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errlentry.C
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errlentry.C
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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/errl/errlentry.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2011,2017 */
/* [+] 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 */
/**
* @file errlentry.C
*
* @brief Implementation of ErrlEntry class
*/
/*****************************************************************************/
// I n c l u d e s
/*****************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <hbotcompid.H>
#include <errl/errlentry.H>
#include <errl/errlmanager.H>
#include <errl/errludbacktrace.H>
#include <errl/errludcallout.H>
#include <errl/errlreasoncodes.H>
#include <errl/errludstring.H>
#include <errl/errluserdetails.H>
#include <errl/errludattribute.H>
#include <trace/interface.H>
#include <arch/ppc.H>
#include <hwas/common/hwasCallout.H>
#include <hwas/common/deconfigGard.H>
#include <targeting/common/targetservice.H>
#include <targeting/common/utilFilter.H>
#include <config.h>
#include <initservice/initserviceif.H>
#include <attributeenums.H>
#include "errlentry_consts.H"
#include <util/misc.H>
#ifdef CONFIG_BMC_IPMI
#include <ipmi/ipmisensor.H>
#include <errl/errludsensor.H>
#endif
// Hostboot Image ID string
extern char hbi_ImageId;
using namespace ERRORLOG;
using namespace HWAS;
namespace ERRORLOG
{
// Trace definition
trace_desc_t* g_trac_errl = NULL;
TRAC_INIT(&g_trac_errl, "ERRL", KILOBYTE, TRACE::BUFFER_SLOW);
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
ErrlEntry::ErrlEntry(const errlSeverity_t i_sev,
const uint8_t i_modId,
const uint16_t i_reasonCode,
const uint64_t i_user1,
const uint64_t i_user2,
const bool i_hbSwError ) :
iv_Private( static_cast<compId_t>(i_reasonCode & 0xFF00)),
iv_User( i_sev ),
// The SRC_ERR_INFO becomes part of the SRC; example, B1 in SRC B180xxxx
// iv_Src assigns the epubSubSystem_t; example, 80 in SRC B180xxxx
iv_Src( SRC_ERR_INFO, i_modId, i_reasonCode, i_user1, i_user2 ),
iv_termState(TERM_STATE_UNKNOWN),
iv_sevFinal(false),
iv_skipShowingLog(true)
{
#ifdef CONFIG_ERRL_ENTRY_TRACE
TRACFCOMP( g_trac_errl, ERR_MRK"Error created : PLID=%.8X, RC=%.4X, Mod=%.2X, Userdata=%.16X %.16X", plid(), i_reasonCode, i_modId, i_user1, i_user2 );
#else
TRACDCOMP( g_trac_errl, ERR_MRK"Error created : PLID=%.8X, RC=%.4X, Mod=%.2X, Userdata=%.16X %.16X", plid(), i_reasonCode, i_modId, i_user1, i_user2 );
#endif
// Collect the Backtrace and add it to the error log
iv_pBackTrace = new ErrlUserDetailsBackTrace();
// Automatically add a software callout if asked
if( i_hbSwError )
{
addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH );
}
}
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
ErrlEntry::~ErrlEntry()
{
// Free memory of all sections
for (std::vector<ErrlUD*>::const_iterator l_itr = iv_SectionVector.begin();
l_itr != iv_SectionVector.end(); ++l_itr)
{
delete (*l_itr);
}
delete iv_pBackTrace;
iv_pBackTrace = NULL;
}
///////////////////////////////////////////////////////////////////////////////
// add a new UD section to the list of optional sections
ErrlUD * ErrlEntry::addFFDC(const compId_t i_compId,
const void * i_dataPtr,
const uint32_t i_ffdcLen,
const uint8_t i_ffdcVer,
const uint8_t i_ffdcSubSect,
bool i_merge)
{
ErrlUD * l_ffdcSection = NULL;
if ( (i_dataPtr != NULL) && (i_ffdcLen != 0) )
{
TRACDCOMP( g_trac_errl, INFO_MRK"addFFDC(): %x %d %d - %s merge",
i_compId, i_ffdcVer,
i_ffdcSubSect, i_merge == true ? "DO" : "NO" );
// if we're to try to merge, AND there's at least 1 section
if ((i_merge) && (iv_SectionVector.size() > 0))
{ // look at the last one to see if it's a match or not.
