectBestCores(i_maxCores=0x%.8X)",
i_maxExs);
errlHndl_t err = NULL;
uint32_t manGuardExs = 0x00000000;
uint32_t remainingExs = 0x00000000;
uint32_t exCount = 0;
uint32_t deconfigByEid = 0;
o_exMask = 0x00000000;
do{
// Special case: if i_maxExs == 0 don't loop through EXs
if (unlikely(i_maxExs == 0 ))
{
break;
}
// find all EX chiplets of the proc
TARGETING::TargetHandleList l_exTargetList;
TARGETING::getChildChiplets( l_exTargetList,
i_target,
TARGETING::TYPE_EX,
false); // return all
//Sort through cores
for ( TargetHandleList::const_iterator
l_iterEX = l_exTargetList.begin();
l_iterEX != l_exTargetList.end();
++l_iterEX )
{
// make a local copy of the EX target
const TARGETING::Target* l_ex_target = *l_iterEX;
if( !(l_ex_target->
getAttr<TARGETING::ATTR_HWAS_STATE>().present) )
{
// not present, so skip and continue
continue;
}
uint8_t chipUnit = l_ex_target->
getAttr<TARGETING::ATTR_CHIP_UNIT>();
if(l_ex_target->
getAttr<TARGETING::ATTR_HWAS_STATE>().functional)
{
o_exMask |= (0x00008000 >> chipUnit);
exCount++;
}
else
{
//If non-functional due to FCO or Manual gard,
//add it to list of exs to include if
//more are needed
deconfigByEid = l_ex_target->
getAttr<TARGETING::ATTR_HWAS_STATE>().
deconfiguredByEid;
if(
// FCO
(deconfigByEid ==
HWAS::DeconfigGard::DECONFIGURED_BY_FIELD_CORE_OVERRIDE)
|| // Manual GARD
(deconfigByEid ==
HWAS::DeconfigGard::DECONFIGURED_BY_MANUAL_GARD)
)
{
manGuardExs |= (0x00008000 >> chipUnit);
}
// Add it to the 'remaining' list in case
// more are needed
else
{
remainingExs |= (0x00008000 >> chipUnit);
}
}
} // end ex target loop
if(exCount == i_maxExs)
{
//We've found the exact amount, break out of function
break;
}
else if(exCount > i_maxExs)
{
//We have too many, so need to trim
o_exMask = trimBitMask(o_exMask,
i_maxExs);
break;
}
else
{
// We need to add 'other' cores
TRACUCOMP( g_trac_sbe,INFO_MRK"selectBestCores: non-functional "
"cores needed for bit mask: exCount=%d, i_maxExs=%d,"
" o_exMask=0x%.8X, manGuardExs=0x%.8X, "
"remainingExs=0x%.8X",
exCount, i_maxExs, o_exMask, manGuardExs,
remainingExs );
}
// Add more 'good' exs.
manGuardExs = trimBitMask(manGuardExs,
i_maxExs-exCount);
o_exMask |= manGuardExs;
exCount = __builtin_popcount(o_exMask);
TRACUCOMP( g_trac_sbe,INFO_MRK"selectBestCores: trimBitMask "
"manGuardExs=0x%.8X", manGuardExs);
if(exCount >= i_maxExs)
{
//We've found enough, break out of function
break;
}
// If we still need more, add 'remaining' exs
// Get Target Service
// System target check done earlier, so no assert check necessary
TargetService& tS = targetService();
TARGETING::Target* sys = NULL;
(void) tS.getTopLevelTarget( sys );
uint32_t min_exs = sys->getAttr<ATTR_SBE_IMAGE_MINIMUM_VALID_EXS>();
if ( exCount < min_exs )
{
remainingExs = trimBitMask(remainingExs,
min_exs-exCount);
o_exMask |= remainingExs;
TRACUCOMP( g_trac_sbe,INFO_MRK"selectBestCores: trimBitMask "
"remainingExs=0x%.8X, min_exs=%d",
remainingExs, min_exs);
}
}while(0);
TRACUCOMP( g_trac_sbe,
EXIT_MRK"selectBestCores(o_exMask=0x%.8X)",
o_exMask);
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t getSetMVPDVersion(TARGETING::Target* i_target,
opType_t i_op,
mvpdSbKeyword_t& io_sb_keyword)
{
errlHndl_t err = NULL;
size_t vpdSize = 0;
TRACUCOMP( g_trac_sbe,
ENTER_MRK"getSetMVPDVersion(i_op=%d)", i_op );
do{
// Read SB Keyword which contains SBE version and dirty bit
// information
// Note: First read with NULL for o_buffer sets vpdSize to the
// correct length
err = deviceRead( i_target,
NULL,
vpdSize,
DEVICE_MVPD_ADDRESS( MVPD::CP00,
MVPD::SB ) );
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSetMVPDVersion() - MVPD "
"failure getting SB keywordw size HUID=0x%.8X",
TARGETING::get_huid(i_target));
break;
}
if(vpdSize != MVPD_SB_RECORD_SIZE)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSetMVPDVersion() - MVPD SB "
"keyword wrong length HUID=0x%.8X, length=0x.2X, "
"expected=0x.2x",
TARGETING::get_huid(i_target), vpdSize,
MVPD_SB_RECORD_SIZE);
/*@
* @errortype
* @moduleid SBE_GETSET_MVPD_VERSION
* @reasoncode SBE_MVPD_LEN_INVALID
* @userdata1 Discovered VPD Size
* @userdata2 Expected VPD Size
* @devdesc SB Keyword in MVPD has invalid size
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_GETSET_MVPD_VERSION,
SBE_MVPD_LEN_INVALID,
TO_UINT64(vpdSize),
TO_UINT64(MVPD_SB_RECORD_SIZE));
ErrlUserDetailsTarget(i_target
).addToLog(err);
err->collectTrace(SBE_COMP_NAME, 256);
err->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_HIGH );
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_MED );
break;
}
if(i_op == MVPDOP_READ)
{
err = deviceRead( i_target,
reinterpret_cast<void*>( &io_sb_keyword ),
vpdSize,
DEVICE_MVPD_ADDRESS( MVPD::CP00,
MVPD::SB ) );
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSetMVPDVersion() - MVPD "
"failure reading SB keyword data HUID=0x%.8X",
TARGETING::get_huid(i_target));
break;
}
TRACDBIN(g_trac_sbe, "MVPD:SB:r", &io_sb_keyword, vpdSize);
}
else //write
{
TRACDBIN(g_trac_sbe, "MVPD:SB:w", &io_sb_keyword, vpdSize);
err = deviceWrite( i_target,
reinterpret_cast<void*>( &io_sb_keyword ),
vpdSize,
DEVICE_MVPD_ADDRESS( MVPD::CP00,
MVPD::SB ) );
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSetMVPDVersion() - MVPD "
"failure writing SB keyword data HUID=0x%.8X",
TARGETING::get_huid(i_target));
break;
}
}
}while(0);
TRACUCOMP( g_trac_sbe,
EXIT_MRK"getSetMVPDVersion()" );
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t readPNORVersion(void*& i_pnorImgHdrPtr,
sbe_image_version_t& o_version)
{
errlHndl_t err = NULL;
TRACDCOMP( g_trac_sbe,
ENTER_MRK"readPNORVersion()" );
do{
// @todo RTC 34080 - support Secure Boot Header
//For Non-secure systems, version is prefixed with
//'VERSION\0' in ASCII in the 4k header. The official
//protocol is to scan for VERSION, then grab the value
//that follows.
char* tmpPtr = static_cast<char*>(i_pnorImgHdrPtr);
//Last reasonable offset is (Version size +
//size of eyecatcher) bytes from end of Page.
char* endPtr = tmpPtr +(4*KILOBYTE) -
sizeof(sbe_image_version_t&) -
sizeof(NONSECURE_VER_EYECATCH);
// Increment pointer sizeof(uint64_t) because eyecatcher
// must be 8-byte alligned
for(; tmpPtr<endPtr; tmpPtr+=sizeof(uint64_t))
{
if(*(reinterpret_cast<uint64_t*>(tmpPtr)) ==
NONSECURE_VER_EYECATCH)
{
//increment 8 more bytes and break out
tmpPtr+=sizeof(uint64_t);
break;
}
}
if(tmpPtr < endPtr)
{
memcpy(reinterpret_cast<void*>( &o_version ),
tmpPtr,
sizeof(o_version));
}
else
{
TRACFCOMP( g_trac_sbe, ERR_MRK"readPNORVersion() - VERSION not found in SBE image in PNOR");
/*@
* @errortype
* @moduleid SBE_READ_PNOR_VERSION
* @reasoncode SBE_VERSION_NOT_FOUND
* @userdata1 Not Used
* @userdata2 Not Used
* @devdesc Image Version not found in PNOR
* SBE image.