// this is done to preserve the order of the errlog - we
// only merge like sections if they are being put in at the
// 'same time'.
ErrlUD *pErrlUD = iv_SectionVector.back();
if ((i_compId == pErrlUD->iv_header.iv_compId) &&
(i_ffdcVer == pErrlUD->iv_header.iv_ver) &&
(i_ffdcSubSect == pErrlUD->iv_header.iv_sst))
{
TRACDCOMP( g_trac_errl, INFO_MRK"appending to matched %p",
pErrlUD);
appendToFFDC(pErrlUD, i_dataPtr, i_ffdcLen);
l_ffdcSection = pErrlUD;
}
} // i_merge && >0 section
// i_merge == false, or it was true but we didn't find a match
if (l_ffdcSection == NULL)
{
// Create a user-defined section.
l_ffdcSection = new ErrlUD( i_dataPtr,
i_ffdcLen,
i_compId,
i_ffdcVer,
i_ffdcSubSect );
// Add to the vector of sections for this error log.
iv_SectionVector.push_back( l_ffdcSection );
}
}
else
{
TRACFCOMP( g_trac_errl,
ERR_MRK"addFFDC(): Invalid FFDC data pointer or size, no add");
}
return l_ffdcSection;
}
///////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
void ErrlEntry::appendToFFDC(ErrlUD * i_pErrlUD,
const void *i_dataPtr,
const uint32_t i_dataLen)
{
uint64_t l_rc;
TRACDCOMP( g_trac_errl, ENTER_MRK"appendToFFDC(%p, %p, %d)",
i_pErrlUD, i_dataPtr, i_dataLen);
l_rc = i_pErrlUD->addData( i_dataPtr, i_dataLen );
if( 0 == l_rc )
{
TRACFCOMP( g_trac_errl, ERR_MRK"ErrlEntry::appendToFFDC() rets zero" );
}
return;
}
///////////////////////////////////////////////////////////////////////////////
// Return a Boolean indication of success.
bool ErrlEntry::collectTrace(const char i_name[], const uint64_t i_max)
{
bool l_rc = false; // assume a problem.
char * l_pBuffer = NULL;
uint64_t l_cbOutput = 0;
uint64_t l_cbBuffer = 0;
do
{
// By passing nil arguments 2 and 3, obtain the size of the buffer.
// Besides getting buffer size, it validates i_name.
uint64_t l_cbFull = TRACE::getBuffer( i_name, NULL,0 );
if( 0 == l_cbFull )
{
// Problem, likely unknown trace buffer name.
TRACFCOMP( g_trac_errl,
ERR_MRK"ErrlEntry::collectTrace(): getBuffer(%s) rets zero.",i_name);
break;
}
if(( 0 == i_max ) || ( i_max >= l_cbFull ))
{
// Full trace buffer desired
l_cbBuffer = l_cbFull;
}
else
{
// Partial buffer desired
l_cbBuffer = i_max;
}
// allocate the buffer
l_pBuffer = new char[ l_cbBuffer ];
// Get the data into the buffer.
l_cbOutput = TRACE::getBuffer( i_name, l_pBuffer, l_cbBuffer );
if( 0 == l_cbOutput )
{
// Problem.
TRACFCOMP( g_trac_errl,
ERR_MRK"ErrlEntry::collectTrace(): getBuffer(%s,%ld) rets zero.",
i_name,
l_cbBuffer );
break;
}
// Save the trace buffer as a UD section on this.
ErrlUD * l_udSection = new ErrlUD( l_pBuffer,
l_cbOutput,
FIPS_ERRL_COMP_ID,
FIPS_ERRL_UDV_DEFAULT_VER_1,
FIPS_ERRL_UDT_HB_TRACE );
// Add the trace section to the vector of sections
// for this error log.