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_READ_PNOR_VERSION,
SBE_VERSION_NOT_FOUND,
0, 0);
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_SP_CODE,
HWAS::SRCI_PRIORITY_HIGH );
}
}while(0);
TRACDCOMP( g_trac_sbe,
EXIT_MRK"readPNORVersion()" );
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t getSbeBootSeeprom(TARGETING::Target* i_target,
sbeSeepromSide_t& o_bootSide)
{
TRACUCOMP( g_trac_sbe,
ENTER_MRK"getSbeBootSeeprom()" );
errlHndl_t err = NULL;
uint64_t scomData = 0x0;
o_bootSide = SBE_SEEPROM0;
do{
size_t op_size = sizeof(scomData);
err = deviceRead( i_target,
&scomData,
op_size,
DEVICE_SCOM_ADDRESS(SBE_VITAL_REG_0x0005001C) );
if( err )
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSbeBootSeeprom() -Error "
"reading SBE VITAL REG (0x%.8X) from Target :"
"HUID=0x%.8X",
SBE_VITAL_REG_0x0005001C,
TARGETING::get_huid(i_target));
break;
}
if(scomData & SBE_BOOT_SELECT_MASK)
{
o_bootSide = SBE_SEEPROM1;
}
}while(0);
TRACUCOMP( g_trac_sbe,
EXIT_MRK"getSbeBootSeeprom(): o_bootSide=0x%X (reg=0x%X)",
o_bootSide, scomData );
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t getSbeInfoState(sbeTargetState_t& io_sbeState)
{
TRACUCOMP( g_trac_sbe,
ENTER_MRK"getSbeInfoState(): HUID=0x%.8X",
TARGETING::get_huid(io_sbeState.target));
errlHndl_t err = NULL;
do{
/************************************************************/
/* Set Target Properties (target_is_master previously set) */
/************************************************************/
io_sbeState.ec = io_sbeState.target->getAttr<TARGETING::ATTR_EC>();
/*******************************************/
/* Get PNOR SBE Version Information */
/*******************************************/
void* sbePnorPtr = NULL;
size_t sbePnorImageSize = 0;
sbe_image_version_t tmp_pnorVersion;
err = findSBEInPnor(io_sbeState.target,
sbePnorPtr,
sbePnorImageSize,
&tmp_pnorVersion);
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSbeInfoState() - "
"Error getting SBE Version from PNOR");
break;
}
// copy tmp_pnorVersion to the main structure
memcpy ( &io_sbeState.pnorVersion,
&tmp_pnorVersion,
sizeof(tmp_pnorVersion));
/*******************************************/
/* Customize SBE Image from PNOR and */
/* Calculate CRC of the image */
/*******************************************/
size_t sbeImgSize = 0;
err = procCustomizeSbeImg(io_sbeState.target,
sbePnorPtr, //SBE vaddr in PNOR
FIXED_SEEPROM_WORK_SPACE, //max size
reinterpret_cast<void*>
(SBE_IMG_VADDR), //destination
sbeImgSize);
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSbeInfoState() - "
"Error from procCustomizeSbeImg()");
break;
}
io_sbeState.customizedImage_size = sbeImgSize;
io_sbeState.customizedImage_crc =
Util::crc32_calc(reinterpret_cast<void*>
(SBE_IMG_VADDR),
sbeImgSize) ;
TRACUCOMP( g_trac_sbe, "getSbeInfoState() - procCustomizeSbeImg(): "
"maxSize=0x%X, actSize=0x%X, crc=0x%X",
FIXED_SEEPROM_WORK_SPACE, sbeImgSize,
io_sbeState.customizedImage_crc);
/*******************************************/
/* Get MVPD SBE Version Information */
/*******************************************/
err = getSetMVPDVersion(io_sbeState.target,
MVPDOP_READ,
io_sbeState.mvpdSbKeyword);
if(err)
{
//If MVPD is bad, commit the error and move to the next proc
TRACFCOMP( g_trac_sbe, ERR_MRK"getSbeInfoState() - "
"Error reading version from MVPD");
break;
}
// Determine Permanent Side from flag in MVPD
if(SEEPROM_0_PERMANENT_VALUE ==
(io_sbeState.mvpdSbKeyword.flags & PERMANENT_FLAG_MASK))
{
io_sbeState.permanent_seeprom_side = SBE_SEEPROM0;
}
else // Side 1 must be permanent
{
io_sbeState.permanent_seeprom_side = SBE_SEEPROM1;
}
/*******************************************/
/* Get SEEPROM A SBE Version Information */
/*******************************************/
err = getSeepromSideVersion(io_sbeState.target,
EEPROM::SBE_PRIMARY,
io_sbeState.seeprom_0_ver,
io_sbeState.seeprom_0_ver_ECC_fail);
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSbeInfoState() - Error "
"getting SBE Information from SEEPROM A (0x%X)",
EEPROM::SBE_PRIMARY);
break;
}
TRACDBIN(g_trac_sbe, "getSbeInfoState-spA",
&(io_sbeState.seeprom_0_ver),
sizeof(sbeSeepromVersionInfo_t));
/*******************************************/
/* Get SEEPROM B SBE Version Information */
/*******************************************/
err = getSeepromSideVersion(io_sbeState.target,
EEPROM::SBE_BACKUP,
io_sbeState.seeprom_1_ver,
io_sbeState.seeprom_1_ver_ECC_fail);
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSbeInfoState() - Error "
"getting SBE Information from SEEPROM B (0x%X)",
EEPROM::SBE_BACKUP);
break;
}
TRACDBIN(g_trac_sbe, "getSbeInfoState-spB",
&(io_sbeState.seeprom_1_ver),
sizeof(sbeSeepromVersionInfo_t));
/***********************************************/
/* Determine which SEEPROM System Booted On */
/***********************************************/
//Get Current (boot) Side
sbeSeepromSide_t tmp_cur_side = SBE_SEEPROM_INVALID;
err = getSbeBootSeeprom(io_sbeState.target, tmp_cur_side);
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSbeInfoState() - Error returned from getSbeBootSeeprom()");
break;
}
io_sbeState.cur_seeprom_side = tmp_cur_side;
if (io_sbeState.cur_seeprom_side == SBE_SEEPROM0)
{
io_sbeState.alt_seeprom_side = SBE_SEEPROM1;
}
else if ( io_sbeState.cur_seeprom_side == SBE_SEEPROM1)
{
io_sbeState.alt_seeprom_side = SBE_SEEPROM0;
}
else
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSbeInfoState() - Error: "
"Unexpected cur_seeprom_side value = 0x%X, ",
io_sbeState.cur_seeprom_side);
/*@
* @errortype
* @moduleid SBE_GET_TARGET_INFO_STATE
* @reasoncode SBE_INVALID_SEEPROM_SIDE
* @userdata1 Temporary Current Side
* @userdata2 SBE State Current Side
* @devdesc Invalid Boot SEEPROM Side Found
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_GET_TARGET_INFO_STATE,
SBE_INVALID_SEEPROM_SIDE,
tmp_cur_side,
io_sbeState.cur_seeprom_side);
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
TRACUCOMP( g_trac_sbe,"getSbeInfoState() - cur=0x%X, alt=0x%X",
io_sbeState.cur_seeprom_side,
io_sbeState.alt_seeprom_side);
}while(0);
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t getSeepromSideVersion(TARGETING::Target* i_target,
EEPROM::eeprom_chip_types_t i_seepromSide,
sbeSeepromVersionInfo_t& o_info,
bool& o_seeprom_ver_ECC_fail)
{
TRACUCOMP( g_trac_sbe,
ENTER_MRK"getSeepromSideVersion(): HUID=0x%.8X, side:%d",
TARGETING::get_huid(i_target), i_seepromSide);
errlHndl_t err = NULL;
PNOR::ECC::eccStatus eccStatus = PNOR::ECC::CLEAN;
o_seeprom_ver_ECC_fail = false;
size_t sbeInfoSize_ECC = (sizeof(sbeSeepromVersionInfo_t)*9)/8;
size_t sbeInfoSize_ECC_aligned = ALIGN_8(sbeInfoSize_ECC);
// Create data buffer of larger size
// NOTE: EEPROM read will fill in smaller, unaligned size
uint8_t * tmp_data_ECC = static_cast<uint8_t*>(
malloc(sbeInfoSize_ECC_aligned));
do{
/*******************************************/
/* Read SBE Version SBE Version Information */
/*******************************************/
// Clear Buffer
memset( tmp_data_ECC, 0, sbeInfoSize_ECC_aligned );
//Read SBE Versions
err = deviceRead( i_target,
tmp_data_ECC,
sbeInfoSize_ECC,
DEVICE_EEPROM_ADDRESS(
i_seepromSide,
SBE_VERSION_SEEPROM_ADDRESS));
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"getSeepromSideVersion() - Error "
"reading SBE Version from Seeprom 0x%X, HUID=0x%.8X",
i_seepromSide, TARGETING::get_huid(i_target));
break;
}
TRACDBIN(g_trac_sbe,
"getSeepromSideVersion()- tmp_data_ECC (not-aligned)",
tmp_data_ECC,
sbeInfoSize_ECC);
TRACDBIN(g_trac_sbe,
"getSeepromSideVersion()- tmp_data_ECC (aligned)",
tmp_data_ECC,
sbeInfoSize_ECC_aligned);
// Clear destination
memset( &o_info, 0, sizeof(o_info) );
// Remove ECC
eccStatus = PNOR::ECC::removeECC(
tmp_data_ECC,
reinterpret_cast<uint8_t*>(&o_info),
sizeof(o_info));
TRACUCOMP( g_trac_sbe, "getSeepromSideVersion(): eccStatus=%d, "
"sizeof o_info=%d, sI_ECC=%d, sI_ECC_aligned=%d",
eccStatus, sizeof(o_info), sbeInfoSize_ECC,
sbeInfoSize_ECC_aligned);
// Handle Uncorrectable ECC - no error log:
// clear data and set o_seeprom_ver_ECC_fail=true
// -- unless SIM version found: than just ignore