iv_SectionVector.push_back( l_udSection );
l_rc = true;
}
while(0);
delete[] l_pBuffer;
return l_rc;
}
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
void ErrlEntry::removeBackTrace()
{
delete iv_pBackTrace;
iv_pBackTrace = NULL;
}
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
void ErrlEntry::addClockCallout(const TARGETING::Target *i_target,
const HWAS::clockTypeEnum i_clockType,
const HWAS::callOutPriority i_priority,
const HWAS::DeconfigEnum i_deconfigState,
const HWAS::GARD_ErrorType i_gardErrorType)
{
TRACFCOMP(g_trac_errl, ENTER_MRK"addClockCallout(%p, %d, 0x%x)",
i_target, i_clockType, i_priority);
TARGETING::EntityPath ep;
const void *pData;
uint32_t size;
if (i_target == TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL)
{
size = sizeof(HWAS::TARGET_IS_SENTINEL);
pData = &HWAS::TARGET_IS_SENTINEL;
}
else
{ // we got a non MASTER_SENTINEL target, therefore the targeting
// module is loaded, therefore we can make this call.
ep = i_target->getAttr<TARGETING::ATTR_PHYS_PATH>();
// size is total EntityPath size minus unused path elements
size = sizeof(ep) -
(TARGETING::EntityPath::MAX_PATH_ELEMENTS - ep.size()) *
sizeof(TARGETING::EntityPath::PathElement);
pData = &ep;
}
ErrlUserDetailsCallout( pData, size, i_clockType,
i_priority, i_deconfigState, i_gardErrorType).addToLog(this);
if (i_gardErrorType != GARD_NULL)
{
setGardBit();
}
if (i_deconfigState != NO_DECONFIG)
{
setDeconfigBit();
}
} // addClockCallout
void ErrlEntry::addSensorCallout(const uint32_t i_sensorID,
const HWAS::sensorTypeEnum i_sensorType,
const HWAS::callOutPriority i_priority)
{
TRACFCOMP(g_trac_errl, ENTER_MRK"addSensorCallout(0x%X, %d, 0x%x)",
i_sensorID, i_sensorType, i_priority);
ErrlUserDetailsCallout(i_sensorID, i_sensorType, i_priority).addToLog(this);
}
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
void ErrlEntry::addPartCallout(const TARGETING::Target *i_target,
const HWAS::partTypeEnum i_partType,
const HWAS::callOutPriority i_priority,
const HWAS::DeconfigEnum i_deconfigState,
const HWAS::GARD_ErrorType i_gardErrorType)
{
TRACFCOMP(g_trac_errl, ENTER_MRK"addPartCallout(%p, %d, 0x%x)",
i_target, i_partType, i_priority);
TARGETING::EntityPath ep;
const void *pData;
uint32_t size;
if (i_target == TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL)
{
size = sizeof(HWAS::TARGET_IS_SENTINEL);
pData = &HWAS::TARGET_IS_SENTINEL;
}
else
{ // we got a non MASTER_SENTINEL target, therefore the targeting
// module is loaded, therefore we can make this call.
ep = i_target->getAttr<TARGETING::ATTR_PHYS_PATH>();
// size is total EntityPath size minus unused path elements
size = sizeof(ep) -
(TARGETING::EntityPath::MAX_PATH_ELEMENTS - ep.size()) *
sizeof(TARGETING::EntityPath::PathElement);
pData = &ep;
}
ErrlUserDetailsCallout( pData, size, i_partType,
i_priority, i_deconfigState, i_gardErrorType).addToLog(this);
if (i_gardErrorType != GARD_NULL)
{
setGardBit();
}
if (i_deconfigState != NO_DECONFIG)
{
setDeconfigBit();
}
} // addPartCallout
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
void ErrlEntry::addBusCallout(const TARGETING::Target *i_target_endp1,
const TARGETING::Target *i_target_endp2,
const HWAS::busTypeEnum i_busType,
const HWAS::callOutPriority i_priority)
{
TRACFCOMP(g_trac_errl, ENTER_MRK"addBusCallout(%p, %p, %d, 0x%x)",
i_target_endp1, i_target_endp2, i_busType, i_priority);
TARGETING::EntityPath ep1, ep2;
const void *pData1, *pData2;
uint32_t size1, size2;
if (i_target_endp1 == TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL)
{
size1 = sizeof(HWAS::TARGET_IS_SENTINEL);
pData1 = &HWAS::TARGET_IS_SENTINEL;
}
else
{ // we got a non MASTER_SENTINEL target, therefore the targeting
// module is loaded, therefore we can make this call.