if ( (eccStatus == PNOR::ECC::UNCORRECTABLE) &&
(o_info.struct_version != SBE_SEEPROM_STRUCT_SIMICS_VERSION) )
{
TRACFCOMP( g_trac_sbe,ERR_MRK"getSeepromSideVersion() - ECC "
"ERROR: Handled. eccStatus=%d, side=%d, sizeof "
"o_info=%d, sI_ECC=%d, sI_ECC_aligned=%d",
eccStatus, i_seepromSide, sizeof(o_info),
sbeInfoSize_ECC, sbeInfoSize_ECC_aligned);
memset( &o_info, 0, sizeof(o_info));
o_seeprom_ver_ECC_fail = true;
TRACUCOMP( g_trac_sbe, "getSeepromSideVersion(): clearing out "
"version data (o_info) for side %d and returning "
"o_seeprom_ver_ECC_fail as true (%d)",
i_seepromSide, o_seeprom_ver_ECC_fail);
}
TRACDBIN(g_trac_sbe,
"getSeepromSideVersion: data (no ECC)",
&o_info,
sizeof(o_info));
}while(0);
// Free allocated memory
free(tmp_data_ECC);
TRACUCOMP( g_trac_sbe,
EXIT_MRK"getSeepromSideVersion: o_seeprom_ver_ECC_fail=%d",
o_seeprom_ver_ECC_fail );
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t updateSeepromSide(sbeTargetState_t& io_sbeState)
{
TRACUCOMP( g_trac_sbe,
ENTER_MRK"updateSeepromSide(): HUID=0x%.8X, side=%d",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.seeprom_side_to_update);
errlHndl_t err = NULL;
int64_t rc = 0;
int64_t rc_readBack_ECC_memcmp = 0;
PNOR::ECC::eccStatus eccStatus = PNOR::ECC::CLEAN;
// This struct is always 8-byte aligned
size_t sbeInfoSize = sizeof(sbeSeepromVersionInfo_t);
size_t sbeInfoSize_ECC = (sbeInfoSize*9)/8;
// Buffers for reading/writing SBE Version Information
uint8_t * sbeInfo_data = static_cast<uint8_t*>(
malloc(sbeInfoSize));
uint8_t * sbeInfo_data_ECC = static_cast<uint8_t*>(
malloc(sbeInfoSize_ECC));
uint8_t * sbeInfo_data_readBack = static_cast<uint8_t*>(
malloc(sbeInfoSize));
uint8_t * sbeInfo_data_ECC_readBack = static_cast<uint8_t*>(
malloc(sbeInfoSize_ECC));
do{
/*************************************************************/
/* Write Invalid SBE Version Information */
/* -- This is done to prevent confusion if there is a fail */
/* when updating the Version or Image after this */
/*************************************************************/
// Create Invalid Version struct (which is always 8-byte aligned)
for ( uint8_t i = 0; i < (sbeInfoSize)/8; i++ )
{
memcpy(&sbeInfo_data[i*8],
&SBE_SEEPROM_STRUCT_INVALID,
sizeof(uint64_t));
}
// Inject ECC to Data
memset( sbeInfo_data_ECC, 0, sbeInfoSize_ECC);
PNOR::ECC::injectECC(sbeInfo_data, sbeInfoSize, sbeInfo_data_ECC);
TRACDBIN( g_trac_sbe, "updateSeepromSide: Invalid Info",
sbeInfo_data, sbeInfoSize);
TRACDBIN( g_trac_sbe, "updateSeepromSide: Invalid Info ECC",
sbeInfo_data_ECC, sbeInfoSize_ECC);
err = deviceWrite( io_sbeState.target,
sbeInfo_data_ECC,
sbeInfoSize_ECC,
DEVICE_EEPROM_ADDRESS(
io_sbeState.seeprom_side_to_update,
SBE_VERSION_SEEPROM_ADDRESS));
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"updateSeepromSide() - Error "
"Writing SBE Version Info: HUID=0x%.8X, side=%d",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.seeprom_side_to_update);
break;
}
// In an effort to avoid an infinite loop of updates, if there
// was an ECC error when reading this SBE Version Information
// while collecting data, read back this data to ensure there
// isn't a permanent ECC error on the SEEPROM
if ( io_sbeState.new_readBack_check == true )
{
// Read Back Version Information
err = deviceRead( io_sbeState.target,
sbeInfo_data_ECC_readBack,
sbeInfoSize_ECC,
DEVICE_EEPROM_ADDRESS(
io_sbeState.seeprom_side_to_update,
SBE_VERSION_SEEPROM_ADDRESS));
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"updateSeepromSide() - Error "
"Reading Back SBE Version Info: HUID=0x%.8X, "
"side=%d",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.seeprom_side_to_update);
break;
}
// Compare ECC data
rc_readBack_ECC_memcmp = memcmp( sbeInfo_data_ECC,
sbeInfo_data_ECC_readBack,
sbeInfoSize_ECC);
// Remove ECC
eccStatus = PNOR::ECC::removeECC( sbeInfo_data_ECC_readBack,
sbeInfo_data_readBack,
sbeInfoSize);
TRACUCOMP( g_trac_sbe, "updateSeepromSide(): eccStatus=%d, "
"sizeof sI=%d, sI_ECC=%d, rc_ECC=%d",
eccStatus, sbeInfoSize, sbeInfoSize_ECC,
rc_readBack_ECC_memcmp);
// Fail if uncorrectable ECC or any data miscompare
if ( ( eccStatus == PNOR::ECC::UNCORRECTABLE ) ||
( rc_readBack_ECC_memcmp != 0 )
)
{
// There is an ECC issue with this SEEPROM
TRACFCOMP( g_trac_sbe,ERR_MRK"updateSeepromSide() - ECC "
"ERROR or Data Miscimpare On SBE Version Read "
"Back: eccStatus=%d, rc_ECC=%d, "
"sI=%d, sI_ECC=%d, HUID=0x%.8X, side=%d",
eccStatus, rc_readBack_ECC_memcmp,
sbeInfoSize, sbeInfoSize_ECC,
TARGETING::get_huid(io_sbeState.target),
io_sbeState.seeprom_side_to_update);
TRACFBIN( g_trac_sbe, "updateSeepromSide: readback_wECC",
sbeInfo_data_ECC_readBack, sbeInfoSize_ECC);
/*@
* @errortype
* @moduleid SBE_GET_SEEPROM_INFO
* @reasoncode SBE_ECC_FAIL
* @userdata1[0:15] ECC Status
* @userdata1[16:31] SEEPROM Side
* @userdata1[32:47] RC on Data Compare with ECC
* @userdata1[48:63] <unused>
* @userdata2[0:31] Size - No Ecc
* @userdata2[32:63] Size - ECC
* @devdesc ECC or Data Miscompare Fail Reading Back
* SBE Verion Information
*/
err = new ErrlEntry(ERRL_SEV_PREDICTIVE,
SBE_UPDATE_SEEPROMS,
SBE_ECC_FAIL,
FOUR_UINT16_TO_UINT64(
eccStatus,
io_sbeState.seeprom_side_to_update,
rc_readBack_ECC_memcmp,
0x0),
TWO_UINT32_TO_UINT64(sbeInfoSize,
sbeInfoSize_ECC));
err->collectTrace(SBE_COMP_NAME);
err->addPartCallout(
io_sbeState.target,
HWAS::SBE_SEEPROM_PART_TYPE,
HWAS::SRCI_PRIORITY_HIGH,
HWAS::NO_DECONFIG,
HWAS::GARD_NULL );
ErrlUserDetailsTarget(io_sbeState.target).addToLog(err);
break;
}
}
/*******************************************/
/* Update SBE with Customized Image */
/*******************************************/
// The Customized Image For This Target Still Resides In
// The SBE Update VMM Space: SBE_IMG_VADDR = VMM_VADDR_SBE_UPDATE
// Inject ECC
// clear out back half of page block to use as temp space
// for ECC injected SBE Image.
rc = mm_remove_pages(RELEASE,
reinterpret_cast<void*>
(SBE_ECC_IMG_VADDR),
SBE_ECC_IMG_MAX_SIZE);
if( rc )
{
TRACFCOMP( g_trac_sbe, ERR_MRK"updateSeepromSide() - Error "
"from mm_remove_pages : rc=%d, HUID=0x%.8X.",
rc, TARGETING::get_huid(io_sbeState.target) );
/*@
* @errortype
* @moduleid SBE_UPDATE_SEEPROMS
* @reasoncode SBE_REMOVE_PAGES_FOR_EC
* @userdata1 Requested Address
* @userdata2 rc from mm_remove_pages
* @devdesc updateProcessorSbeSeeproms> mm_remove_pages
* RELEASE failed
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_UPDATE_SEEPROMS,
SBE_REMOVE_PAGES_FOR_EC,
TO_UINT64(SBE_ECC_IMG_VADDR),
TO_UINT64(rc));
//Target isn't directly related to fail, but could be useful
// to see how far we got before failing.
ErrlUserDetailsTarget(io_sbeState.target
).addToLog(err);
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
//align size, calculate ECC size
size_t sbeImgSize = ALIGN_8(io_sbeState.customizedImage_size);
size_t sbeEccImgSize = static_cast<size_t>(sbeImgSize*9/8);
assert(sbeEccImgSize <= SBE_ECC_IMG_MAX_SIZE,
"updateSeepromSide() SBE Image with ECC too large");
TRACUCOMP( g_trac_sbe, INFO_MRK"updateSeepromSide(): "
"SBE_VADDR=0x%.16X, ECC_VADDR=0x%.16X, size=0x%.8X, "
"eccSize=0x%.8X",
SBE_IMG_VADDR,
SBE_ECC_IMG_VADDR,
sbeImgSize,
sbeEccImgSize );
PNOR::ECC::injectECC(reinterpret_cast<uint8_t*>(SBE_IMG_VADDR),
sbeImgSize,
reinterpret_cast<uint8_t*>
(SBE_ECC_IMG_VADDR));
TRACDBIN(g_trac_sbe,"updateSeepromSide()-start of IMG - no ECC",
reinterpret_cast<void*>(SBE_IMG_VADDR), 0x80);
TRACDBIN(g_trac_sbe,"updateSeepromSide()-start of IMG - ECC",
reinterpret_cast<void*>(SBE_ECC_IMG_VADDR), 0x80);
//Write new data to seeprom
TRACFCOMP( g_trac_sbe, INFO_MRK"updateSeepromSide(): Write New "
"SBE Image for Target 0x%X to Seeprom %d",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.seeprom_side_to_update );
//Write image to indicated side
err = deviceWrite(io_sbeState.target,
reinterpret_cast<void*>
(SBE_ECC_IMG_VADDR),
sbeEccImgSize,
DEVICE_EEPROM_ADDRESS(
io_sbeState.seeprom_side_to_update,
SBE_IMAGE_SEEPROM_ADDRESS));
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"updateSeepromSide() - Error "
"writing new SBE image to size=%d. HUID=0x%.8X."