ep1 = i_target_endp1->getAttr<TARGETING::ATTR_PHYS_PATH>();
// size is total EntityPath size minus unused path elements
size1 = sizeof(ep1) -
(TARGETING::EntityPath::MAX_PATH_ELEMENTS - ep1.size()) *
sizeof(TARGETING::EntityPath::PathElement);
pData1 = &ep1;
}
if (i_target_endp2 == TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL)
{
size2 = sizeof(HWAS::TARGET_IS_SENTINEL);
pData2 = &HWAS::TARGET_IS_SENTINEL;
}
else
{ // we got a non MASTER_SENTINEL target, therefore the targeting
// module is loaded, therefore we can make this call.
ep2 = i_target_endp2->getAttr<TARGETING::ATTR_PHYS_PATH>();
// size is total EntityPath size minus unused path elements
size2 = sizeof(ep2) -
(TARGETING::EntityPath::MAX_PATH_ELEMENTS - ep2.size()) *
sizeof(TARGETING::EntityPath::PathElement);
pData2 = &ep2;
}
ErrlUserDetailsCallout( pData1, size1, pData2, size2, i_busType,
i_priority).addToLog(this);
} // addBusCallout
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
void ErrlEntry::addHwCallout(const TARGETING::Target *i_target,
const HWAS::callOutPriority i_priority,
const HWAS::DeconfigEnum i_deconfigState,
const HWAS::GARD_ErrorType i_gardErrorType)
{
if (i_target == nullptr)
{
TRACFCOMP(g_trac_errl, ENTER_MRK
"addHwCallout called with NULL target");
addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_HIGH);
return;
}
if (i_target == TARGETING::MASTER_PROCESSOR_CHIP_TARGET_SENTINEL)
{
#ifdef CONFIG_ERRL_ENTRY_TRACE
TRACFCOMP(g_trac_errl, ENTER_MRK
"addHwCallout(\"MASTER_PROC_SENTINEL\" 0x%x 0x%x 0x%x)",
i_target, i_priority, i_deconfigState, i_gardErrorType);
#else
TRACDCOMP(g_trac_errl, ENTER_MRK
"addHwCallout(\"MASTER_PROC_SENTINEL\" 0x%x 0x%x 0x%x)",
i_target, i_priority, i_deconfigState, i_gardErrorType);
#endif
//need to override deconfig value to avoid possible deadlocks
// in pnor
HWAS::DeconfigEnum l_deconfigState = i_deconfigState;
if( i_deconfigState == HWAS::DELAYED_DECONFIG )
{
TRACFCOMP( g_trac_errl, "addHwCallout> Forcing delayed deconfig to standard deconfig on sentinel" );
l_deconfigState = HWAS::DECONFIG;
}
ErrlUserDetailsCallout(
&HWAS::TARGET_IS_SENTINEL, sizeof(HWAS::TARGET_IS_SENTINEL),
i_priority, l_deconfigState, i_gardErrorType).addToLog(this);
}
else
{ // we got a non MASTER_SENTINEL target, therefore the targeting
// module is loaded, therefore we can make this call.
#ifdef CONFIG_ERRL_ENTRY_TRACE
TRACFCOMP(g_trac_errl, ENTER_MRK"addHwCallout(0x%.8x 0x%x 0x%x 0x%x)",
get_huid(i_target), i_priority,
i_deconfigState, i_gardErrorType);
#else
TRACDCOMP(g_trac_errl, ENTER_MRK"addHwCallout(0x%.8x 0x%x 0x%x 0x%x)",
get_huid(i_target), i_priority,
i_deconfigState, i_gardErrorType);
#endif
TARGETING::EntityPath ep;
TARGETING::TYPE l_type = i_target->getAttr<TARGETING::ATTR_TYPE>();
TARGETING::TYPE l_type_ecid = l_type;
const TARGETING::Target* l_parentTarget = i_target;
if((l_type_ecid != TARGETING::TYPE_MEMBUF) ||
(l_type_ecid != TARGETING::TYPE_PROC) ||
(l_type_ecid != TARGETING::TYPE_NODE)
)
{
//since this returns NULL if the parent is not found,
// we need a placeholder
const TARGETING::Target* l_tempParentTarget =
getParentChip(l_parentTarget);
if(l_tempParentTarget != NULL)
{
l_parentTarget = l_tempParentTarget;
l_type_ecid = l_parentTarget->getAttr<TARGETING::ATTR_TYPE>();
}
}
//if we have found a type_membuf or type_proc, store the ecid
//otherwise, (type_node), do nothing.
if(l_type_ecid == TARGETING::TYPE_MEMBUF ||
l_type_ecid == TARGETING::TYPE_PROC)
{
ErrlUserDetailsAttribute(l_parentTarget,
TARGETING::ATTR_ECID).addToLog(this);
}
ep = i_target->getAttr<TARGETING::ATTR_PHYS_PATH>();
// size is total EntityPath size minus unused path elements
uint32_t size1 = sizeof(ep) -
(TARGETING::EntityPath::MAX_PATH_ELEMENTS - ep.size()) *
sizeof(TARGETING::EntityPath::PathElement);
ErrlUserDetailsCallout(&ep, size1,
i_priority, i_deconfigState, i_gardErrorType).addToLog(this);
}
if (i_gardErrorType != GARD_NULL)
{
setGardBit();
}
if (i_deconfigState != NO_DECONFIG)
{
setDeconfigBit();
}
} // addHwCallout
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
void ErrlEntry::addProcedureCallout(const HWAS::epubProcedureID i_procedure,
const HWAS::callOutPriority i_priority)
{
#ifdef CONFIG_ERRL_ENTRY_TRACE
TRACFCOMP( g_trac_errl, ENTER_MRK"addProcedureCallout(0x%x, 0x%x)",
i_procedure, i_priority);
#else
TRACDCOMP( g_trac_errl, ENTER_MRK"addProcedureCallout(0x%x, 0x%x)",
i_procedure, i_priority);
#endif
ErrlUserDetailsCallout(i_procedure, i_priority).addToLog(this);
} // addProcedureCallout
///////////////////////////////////////////////////////////////////////////////
// Function to add a UD section containing the Hostboot Build ID to the
// current error log being committed
void ErrlEntry::addHbBuildId()
{
// Title string
const char * const l_title = "Hostboot Build ID: ";
// Char[] based on title + Hostboot image ID
char l_pString[strlen(l_title) + strlen(&hbi_ImageId) + 1];
// Set beginning of string
strcpy(l_pString, l_title);
// Concatenate the Hostboot Image ID
strcat(l_pString, &hbi_ImageId);
// Create UD section and add string
ErrlUserDetailsString(l_pString).addToLog(this);
}
enum {
SKIP_INFO_RECOVERABLE_LOGS =
TARGETING::HIDDEN_ERRLOGS_ENABLE_NO_HIDDEN_LOGS,
ENABLE_INFORMATIONAL_LOGS =
TARGETING::HIDDEN_ERRLOGS_ENABLE_ALLOW_INFORMATIONAL,
ENABLE_RECOVERABLE_LOGS =
TARGETING::HIDDEN_ERRLOGS_ENABLE_ALLOW_RECOVERED,
ENABLE_ALL_LOGS =
TARGETING::HIDDEN_ERRLOGS_ENABLE_ALLOW_ALL_LOGS
};
void ErrlEntry::checkHiddenLogsEnable( )
{
// Note: iv_skipShowingLog is set to True by default
//0 = Prevent INFORMATIONAL/RECOVERED error logs from being processed.
//1 = Send only INFORMATIONAL error logs.
//2 = Send only RECOVERED error logs.
//3 = Allow all hidden error logs to be processed.