"SBE_VADDR=0x%.16X, ECC_VADDR=0x%.16X, size=0x%.8X, "
"eccSize=0x%.8X, EEPROM offset=0x%X",
io_sbeState.seeprom_side_to_update,
TARGETING::get_huid(io_sbeState.target),
SBE_IMG_VADDR, SBE_ECC_IMG_VADDR, sbeImgSize,
sbeEccImgSize, SBE_IMAGE_SEEPROM_ADDRESS);
break;
}
/*******************************************/
/* Update SBE Version Information */
/*******************************************/
// The new version has already been created
memcpy(sbeInfo_data, &io_sbeState.new_seeprom_ver, sbeInfoSize);
// Inject ECC to Data
memset( sbeInfo_data_ECC, 0, sbeInfoSize_ECC);
PNOR::ECC::injectECC(sbeInfo_data, sbeInfoSize, sbeInfo_data_ECC);
TRACDBIN( g_trac_sbe, "updateSeepromSide: Info",
sbeInfo_data, sbeInfoSize);
TRACDBIN( g_trac_sbe, "updateSeepromSide: Info ECC",
sbeInfo_data_ECC, sbeInfoSize_ECC);
err = deviceWrite( io_sbeState.target,
sbeInfo_data_ECC,
sbeInfoSize_ECC,
DEVICE_EEPROM_ADDRESS(
io_sbeState.seeprom_side_to_update,
SBE_VERSION_SEEPROM_ADDRESS));
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"updateSeepromSide() - Error "
"Writing SBE Version Info: HUID=0x%.8X, side=%d",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.seeprom_side_to_update);
break;
}
// Successful update if we get here, so update internal code
// structure with the new version information
memcpy( io_sbeState.seeprom_side_to_update == EEPROM::SBE_PRIMARY
? &io_sbeState.seeprom_0_ver : &io_sbeState.seeprom_1_ver,
&io_sbeState.new_seeprom_ver,
sbeInfoSize );
}while(0);
// Free allocated memory
free( sbeInfo_data );
free( sbeInfo_data_ECC);
free( sbeInfo_data_readBack );
free( sbeInfo_data_ECC_readBack );
#ifdef CONFIG_SBE_UPDATE_SIMULTANEOUS
// If no error, recursively call this function for the other SEEPROM
if ( ( err == NULL ) &&
( io_sbeState.seeprom_side_to_update == EEPROM::SBE_PRIMARY ) )
{
io_sbeState.seeprom_side_to_update = EEPROM::SBE_BACKUP;
TRACFCOMP( g_trac_sbe,
"updateSeepromSide(): Recursively calling itself: "
"HUID=0x%.8X, side=%d",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.seeprom_side_to_update);
err = updateSeepromSide(io_sbeState);
}
#endif
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t getTargetUpdateActions(sbeTargetState_t& io_sbeState)
{
TRACUCOMP( g_trac_sbe,
ENTER_MRK"getTargetUpdateActions(): HUID=0x%.8X",
TARGETING::get_huid(io_sbeState.target));
errlHndl_t err = NULL;
bool seeprom_0_isDirty = false;
bool seeprom_1_isDirty = false;
bool current_side_isDirty = false;
bool alt_side_isDirty = false;
bool pnor_check_dirty = false;
bool crc_check_dirty = false;
bool isSimics_check = false;
do{
/**************************************************************/
/* Compare SEEPROM 0 with PNOR and Customized Image CRC -- */
/* -- dirty or clean? */
/**************************************************************/
// Check PNOR and SEEPROM 0 Version
if ( 0 != memcmp(&(io_sbeState.pnorVersion),
&(io_sbeState.seeprom_0_ver.image_version),
SBE_IMAGE_VERSION_SIZE) )
{
pnor_check_dirty = true;
}
// Check CRC and SEEPROM 0 CRC
if ( io_sbeState.customizedImage_crc !=
io_sbeState.seeprom_0_ver.data_crc )
{
crc_check_dirty = true;
}
// Check if in simics
if ( ( io_sbeState.seeprom_0_ver.struct_version ==
SBE_SEEPROM_STRUCT_SIMICS_VERSION )
&& ( Util::isSimicsRunning() )
)
{
isSimics_check = true;
}
if ( (pnor_check_dirty || crc_check_dirty )
&& !isSimics_check )
{
seeprom_0_isDirty = true;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: Seeprom0 "
"dirty: pnor=%d, crc=%d (custom=0x%X/s0=0x%X), "
"isSimics=%d",
TARGETING::get_huid(io_sbeState.target),
pnor_check_dirty, crc_check_dirty,
io_sbeState.customizedImage_crc,
io_sbeState.seeprom_0_ver.data_crc, isSimics_check);
}
/**************************************************************/
/* Compare SEEPROM 1 with PNOR and Customized Image CRC -- */
/* -- dirty or clean? */
/**************************************************************/
// reset dirty variables
pnor_check_dirty = false;
crc_check_dirty = false;
isSimics_check = false;
// Check PNOR and SEEPROM 1 Version
if ( 0 != memcmp(&(io_sbeState.pnorVersion),
&(io_sbeState.seeprom_1_ver.image_version),
SBE_IMAGE_VERSION_SIZE) )
{
pnor_check_dirty = true;
}
// Check CRC and SEEPROM 1 CRC
if ( io_sbeState.customizedImage_crc !=
io_sbeState.seeprom_1_ver.data_crc )
{
crc_check_dirty = true;
}
// Check if in simics
if ( ( io_sbeState.seeprom_1_ver.struct_version ==
SBE_SEEPROM_STRUCT_SIMICS_VERSION )
&& ( Util::isSimicsRunning() )
)
{
isSimics_check = true;
}
if ( (pnor_check_dirty || crc_check_dirty )
&& !isSimics_check )
{
seeprom_1_isDirty = true;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: Seeprom1 "
"dirty: pnor=%d, crc=%d (custom=0x%X/s1=0x%X), "
"isSimics=%d",
TARGETING::get_huid(io_sbeState.target),
pnor_check_dirty, crc_check_dirty,
io_sbeState.customizedImage_crc,
io_sbeState.seeprom_1_ver.data_crc, isSimics_check);
}
// Extra information for unit testing
if ( seeprom_0_isDirty || seeprom_1_isDirty )
{
TRACFBIN( g_trac_sbe,
"PNOR Version",
&(io_sbeState.pnorVersion),
16 ) ;
TRACFBIN( g_trac_sbe,
"Seeprom0: Image Version",
&(io_sbeState.seeprom_0_ver.image_version),
16 ) ;
TRACFBIN( g_trac_sbe,
"Seeprom1: Image Version",
&(io_sbeState.seeprom_1_ver.image_version),
16 ) ;
TRACFBIN( g_trac_sbe,
"MVPD SB",
&(io_sbeState.mvpdSbKeyword),
sizeof(mvpdSbKeyword_t));
}
/**************************************************************/
/* Determine what side to update */
/**************************************************************/
// Set cur and alt isDirty values
if( io_sbeState.cur_seeprom_side == SBE_SEEPROM0 )
{
current_side_isDirty = seeprom_0_isDirty;
alt_side_isDirty = seeprom_1_isDirty;
}
else
{
current_side_isDirty = seeprom_1_isDirty;
alt_side_isDirty = seeprom_0_isDirty;
}
// Set system_situation - bits defined in sbe_update.H
uint8_t system_situation = 0x00;
// Bit 0: current_side is permanent (0) or temp (1)
// -- defaulted to 0 (cur=perm) above
if ( io_sbeState.cur_seeprom_side !=
io_sbeState.permanent_seeprom_side )
{
system_situation |= SITUATION_CUR_IS_TEMP;
}
// Bit 1: current_side clean (0) or dirty (1)
// -- defaulted to 0 (clean) above
if ( current_side_isDirty )
{
system_situation |= SITUATION_CUR_IS_DIRTY;
}
// Bit 2: alt_side is clean (0) or dirty (1)
if ( alt_side_isDirty )
{
system_situation |= SITUATION_ALT_IS_DIRTY;
}
// Call function to update actions
err = decisionTreeForUpdates(io_sbeState, system_situation);
if ( err ) { break; }
TRACUCOMP( g_trac_sbe, "getTargetUpdateActions() - system_situation"
"= 0x%.2X, actions=0x%.8X, Update EEPROM=0x%X",
system_situation,
io_sbeState.update_actions,
io_sbeState.seeprom_side_to_update);
/**************************************************************/
/* Setup new SBE Image Version Info, if necessary */
/**************************************************************/
if ( io_sbeState.update_actions & UPDATE_SBE )
{
memset(&(io_sbeState.new_seeprom_ver),
0x0,
sizeof(sbeSeepromVersionInfo_t));
io_sbeState.new_seeprom_ver.struct_version =
SBE_SEEPROM_STRUCT_VERSION;
memcpy( &(io_sbeState.new_seeprom_ver.image_version),
&(io_sbeState.pnorVersion),
SBE_IMAGE_VERSION_SIZE);
memcpy( &(io_sbeState.new_seeprom_ver.data_crc),
&(io_sbeState.customizedImage_crc),
sizeof(io_sbeState.new_seeprom_ver.data_crc));
// If there was an ECC fail on either SEEPROM, do a read-back
// Check when writing this information to the SEEPROM
io_sbeState.new_readBack_check = (
io_sbeState.seeprom_0_ver_ECC_fail ||
io_sbeState.seeprom_1_ver_ECC_fail);
TRACDBIN( g_trac_sbe,
"getTargetUpdateActions() - New SBE Version Info",
&(io_sbeState.new_seeprom_ver),
sizeof(sbeSeepromVersionInfo_t));
}
/**************************************************************/
/* Update MVPD Struct to write back, if necessary */
/**************************************************************/
if ( io_sbeState.update_actions & UPDATE_MVPD )
{
// Note: mvpdSbKeyword.flags updated in decisionTreeForUpdates()
if ( io_sbeState.seeprom_side_to_update == EEPROM::SBE_PRIMARY )
{
memcpy(&(io_sbeState.mvpdSbKeyword.seeprom_0_data_crc),
&(io_sbeState.customizedImage_crc),
sizeof(io_sbeState.mvpdSbKeyword.seeprom_0_data_crc));
memcpy(&(io_sbeState.mvpdSbKeyword.seeprom_0_short_version),
&(io_sbeState.pnorVersion),
SBE_MVPD_SHORT_IMAGE_VERSION_SIZE);
}
else // EEPROM::SBE_Backup
{
memcpy(&(io_sbeState.mvpdSbKeyword.seeprom_1_data_crc),
&(io_sbeState.customizedImage_crc),
sizeof(io_sbeState.mvpdSbKeyword.seeprom_1_data_crc));
memcpy(&(io_sbeState.mvpdSbKeyword.seeprom_1_short_version),
&(io_sbeState.pnorVersion),
SBE_MVPD_SHORT_IMAGE_VERSION_SIZE);
}
}
}while(0);
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t decisionTreeForUpdates(sbeTargetState_t& io_sbeState,
uint8_t i_system_situation)
{
errlHndl_t err = NULL;
uint32_t l_actions = CLEAR_ACTIONS;
io_sbeState.update_actions = CLEAR_ACTIONS;
io_sbeState.seeprom_side_to_update = EEPROM::LAST_CHIP_TYPE;
// @todo RTC 107721 - Need to handle Habanero 'golden' SEEPROM side
do{
// To be safe, we're only look at the bits defined in sbe_update.H
i_system_situation &= SITUATION_ALL_BITS_MASK;
#ifdef CONFIG_SBE_UPDATE_GOLDEN
// @todo RTC 107721 - Need to handle Habanero 'golden' SEEPROM side
// For now default to no update and continue IPL
l_actions = CLEAR_ACTIONS;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"Habanero 'GOLDEN' Seeprom Support to come. "
"For now no updates. cur side=%d. "
"Continue IPL. (sit=0x%.2X, act=0x%.8X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions);
#elif CONFIG_SBE_UPDATE_SIMULTANEOUS
// Updates both SEEPROMs if either side is dirty
if ( ( i_system_situation & SITUATION_CUR_IS_DIRTY ) ||
( i_system_situation & SITUATION_ALT_IS_DIRTY ) )
{
// At least one of the sides is dirty
// Update both sides and re-IPL
// Update MVPD flag: make cur=perm (because we know it
// works a bit)
l_actions |= IPL_RESTART;
l_actions |= DO_UPDATE;
l_actions |= UPDATE_MVPD;
l_actions |= UPDATE_SBE;
// Set update side to Primary here, but both sides
// will be updated
io_sbeState.seeprom_side_to_update = EEPROM::SBE_PRIMARY;
// Update MVPD PERMANENT flag: make cur=perm
( io_sbeState.cur_seeprom_side == SBE_SEEPROM0 ) ?