uint8_t l_enableLogs = getHiddenLogsEnable();
// enable all logs to be displayed
if( l_enableLogs == ENABLE_ALL_LOGS )
{
iv_skipShowingLog = false;
}
else
{
// need to check based on severity
switch( sev() )
{
case ERRL_SEV_INFORMATIONAL:
if(l_enableLogs & ENABLE_INFORMATIONAL_LOGS )
{
iv_skipShowingLog = false;
}
break;
case ERRL_SEV_RECOVERED:
if(l_enableLogs & ENABLE_RECOVERABLE_LOGS )
{
iv_skipShowingLog = false;
}
break;
default:
// For any error log that is not INFORMATIONAL
// or RECOVERED, we want to show the log
iv_skipShowingLog = false;
}
}
}
///////////////////////////////////////////////////////////////////////////////
// Called by addHwCallout to get the part and serial numbers from the current
// target so that it can be appended to the error log
#ifdef CONFIG_BMC_IPMI
void ErrlEntry::addPartAndSerialNumbersToErrLog
(const TARGETING::Target * i_target)
{
TRACDCOMP(g_trac_errl, ENTER_MRK"ErrlEntry::addPartAndSerialNumbersToErrLog()");
// Get the type of the target
const TARGETING::Target * l_target = i_target;
TARGETING::TYPE l_type = l_target->getAttr<TARGETING::ATTR_TYPE>();
do
{
if((l_type != TARGETING::TYPE_PROC ) &&
(l_type != TARGETING::TYPE_DIMM ) &&
(l_type != TARGETING::TYPE_MEMBUF ))
{
TARGETING::PredicatePostfixExpr l_procDimmMembuf;
TARGETING::TargetHandleList l_pList;
TARGETING::PredicateCTM l_procs(TARGETING::CLASS_CHIP,
TARGETING::TYPE_PROC);
TARGETING::PredicateCTM l_dimms(TARGETING::CLASS_CARD,
TARGETING::TYPE_DIMM);
TARGETING::PredicateCTM l_membufs(TARGETING::CLASS_CHIP,
TARGETING::TYPE_MEMBUF);
l_procDimmMembuf.push(&l_procs).push(&l_dimms).Or()
.push(&l_membufs).Or();
// Search for any parents with TYPE_PROC, TYPE_DIMM, or TYPE_MEMBUF
TARGETING::targetService().getAssociated( l_pList, l_target,
TARGETING::TargetService::PARENT,
TARGETING::TargetService::ALL,
&l_procDimmMembuf);
// If no parent of desired type is present, break
if(!l_pList.size())
{
TRACFCOMP(g_trac_errl, "Error! errlentry.C::addPartAndSerialNumbersToErrLog - No parent containing Serial/Part numbers found.");
break;
}
else
{
// We have found the parent
l_target = l_pList[0];
}
}
// We have made it here so we have found a target that contains
// ATTR_SERIAL_NUMBER and ATTR_PART_NUMBER
//Add the part number to the error log.
ErrlUserDetailsAttribute( l_target,
TARGETING::ATTR_PART_NUMBER).addToLog(this);
//Add the serial number to the error log.
ErrlUserDetailsAttribute( l_target,
TARGETING::ATTR_SERIAL_NUMBER).addToLog(this);
}while( 0 );
TRACDCOMP(g_trac_errl, EXIT_MRK"ErrlEntry::addPartAndSerialNumbersToErrLog()");
}
// Find the FRU ID associated with target.
// Returns first FRU ID found as it navigates the target's parent hierarchy
TARGETING::ATTR_FRU_ID_type getFRU_ID(TARGETING::Target * i_target)
{
TARGETING::ATTR_FRU_ID_type l_fruid = 0; // set to invalid FRU ID
TARGETING::TargetHandleList l_parentList;
TARGETING::Target * l_target = i_target;
uint16_t level = 0; // just a basic parent level counter
TRACDCOMP(g_trac_errl,"Looking for FRU ID starting at HUID 0x%X target",
TARGETING::get_huid(i_target));
bool foundFru = i_target->tryGetAttr<TARGETING::ATTR_FRU_ID>(l_fruid);
while (!foundFru)
{
level++;
// Get immediate parent
TARGETING::targetService().getAssociated(
l_parentList,
l_target,
TARGETING::TargetService::PARENT,
TARGETING::TargetService::IMMEDIATE);
if (l_parentList.size() != 1)
{
TRACDCOMP(g_trac_errl,"%d No Parent for HUID 0x%X target",
level, TARGETING::get_huid(l_target));
break;
}
l_target = l_parentList[0];
if (l_target->tryGetAttr<TARGETING::ATTR_FRU_ID>(l_fruid))
{
// Found 1st parent with a FRU ID
foundFru = true;
}
l_parentList.clear(); // clear out old entry
} // end while
if (foundFru)
{
TRACDCOMP(g_trac_errl,"level %d FRU ID 0x%X found for target HUID 0x%X",
level, l_fruid, TARGETING::get_huid(l_target));
}
else
{
TRACFCOMP(g_trac_errl,"Failed to find a FRU ID for target HUID 0x%X. Looked at %d levels.",
TARGETING::get_huid(i_target), level);
}
return l_fruid;
}
void ErrlEntry::addSensorDataToErrLog(TARGETING::Target * i_target,
HWAS::callOutPriority i_priority )
{
TRACDCOMP(g_trac_errl,
ENTER_MRK"ErrlEntry::addSensorDataToErrLog(HUID 0x%X, priority %d)",
TARGETING::get_huid(i_target), i_priority);
uint8_t l_sensorNum = SENSOR::getFaultSensorNumber(i_target);
TARGETING::ATTR_FRU_ID_type l_fru_id = getFRU_ID(i_target);
// Add the sensor details to the error log
ErrlUserDetailsSensor(l_fru_id, l_sensorNum, i_priority).addToLog(this);
TRACDCOMP(g_trac_errl, EXIT_MRK"ErrlEntry::addSensorDataToErrLog()");
}
#endif
///////////////////////////////////////////////////////////////////////////////
// for use by ErrlManager
void ErrlEntry::commit( compId_t i_committerComponent )
{
// TODO RTC 35258 need a better timepiece, or else apply a transform onto
// timebase for an approximation of real time.