// clear bit 0
io_sbeState.mvpdSbKeyword.flags &= ~PERMANENT_FLAG_MASK
: //set bit 0
io_sbeState.mvpdSbKeyword.flags |= PERMANENT_FLAG_MASK;
// Update MVPD RE-IPL SEEPROM flag: re-IPL on ALT:
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 ) ?
// clear bit 1
io_sbeState.mvpdSbKeyword.flags &= ~REIPL_SEEPROM_MASK
: //set bit 1
io_sbeState.mvpdSbKeyword.flags |= REIPL_SEEPROM_MASK;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"At least one side dirty. cur side=%d. Update "
"alt. Re-IPL. Update MVPD flag "
"(sit=0x%.2X, act=0x%.8X flags=0x%.2X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions,
io_sbeState.mvpdSbKeyword.flags);
}
else
{
// Both sides are clean - no updates
// Continue IPL
l_actions = CLEAR_ACTIONS;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"Both sides clean-no updates. cur side=%d. "
"Continue IPL. (sit=0x%.2X, act=0x%.8X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions);
}
#elif CONFIG_SBE_UPDATE_SEQUENTIAL
// Updating the SEEPROMs 1-at-a-time
switch ( i_system_situation )
{
///////////////////////////////////////////////////////////////////
case ( SITUATION_CUR_IS_TEMP |
SITUATION_CUR_IS_DIRTY |
SITUATION_ALT_IS_DIRTY ) :
// 0xE0: cur=temp, cur=dirty, alt=dirty
// Treat like 0xC0
// not sure why we booted off of temp
///////////////////////////////////////////////////////////////////
case ( SITUATION_CUR_IS_TEMP |
SITUATION_CUR_IS_DIRTY |
SITUATION_ALT_IS_CLEAN ) :
// 0xC0: cur=temp, cur=dirty, alt=clean
// Bad path: we shouldn't be booting to dirty side
// Update Alt and re-IPL to it
// Update MVPD flag: make cur=perm (because we know it
// works a bit)
l_actions |= IPL_RESTART;
l_actions |= DO_UPDATE;
l_actions |= UPDATE_MVPD;
l_actions |= UPDATE_SBE;
// Set Update side to alt
io_sbeState.seeprom_side_to_update =
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 )
? EEPROM::SBE_PRIMARY : EEPROM::SBE_BACKUP ;
// Update MVPD PERMANENT flag: make cur=perm
( io_sbeState.cur_seeprom_side == SBE_SEEPROM0 ) ?
// clear bit 0
io_sbeState.mvpdSbKeyword.flags &= ~PERMANENT_FLAG_MASK
: //set bit 0
io_sbeState.mvpdSbKeyword.flags |= PERMANENT_FLAG_MASK;
// Update MVPD RE-IPL SEEPROM flag: re-IPL on ALT:
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 ) ?
// clear bit 1
io_sbeState.mvpdSbKeyword.flags &= ~REIPL_SEEPROM_MASK
: //set bit 1
io_sbeState.mvpdSbKeyword.flags |= REIPL_SEEPROM_MASK;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"cur=temp/dirty(%d). Update alt. Re-IPL. "
"Update MVPD flag "
"(sit=0x%.2X, act=0x%.8X flags=0x%.2X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions,
io_sbeState.mvpdSbKeyword.flags);
break;
///////////////////////////////////////////////////////////////////
case ( SITUATION_CUR_IS_TEMP |
SITUATION_CUR_IS_CLEAN |
SITUATION_ALT_IS_DIRTY ) :
// 0xA0: cur=temp, cur=clean, alt=dirty
// Common 2nd step of Code Update path
// Update Alt and Continue IPL
// Update MVPD flag: make cur=perm
l_actions |= DO_UPDATE;
l_actions |= UPDATE_MVPD;
l_actions |= UPDATE_SBE;
// Set Update side to alt
io_sbeState.seeprom_side_to_update =
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 )
? EEPROM::SBE_PRIMARY : EEPROM::SBE_BACKUP ;
// MVPD flag Update
// Update MVPD flag make cur=perm
( io_sbeState.cur_seeprom_side == SBE_SEEPROM0 ) ?
// clear bit 0
io_sbeState.mvpdSbKeyword.flags &= ~PERMANENT_FLAG_MASK
: // set bit 0
io_sbeState.mvpdSbKeyword.flags |= PERMANENT_FLAG_MASK;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"cur=temp/clean(%d), alt=dirty. "
"Update alt. Continue IPL. Update MVPD flag."
"(sit=0x%.2X, act=0x%.8X flags=0x%.2X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions,
io_sbeState.mvpdSbKeyword.flags);
break;
///////////////////////////////////////////////////////////////////
case ( SITUATION_CUR_IS_TEMP |
SITUATION_CUR_IS_CLEAN |
SITUATION_ALT_IS_CLEAN ) :
// 0x80: cur=temp, cur=clean, alt=clean
// Both sides are clean,
// Not sure why cur=temp, but do nothing
l_actions = CLEAR_ACTIONS;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"Both sides clean-no updates. cur was temp(%d). "
"Continue IPL. (sit=0x%.2X, act=0x%.8X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions);
break;
///////////////////////////////////////////////////////////////////
case ( SITUATION_CUR_IS_PERM |
SITUATION_CUR_IS_DIRTY |
SITUATION_ALT_IS_DIRTY ) :
// 0x60: cur=perm, cur=dirty, alt=dirty
// Common situation: likely first step of code update
// Update alt and re-ipl
l_actions |= IPL_RESTART;
l_actions |= DO_UPDATE;
l_actions |= UPDATE_MVPD;
l_actions |= UPDATE_SBE;
// Set Update side to alt
io_sbeState.seeprom_side_to_update =
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 )
? EEPROM::SBE_PRIMARY : EEPROM::SBE_BACKUP ;
// Update MVPD RE-IPL SEEPROM flag: re-IPL on ALT:
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 ) ?
// clear bit 1
io_sbeState.mvpdSbKeyword.flags &= ~REIPL_SEEPROM_MASK
: // set bit 1
io_sbeState.mvpdSbKeyword.flags |= REIPL_SEEPROM_MASK;
// If istep mode, re-IPL bit won't be checked, so also
// change perm flag to boot off of alt on next IPL
if ( g_istep_mode )
{
// Update MVPD PERMANENT flag: make alt=perm
(io_sbeState.alt_seeprom_side == SBE_SEEPROM0 ) ?
// clear bit 0
io_sbeState.mvpdSbKeyword.flags &= ~PERMANENT_FLAG_MASK
: //set bit 0
io_sbeState.mvpdSbKeyword.flags |= PERMANENT_FLAG_MASK;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"istep mode: update alt to perm, (sit="
"0x%.2X)",
TARGETING::get_huid(io_sbeState.target),
i_system_situation);
}
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"cur=perm/dirty(%d), alt=dirty. Update alt. re-"
"IPL. (sit=0x%.2X, act=0x%.8X, flags=0x%.2X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions,
io_sbeState.mvpdSbKeyword.flags);
break;
///////////////////////////////////////////////////////////////////
case ( SITUATION_CUR_IS_PERM |
SITUATION_CUR_IS_DIRTY |
SITUATION_ALT_IS_CLEAN ) :
// 0x40: cur=perm, cur=dirty, alt=clean
// Ask FSP if we just re-IPLed due to our request.
// If Yes: Working PERM side is out-of-sync, so callout
// SBE code, but continue IPL on dirty image
// If Not: Update alt and re-IPL
if ( isIplFromReIplRequest() )
{
l_actions = CLEAR_ACTIONS;
TRACFCOMP(g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"cur=perm/dirty(%d), alt=clean. On our Re-"
"IPL. Call-out SBE code but Continue IPL. "
"(sit=0x%.2X, act=0x%.8X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions);
/*@
* @errortype
* @moduleid SBE_DECISION_TREE
* @reasoncode SBE_PERM_SIDE_DIRTY_BAD_PATH
* @userdata1 System Situation
* @userdata2 Update Actions
* @devdesc Bad Path in decisionUpdateTree:
* cur=PERM/DIRTY
* @custdesc A problem occurred while updating
* processor boot code.
*/
err = new ErrlEntry(ERRL_SEV_RECOVERED,
SBE_DECISION_TREE,
SBE_PERM_SIDE_DIRTY_BAD_PATH,
TO_UINT64(i_system_situation),
TO_UINT64(l_actions));
// Target isn't directly related to fail, but could be
// useful to see how far we got before failing.
ErrlUserDetailsTarget(io_sbeState.target
).addToLog(err);
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
else
{
// Update alt and re-ipl
l_actions |= IPL_RESTART;
l_actions |= DO_UPDATE;
l_actions |= UPDATE_MVPD;
l_actions |= UPDATE_SBE;
// Set Update side to alt
io_sbeState.seeprom_side_to_update =
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 )
? EEPROM::SBE_PRIMARY : EEPROM::SBE_BACKUP ;
// Update MVPD RE-IPL SEEPROM flag: re-IPL on ALT:
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 ) ?
// clear bit 1
io_sbeState.mvpdSbKeyword.flags &= ~REIPL_SEEPROM_MASK
: // set bit 1
io_sbeState.mvpdSbKeyword.flags |= REIPL_SEEPROM_MASK;
TRACFCOMP(g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"cur=perm/dirty(%d), alt=clean. Not our Re-"
"IPL. Update alt and MVPD. re-IPL. "
"(sit=0x%.2X, act=0x%.8X, flags=0x%.2X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions,
io_sbeState.mvpdSbKeyword.flags);
break;
}
///////////////////////////////////////////////////////////////////
case ( SITUATION_CUR_IS_PERM |
SITUATION_CUR_IS_CLEAN |
SITUATION_ALT_IS_DIRTY ) :
// 0x20: cur=perm, cur=clean, alt=dirty
// Not sure why alt is dirty, but update alt and
// continue IPL
l_actions |= DO_UPDATE;
l_actions |= UPDATE_SBE;
// Set Update side to alt
io_sbeState.seeprom_side_to_update =
( io_sbeState.alt_seeprom_side == SBE_SEEPROM0 )
? EEPROM::SBE_PRIMARY : EEPROM::SBE_BACKUP ;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"cur=perm/clean(%d), alt=dirty. "
"Update alt. Continue IPL. "
"(sit=0x%.2X, act=0x%.8X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions);
break;
///////////////////////////////////////////////////////////////////
case ( SITUATION_CUR_IS_PERM |
SITUATION_CUR_IS_CLEAN |
SITUATION_ALT_IS_CLEAN ) :
// 0x0: cur=perm, cur=clean, alt=clean
// Both sides are clean - no updates
// Continue IPL
l_actions = CLEAR_ACTIONS;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"Both sides clean-no updates. cur was perm(%d). "
"Continue IPL. (sit=0x%.2X, act=0x%.8X)",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.cur_seeprom_side,
i_system_situation, l_actions);
break;
///////////////////////////////////////////////////////////////////
default:
l_actions = UNSUPPORTED_SITUATION;
TRACFCOMP( g_trac_sbe, INFO_MRK"SBE Update tgt=0x%X: "
"Unsupported Scenario. Just Continue IPL. "
"(sit=0x%.2X, act=0x%.8X, cur=%d)",
TARGETING::get_huid(io_sbeState.target),
i_system_situation, l_actions,
io_sbeState.cur_seeprom_side);
break;
}
///////////////////////////////////////////////////////////////////
// End of i_system_situation switch statement
///////////////////////////////////////////////////////////////////
#endif
// Set actions
io_sbeState.update_actions = static_cast<sbeUpdateActions_t>
(l_actions);
TRACUCOMP( g_trac_sbe, "decisionTreeForUpdates() Tgt=0x%X: "
"i_system_situation=0x%.2X, actions=0x%.8X, "
"Update EEPROM=0x%X, flags=0x%X, cur=%d",
TARGETING::get_huid(io_sbeState.target),
i_system_situation,
io_sbeState.update_actions,
io_sbeState.seeprom_side_to_update,
io_sbeState.mvpdSbKeyword.flags,
io_sbeState.cur_seeprom_side);
}while(0);
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t performUpdateActions(sbeTargetState_t& io_sbeState)
{
TRACUCOMP( g_trac_sbe,
ENTER_MRK"performUpdateActions(): HUID=0x%.8X, "
"updateActions=0x%.8X",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.update_actions);
errlHndl_t err = NULL;
errlHndl_t err_info = NULL;
uint32_t l_actions = io_sbeState.update_actions;
do{
/**************************************************************/
/* Update SEEPROM, if necessary */
/**************************************************************/
if (l_actions & UPDATE_SBE)
{
#ifdef CONFIG_SBE_UPDATE_SIMULTANEOUS
io_sbeState.seeprom_side_to_update = EEPROM::SBE_PRIMARY;
#endif
err = updateSeepromSide(io_sbeState);
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"performUpdateActions() - "
"updateProcessorSbeSeeproms() failed. "
"HUID=0x%.8X.",
TARGETING::get_huid(io_sbeState.target));
break;
}
l_actions |= SBE_UPDATE_COMPLETE;
}
/**************************************************************/
/* Update MVPD, if necessary */
/**************************************************************/
if (l_actions & UPDATE_MVPD)
{
err = getSetMVPDVersion(io_sbeState.target,
MVPDOP_WRITE,
io_sbeState.mvpdSbKeyword);
if(err)
{
TRACFCOMP( g_trac_sbe, ERR_MRK"performUpdateActions() - "
"Error Updating MVPD with new SBE Image Info "
"HUID=0x%.8X, rc=0x%.4x. Skipping SBE Update. "
"(actions=0x%.8X)",
TARGETING::get_huid(io_sbeState.target),
err->reasonCode(), l_actions );
break;
}
l_actions |= MVPD_UPDATE_COMPLETE;
}
/**************************************************************/
/* Create Info Error Log of successful operation */
/**************************************************************/
#ifndef CONFIG_SBE_UPDATE_SIMULTANEOUS
TRACFCOMP( g_trac_sbe,INFO_MRK"performUpdateActions(): Successful "
"SBE Update of HUID=0x%.8X SEEPROM %d",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.seeprom_side_to_update);
#else
TRACFCOMP( g_trac_sbe,INFO_MRK"performUpdateActions(): Successful "
"SBE Update of HUID=0x%.8X - Both SEEPROMs",
TARGETING::get_huid(io_sbeState.target));
#endif
/*@
* @errortype
* @moduleid SBE_PERFORM_UPDATE_ACTIONS
* @reasoncode SBE_INFO_LOG
* @userdata1[0:31] Update Actions Enum
* @userdata1[32:63] Customized Data CRC
* @userdata2[0:31] Original SEEPROM 0 CRC
* @userdata2[32:63] Original SEEPROM 1 CRC
* @devdesc Successful Update of SBE SEEPROM
* SBE Verion Information
*/
err_info = new ErrlEntry(ERRL_SEV_INFORMATIONAL,
SBE_PERFORM_UPDATE_ACTIONS,
SBE_INFO_LOG,
TWO_UINT32_TO_UINT64(
l_actions,
io_sbeState.customizedImage_crc),
TWO_UINT32_TO_UINT64(
io_sbeState.seeprom_0_ver.data_crc,
io_sbeState.seeprom_1_ver.data_crc));
// Add general data sections to capture MVPD SB Keyword and
// the new SBE SEEPROM Version structure
err_info->addFFDC( SBE_COMP_ID,
&(io_sbeState.mvpdSbKeyword),
sizeof(io_sbeState.mvpdSbKeyword),
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
err_info->addFFDC( SBE_COMP_ID,
&(io_sbeState.new_seeprom_ver),
sizeof(io_sbeState.new_seeprom_ver),
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
err_info->collectTrace(SBE_COMP_NAME, KILOBYTE);
ErrlUserDetailsTarget(io_sbeState.target, "SBE Target Updated")
.addToLog(err_info);
errlCommit( err_info, SBE_COMP_ID );
/**************************************************************/
}while(0);
io_sbeState.update_actions = static_cast<sbeUpdateActions_t>
(l_actions);
TRACUCOMP( g_trac_sbe,
EXIT_MRK"performUpdateActions(): HUID=0x%.8X, "
"updateActions=0x%.8X",
TARGETING::get_huid(io_sbeState.target),
io_sbeState.update_actions);
return err;
}
/////////////////////////////////////////////////////////////////////
uint32_t trimBitMask(uint32_t i_mask,
size_t i_maxBits)
{
TRACDCOMP( g_trac_sbe,
ENTER_MRK"trimBitMask(i_mask=0x%.8X, i_maxBits=0x%.8X)",
i_mask, i_maxBits);
uint32_t retMask = i_mask;
while(__builtin_popcount(retMask) > static_cast<int32_t>(i_maxBits))
{
retMask ^= (0x80000000 >>
static_cast<uint32_t>(__builtin_clz(retMask)));
}
TRACDCOMP( g_trac_sbe,
EXIT_MRK"trimBitMask(): retMask=0x%.8X",
retMask);
return retMask;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t createSbeImageVmmSpace(void)
{
TRACDCOMP( g_trac_sbe,
ENTER_MRK"createSbeImageVmmSpace");
int64_t rc = 0;
errlHndl_t err = NULL;
do{
//Make sure procedure constants keep within expected range.
assert((FIXED_SEEPROM_WORK_SPACE <= VMM_SBE_UPDATE_SIZE/2),
"createSbeImageVmmSpace() FIXED_SEEPROM_WORK_SPACE too large");
assert((FIXED_RING_BUF_SIZE <= VMM_SBE_UPDATE_SIZE/4),
"createSbeImageVmmSpace() FIXED_RING_BUF_SIZE too large");
// Create a memory block to serve as XIP Customize scratch space
// NOTE: using mm_alloc_block since this code is running before we
// have mainstore and we must have contiguous blocks of memory for
// the customize procedure to use.
rc = mm_alloc_block( NULL,
reinterpret_cast<void*>
(VMM_VADDR_SBE_UPDATE),
VMM_SBE_UPDATE_SIZE);
if(rc == -EALREADY)
{
//-EALREADY inidciates the block is already mapped
// so just ignore
rc = 0;
}
if( rc )
{
TRACFCOMP( g_trac_sbe, ERR_MRK"createSbeImageVmmSpace() - "
"Error from mm_alloc_block : rc=%d", rc );
/*@
* @errortype
* @moduleid SBE_CREATE_TEST_SPACE
* @reasoncode SBE_ALLOC_BLOCK_FAIL
* @userdata1 Requested Address
* @userdata2 rc from mm_alloc_block
* @devdesc updateProcessorSbeSeeproms> Error
* from mm_alloc_block
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_CREATE_TEST_SPACE,
SBE_ALLOC_BLOCK_FAIL,
TO_UINT64(VMM_VADDR_SBE_UPDATE),
TO_UINT64(rc));
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
rc = mm_set_permission(reinterpret_cast<void*>
(VMM_VADDR_SBE_UPDATE),
VMM_SBE_UPDATE_SIZE,
WRITABLE | ALLOCATE_FROM_ZERO );
if( rc )
{
TRACFCOMP( g_trac_sbe, ERR_MRK"createSbeImageVmmSpace() - Error from mm_set_permission : rc=%d", rc );
/*@
* @errortype
* @moduleid SBE_CREATE_TEST_SPACE
* @reasoncode SBE_SET_PERMISSION_FAIL
* @userdata1 Requested Address
* @userdata2 rc from mm_set_permission
* @devdesc updateProcessorSbeSeeproms> Error from
* mm_set_permission on creation
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_CREATE_TEST_SPACE,
SBE_SET_PERMISSION_FAIL,
TO_UINT64(VMM_VADDR_SBE_UPDATE),
TO_UINT64(rc));
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
}while(0);
TRACDCOMP( g_trac_sbe,
EXIT_MRK"createSbeImageVmmSpace() - rc =0x%X", rc);
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t cleanupSbeImageVmmSpace(void)
{
TRACDCOMP( g_trac_sbe,
ENTER_MRK"cleanupSbeImageVmmSpace");
errlHndl_t err = NULL;
int64_t rc = 0;
do{
// Set permissions back to "no_access" before returning
rc = mm_set_permission(reinterpret_cast<void*>
(VMM_VADDR_SBE_UPDATE),
VMM_SBE_UPDATE_SIZE,
NO_ACCESS | ALLOCATE_FROM_ZERO );
if( rc )
{
TRACFCOMP( g_trac_sbe, ERR_MRK"cleanupSbeImageVmmSpace() - "
"Error from mm_set_permission : rc=%d", rc );
/*@
* @errortype
* @moduleid SBE_CLEANUP_TEST_SPACE
* @reasoncode SBE_SET_PERMISSION_FAIL
* @userdata1 Requested Address
* @userdata2 rc from mm_set_permission
* @devdesc updateProcessorSbeSeeproms> Error from
* mm_set_permission on cleanup
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_CLEANUP_TEST_SPACE,
SBE_SET_PERMISSION_FAIL,
TO_UINT64(VMM_VADDR_SBE_UPDATE),
TO_UINT64(rc));
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
break;
}
//release all pages in page block to ensure we
//start with clean state
rc = mm_remove_pages(RELEASE,
reinterpret_cast<void*>
(VMM_VADDR_SBE_UPDATE),
VMM_SBE_UPDATE_SIZE);
if( rc )
{
TRACFCOMP( g_trac_sbe, ERR_MRK"cleanupSbeImageVmmSpace() - "
"Error from mm_remove_pages : rc=%d", rc );
/*@
* @errortype
* @moduleid SBE_CLEANUP_TEST_SPACE
* @reasoncode SBE_REMOVE_PAGES_FAIL
* @userdata1 Requested Address
* @userdata2 rc from mm_remove_pages
* @devdesc updateProcessorSbeSeeproms> mm_remove_pages
* RELEASE failed
* @custdesc A problem occurred while updating processor
* boot code.
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_CLEANUP_TEST_SPACE,
SBE_REMOVE_PAGES_FAIL,
TO_UINT64(VMM_VADDR_SBE_UPDATE),
TO_UINT64(rc));
err->collectTrace(SBE_COMP_NAME);
err->addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
}
}while(0);
TRACDCOMP( g_trac_sbe,
EXIT_MRK"cleanupSbeImageVmmSpace() - rc =0x%X", rc);
return err;
}
/////////////////////////////////////////////////////////////////////
bool isIplFromReIplRequest(void)
{
TRACDCOMP( g_trac_sbe,
ENTER_MRK"isIplFromReIplRequest");
bool o_reIplRequest = false;
errlHndl_t err = NULL;
msg_t * msg = msg_allocate();
do{
/***********************************************/
/* Check if MBOX Query has already been made */
/***********************************************/
if ( g_mbox_query_done == true )
{
o_reIplRequest = g_mbox_query_result;
TRACUCOMP( g_trac_sbe, "isIplFromReIplRequest: query "
"previously done (%d). o_reIplRequest = %d",
g_mbox_query_done, o_reIplRequest);
break;
}
/*********************************************/
/* Check if MBOX is enabled */
/*********************************************/
bool mbox_enabled = false;
TARGETING::Target * sys = NULL;
TARGETING::targetService().getTopLevelTarget( sys );
TARGETING::SpFunctions spfuncs;
if( sys &&
sys->tryGetAttr<TARGETING::ATTR_SP_FUNCTIONS>(spfuncs) &&
spfuncs.mailboxEnabled)
{
mbox_enabled = true;
}
/****************************************************/
/* MBOX IS NOT enabled: assume IPL not our request */
/****************************************************/
if ( mbox_enabled == false )
{
o_reIplRequest = false;
TRACFCOMP(g_trac_sbe, INFO_MRK"isIplFromReIplRequest(): "
"MBOX not enabled, so assume not our IPL request. "
"o_reIplRequest=%d", o_reIplRequest);
break;
}
/*********************************************/
/* MBOX enabled, send message */
/*********************************************/
msg->type = MSG_IPL_DUE_TO_SBE_UPDATE;
msg->data[0] = 0x0;
msg->data[1] = 0x0;
msg->extra_data = NULL;
err = MBOX::sendrecv(MBOX::IPL_SERVICE_QUEUE, msg);
if(err)
{
o_reIplRequest = false;
TRACFCOMP(g_trac_sbe, ERR_MRK"isIplFromReIplRequest(): "
"Error sending MBOX msg. Commit error, and assume "
"IPL wasn't requested from us: o_reIplRequest=%d",
o_reIplRequest);
errlCommit(err, SBE_COMP_ID);
break;
}
// data word 0: if non-zero: IPL is due to SBE Update Request
// data word 1: if non-zero: IPL is due to an error found by the
// FSP
if ( msg->data[1] == 0 ) // No error from FSP side
{
if( msg->data[0] != 0 )
{
// IPL is due to SBE Update Request
o_reIplRequest = true;
TRACFCOMP(g_trac_sbe, INFO_MRK"isIplFromReIplRequest(): "
"MBOX retuned that it was our IPL request: "
"o_reIplRequest=%d (d0=0x%X, d1=0x%X)",
o_reIplRequest, msg->data[0], msg->data[1]);
}
else
{
// normal IPL
o_reIplRequest = false;
TRACFCOMP(g_trac_sbe, INFO_MRK"isIplFromReIplRequest(): "
"MBOX returned that it was a normal IPL: "
"o_reIplRequest=%d (d0=0x%X, d1=0x%X)",
o_reIplRequest, msg->data[0], msg->data[1]);
}
}
else /* Non-Zero: error from FSP side. */
{
// handle error reported by FSP
o_reIplRequest = false;
TRACFCOMP(g_trac_sbe, INFO_MRK"isIplFromReIplRequest(): "
"MBOX returned error from FSP-side, so assume not our"
"IPL request: o_reIplRequest=%d (d0=0x%X, d1=0x%X)",
o_reIplRequest, msg->data[0], msg->data[1]);
}
}while(0);
/********************************************************************/
/* If check hadn't been done before, set globals for next request */
/********************************************************************/
if ( g_mbox_query_done == false )
{
g_mbox_query_done = true;
g_mbox_query_result = o_reIplRequest;
TRACUCOMP( g_trac_sbe, "isIplFromReIplRequest: save results: "
"q_done = %d, q_result = %d",
g_mbox_query_done, g_mbox_query_result);
}
// msg cleanup
msg_free(msg);
msg = NULL;
TRACDCOMP( g_trac_sbe,
EXIT_MRK"isIplFromReIplRequest(): o_reIplRequest=%d",
o_reIplRequest);
return o_reIplRequest;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t preReIplCheck(std::vector<sbeTargetState_t>& io_sbeStates_v)
{
TRACDCOMP( g_trac_sbe,
ENTER_MRK"preReIplCheck");
errlHndl_t err = NULL;
// MVPD PERMANT and Re-IPL Seeprom flags
uint8_t perm_and_reipl = 0x0;
uint8_t flags_mask = (PERMANENT_FLAG_MASK | REIPL_SEEPROM_MASK);
uint8_t flags_match_0 = SEEPROM_0_PERMANENT_VALUE |
REIPL_SEEPROM_0_VALUE;
uint8_t flags_match_1 = SEEPROM_1_PERMANENT_VALUE |
REIPL_SEEPROM_1_VALUE;
uint8_t flags_misMatch_A = SEEPROM_1_PERMANENT_VALUE |
REIPL_SEEPROM_0_VALUE;
uint8_t flags_misMatch_B = SEEPROM_0_PERMANENT_VALUE |
REIPL_SEEPROM_1_VALUE;
do{
/*****************************************************************/
/* Iterate over all the processors and check/update each for: */
/* 1) MVPD SB Keyword has correct flag set for the */
/* re-IPL SEEPROM */
/*****************************************************************/
for ( uint8_t i=0; i < io_sbeStates_v.size(); i++ )
{
/*************************************************************/
/* If not already updated, make sure MVPD SB Keyword has */
/* correct flag set for re-IPL SEEPROM */
/*************************************************************/
if (!(io_sbeStates_v[i].update_actions & MVPD_UPDATE_COMPLETE))
{
// This target has not already had its MVPD updated
// Check that perm and re-IPL boot flag match
perm_and_reipl = io_sbeStates_v[i].mvpdSbKeyword.flags &
flags_mask;
if ( ( perm_and_reipl == flags_match_0 ) ||
( perm_and_reipl == flags_match_1 ) )
{
TRACUCOMP(g_trac_sbe,"preReIplCheck(): no MVPD update "
"required for tgt=0x%X (u_a=0x%X, flag=0x%X)",
TARGETING::get_huid(io_sbeStates_v[i].target),
io_sbeStates_v[i].update_actions,
io_sbeStates_v[i].mvpdSbKeyword.flags);
continue;
}
else if ( ( perm_and_reipl == flags_misMatch_A ) ||
( perm_and_reipl == flags_misMatch_B ) )
{
if ( perm_and_reipl == flags_misMatch_A )
{
// Perm is SEEPROM 1, so set both to 1
io_sbeStates_v[i].mvpdSbKeyword.flags |=
flags_match_1;
}
else
{
// Perm is SEEPROM 0, so set both to 0
io_sbeStates_v[i].mvpdSbKeyword.flags &=
~flags_mask;
}
TRACFCOMP(g_trac_sbe,"preReIplCheck(): MVPD update "
"Requried for tgt=0x%X (u_a=0x%X, flag=0x%X)",
TARGETING::get_huid(io_sbeStates_v[i].target),
io_sbeStates_v[i].update_actions,
io_sbeStates_v[i].mvpdSbKeyword.flags);
err = getSetMVPDVersion(
io_sbeStates_v[i].target,
MVPDOP_WRITE,
io_sbeStates_v[i].mvpdSbKeyword);
if(err)
{
TRACFCOMP(g_trac_sbe,ERR_MRK"preReIplCheck() "
"Error Updating MVPD with new flag Info: "
"HUID=0x%.8X, rc=0x%.4X. Committing log "
"here and continuing.",
TARGETING::get_huid(io_sbeStates_v[i].target),
err->reasonCode());
errlCommit( err, SBE_COMP_ID );
}
// update actions field
uint32_t tmp_actions = io_sbeStates_v[i].update_actions
| MVPD_UPDATE_COMPLETE;
io_sbeStates_v[i].update_actions =
static_cast<sbeUpdateActions_t>
(tmp_actions);
continue;
}
}
} // end of for loop
}while(0);
TRACDCOMP( g_trac_sbe,
EXIT_MRK"preReIplCheck()");
return err;
}
/////////////////////////////////////////////////////////////////////
errlHndl_t masterVersionCompare(
std::vector<sbeTargetState_t>& io_sbeStates_v)
{
TRACDCOMP( g_trac_sbe,
ENTER_MRK"masterVersionCompare");
errlHndl_t err = NULL;
uint8_t mP = UINT8_MAX;
sbe_image_version_t mP_version;
sbe_image_version_t * ver_ptr;
do{
// If running in simics, don't do these checks
if ( Util::isSimicsRunning() )
{
break;
}
/*****************************************************************/
/* Iterate over all the processors to find Master Processor */
/*****************************************************************/
for ( uint8_t i=0; i < io_sbeStates_v.size(); i++ )
{
if ( io_sbeStates_v[i].target_is_master == true )
{
mP = i;
// Compare against 'current' Master side in case there is
// an issue with the other side
if (io_sbeStates_v[i].cur_seeprom_side == SBE_SEEPROM0)
{
ver_ptr =
&(io_sbeStates_v[i].seeprom_0_ver.image_version);
}
else // SBE_SEEPROM1
{
ver_ptr =
&(io_sbeStates_v[i].seeprom_1_ver.image_version);
}
memcpy(&(mP_version),
ver_ptr,
SBE_IMAGE_VERSION_SIZE);
break;
}
}
// Handle very unlikely case of not finding Master Processor
assert( (mP != UINT8_MAX),
"masterVersionCompare(): master processor not found");
/*****************************************************************/
/* Make sure that there aren't any errors associated with */
/* updating the non-master targets; otherwise you can't trust */
/* their version */
/* -- AND -- */
/* Compare 'current' Version on all processors to see if they */
/* match the 'current' version on the Master Processor */
/* */
/* NOTE: Comparison based on PNOR SBE Image and --NOT-- */
/* based on CRC (which is partly target specific) */
/* */
/* Also, there are special checks for the Master Processor */
/*****************************************************************/
// @todo RTC 107721 - Need to handle Habanero 'Golden' SEEPROM side
for ( uint8_t i=0; i < io_sbeStates_v.size(); i++ )
{
// Special Master Processor checks
if ( i == mP )
{
// Compare Versions of Both SEEPROMs to PNOR Version
// Create a Predictive Error if there's an issue
if ((0 != memcmp(
&(io_sbeStates_v[i].pnorVersion),
&(io_sbeStates_v[i].seeprom_0_ver.image_version),
SBE_IMAGE_VERSION_SIZE) )
||
(0 != memcmp(
&(io_sbeStates_v[i].pnorVersion),
&(io_sbeStates_v[i].seeprom_1_ver.image_version),
SBE_IMAGE_VERSION_SIZE) )
)
{
TRACFCOMP( g_trac_sbe,ERR_MRK"masterVersionCompare() - "
"SBE Version Miscompare Between Master "
"Target SEEPROMs (HUID=0x%.8X, current "
"side=%d)",
TARGETING::get_huid(
io_sbeStates_v[mP].target),
io_sbeStates_v[mP].cur_seeprom_side);
// Trace first 8 bytes of each section
// Full Version added to error log below
TRACFBIN( g_trac_sbe,
"PNOR Version",
&(io_sbeStates_v[i].pnorVersion),
8 ) ;
TRACFBIN(
g_trac_sbe,
"Seeprom0: Master Image Version",
&(io_sbeStates_v[mP].seeprom_0_ver.image_version),
8 ) ;
TRACFBIN(
g_trac_sbe,
"Seeprom1: Master Image Version",
&(io_sbeStates_v[mP].seeprom_1_ver.image_version),
8 ) ;
/*@
* @errortype
* @moduleid SBE_MASTER_VERSION_COMPARE
* @reasoncode SBE_MASTER_VERSION_DOWNLEVEL
* @userdata1 Master Target HUID
* @userdata2 Master Target Loop Index
* @devdesc SBE Image Verion Miscompare with
* Master Target
*/
err = new ErrlEntry(ERRL_SEV_PREDICTIVE,
SBE_MASTER_VERSION_COMPARE,
SBE_MASTER_VERSION_DOWNLEVEL,
TARGETING::get_huid(
io_sbeStates_v[mP].target),
mP);
err->collectTrace(SBE_COMP_NAME);
err->addPartCallout(
io_sbeStates_v[i].target,
HWAS::SBE_SEEPROM_PART_TYPE,
HWAS::SRCI_PRIORITY_HIGH,
HWAS::NO_DECONFIG,
HWAS::GARD_NULL );
ErrlUserDetailsTarget(io_sbeStates_v[mP].target,
"Master Target").addToLog(err);
// Add general data sections to capture the
// different versions
err->addFFDC( SBE_COMP_ID,
&(io_sbeStates_v[i].pnorVersion),
SBE_IMAGE_VERSION_SIZE,
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
err->addFFDC( SBE_COMP_ID,
&(io_sbeStates_v[mP].seeprom_0_ver.image_version),
SBE_IMAGE_VERSION_SIZE,
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
err->addFFDC( SBE_COMP_ID,
&(io_sbeStates_v[mP].seeprom_1_ver.image_version),
SBE_IMAGE_VERSION_SIZE,
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
errlCommit( err, SBE_COMP_ID );
} // end of check
// Continue to avoid remaining non-Master Processor checks
continue;
}
else
{
// Not Master, so get 'current' version
if (io_sbeStates_v[i].cur_seeprom_side == SBE_SEEPROM0)
{
ver_ptr =
&(io_sbeStates_v[i].seeprom_0_ver.image_version);
}
else // SBE_SEEPROM1
{
ver_ptr =
&(io_sbeStates_v[i].seeprom_1_ver.image_version);
}
}
// See if there was an issue updating this target
if ( io_sbeStates_v[i].err_plid != 0 )
{
TRACFCOMP( g_trac_sbe,ERR_MRK"masterVersionCompare() - "
"Error Associated with Updating Target "
"HUID=0x%.8X: plid=0x%.8X, eid=0x%.8X, "
"rc=0x%.4X. Can't trust its SBE Version",
TARGETING::get_huid(io_sbeStates_v[i].target),
io_sbeStates_v[i].err_plid,
io_sbeStates_v[i].err_eid,
io_sbeStates_v[i].err_rc);
/*@
* @errortype
* @moduleid SBE_MASTER_VERSION_COMPARE
* @reasoncode SBE_ERROR_ON_UPDATE
* @userdata1[0:31] Target HUID
* @userdata1[32:63] Original Error PLID
* @userdata2[0:31] Original Error EID
* @userdata2[32:63] Original Error Reason Code
* @devdesc Error Associated with Updating this Target
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_MASTER_VERSION_COMPARE,
SBE_ERROR_ON_UPDATE,
TWO_UINT32_TO_UINT64(
TARGETING::get_huid(
io_sbeStates_v[i].target),
io_sbeStates_v[i].err_plid),
TWO_UINT32_TO_UINT64(
io_sbeStates_v[i].err_eid,
io_sbeStates_v[i].err_rc));
// Link the 2 logs
err->plid(io_sbeStates_v[i].err_plid);
}
// Compare 'current' version of target to 'current' version
// of Master target in case Master version is down-level
else if ( 0 != memcmp( &(mP_version),
ver_ptr,
SBE_IMAGE_VERSION_SIZE) )
{
TRACFCOMP( g_trac_sbe,ERR_MRK"masterVersionCompare() - "
"SBE Version Miscompare Between Master Target "
"HUID=0x%.8X (side=%d) and Target HUID=0x%.8X "
"(side=%d)",
TARGETING::get_huid(
io_sbeStates_v[mP].target),
io_sbeStates_v[mP].cur_seeprom_side,
TARGETING::get_huid(io_sbeStates_v[i].target),
io_sbeStates_v[i].cur_seeprom_side);
// Trace first 8 bytes of each section
// Full Version added to error log below
TRACFBIN( g_trac_sbe,
"PNOR Version",
&(io_sbeStates_v[i].pnorVersion),
8 ) ;
TRACFBIN( g_trac_sbe,
"Seeprom0: Master Image Version",
&(io_sbeStates_v[mP].seeprom_0_ver.image_version),
8 ) ;
TRACFBIN( g_trac_sbe,
"Seeprom1: Master Image Version",
&(io_sbeStates_v[mP].seeprom_1_ver.image_version),
8 ) ;
TRACFBIN( g_trac_sbe,
"Seeprom0: Failing Image Version",
&(io_sbeStates_v[i].seeprom_0_ver.image_version),
8 ) ;
TRACFBIN( g_trac_sbe,
"Seeprom1: Failing Image Version",
&(io_sbeStates_v[i].seeprom_1_ver.image_version),
8 ) ;
/*@
* @errortype
* @moduleid SBE_MASTER_VERSION_COMPARE
* @reasoncode SBE_MISCOMPARE_WITH_MASTER_VERSION
* @userdata1 Master Target HUID
* @userdata2 Comparison Target HUID
* @devdesc SBE Verion Miscompare with Master Target
*/
err = new ErrlEntry(ERRL_SEV_UNRECOVERABLE,
SBE_MASTER_VERSION_COMPARE,
SBE_MISCOMPARE_WITH_MASTER_VERSION,
TARGETING::get_huid(
io_sbeStates_v[mP].target),
TARGETING::get_huid(
io_sbeStates_v[i].target));
// Add general data sections to capture the
// different versions
err->addFFDC( SBE_COMP_ID,
&(io_sbeStates_v[i].pnorVersion),
SBE_IMAGE_VERSION_SIZE,
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
err->addFFDC( SBE_COMP_ID,
&(io_sbeStates_v[mP].seeprom_0_ver.image_version),
SBE_IMAGE_VERSION_SIZE,
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
err->addFFDC( SBE_COMP_ID,
&(io_sbeStates_v[mP].seeprom_1_ver.image_version),
SBE_IMAGE_VERSION_SIZE,
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
err->addFFDC( SBE_COMP_ID,
&(io_sbeStates_v[i].seeprom_0_ver.image_version),
SBE_IMAGE_VERSION_SIZE,
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
err->addFFDC( SBE_COMP_ID,
&(io_sbeStates_v[i].seeprom_1_ver.image_version),
SBE_IMAGE_VERSION_SIZE,
0, // Version
ERRL_UDT_NOFORMAT, // parser ignores data
false ); // merge
}
// No issues
else
{
TRACUCOMP( g_trac_sbe, "masterVersionCompare: Successful "
"Version check", i, mP);
}
if ( err )
{
// Add FFDC and Commit the error log created here
err->collectTrace(SBE_COMP_NAME);
err->addPartCallout(
io_sbeStates_v[i].target,
HWAS::SBE_SEEPROM_PART_TYPE,
HWAS::SRCI_PRIORITY_HIGH,
HWAS::NO_DECONFIG,
HWAS::GARD_NULL );
ErrlUserDetailsTarget(io_sbeStates_v[mP].target,
"Master Target").addToLog(err);
ErrlUserDetailsTarget(io_sbeStates_v[i].target,
"Failing Target").addToLog(err);
errlCommit( err, SBE_COMP_ID );
}
}
}while(0);
TRACDCOMP( g_trac_sbe,
EXIT_MRK"masterVersionCompare");
return err;
}
} //end SBE Namespace
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