iv_Private.iv_committed = getTB();
// User header contains the component ID of the committer.
iv_User.setComponentId( i_committerComponent );
setSubSystemIdBasedOnCallouts();
// Add the captured backtrace to the error log
if (iv_pBackTrace)
{
iv_pBackTrace->addToLog(this);
delete iv_pBackTrace;
iv_pBackTrace = NULL;
}
// Add the Hostboot Build ID to the error log
addHbBuildId();
// check to see if we should skip info and recoverable errors?
checkHiddenLogsEnable();
// Check to make sure targeting is initialized. If so, collect part and
// serial numbers
if(Util::isTargetingLoaded() && TARGETING::targetService().isInitialized())
{
// If this error was a hardware callout, add the serial and part numbers
// to the log. FSP provides this data so if there is no FSP, get them here.
if(!INITSERVICE::spBaseServicesEnabled())
{
for(size_t i = 0; i < iv_SectionVector.size(); i++)
{
ErrlUD * l_udSection = iv_SectionVector[i];
HWAS::callout_ud_t * l_ud =
reinterpret_cast<HWAS::callout_ud_t*>(l_udSection->iv_pData);
if((ERRL_COMP_ID == (l_udSection)->iv_header.iv_compId) &&
(1 == (l_udSection)->iv_header.iv_ver) &&
(ERRL_UDT_CALLOUT == (l_udSection)->iv_header.iv_sst) &&
(HWAS::HW_CALLOUT == l_ud->type))
{
uint8_t * l_uData = (uint8_t *)(l_ud + 1);
TARGETING::Target * l_target = NULL;
bool l_err = HWAS::retrieveTarget(l_uData,
l_target,
this);
if(!l_err)
{
#ifdef CONFIG_BMC_IPMI
addPartAndSerialNumbersToErrLog( l_target );
addSensorDataToErrLog( l_target, l_ud->priority);
#endif
}
else
{
TRACFCOMP(g_trac_errl, "ErrlEntry::commit() - Error retrieving target");
}
}
}
}
}
else
{
TRACFCOMP(g_trac_errl,
"TARGETING has not been initialized yet! Skipping serial/part "
"number collection!");
}
}
///////////////////////////////////////////////////////////////////////////////
// Function to set the correct subsystem ID based on callout priorities
void ErrlEntry::setSubSystemIdBasedOnCallouts()
{
TRACDCOMP(g_trac_errl, INFO_MRK
"ErrlEntry::getSubSystemIdBasedOnCallouts()");
HWAS::callout_ud_t * pData = NULL;
HWAS::callout_ud_t * highestPriorityCallout = NULL;
// look thru the errlog for any Callout UserDetail sections
for( std::vector<ErrlUD*>::const_iterator it = iv_SectionVector.begin();
it != iv_SectionVector.end();
it++ )
{
// look for a CALLOUT section
if ((ERRL_COMP_ID == (*it)->iv_header.iv_compId) &&
(1 == (*it)->iv_header.iv_ver) &&
(ERRL_UDT_CALLOUT == (*it)->iv_header.iv_sst))
{
// its a callout, grab the priority
pData = reinterpret_cast<HWAS::callout_ud_t *>
( (*it)->iv_pData );
// figure out the highest priority callout, just grab
// the first one if there are several with the same
// priority.
if( (highestPriorityCallout == NULL) ||
(pData->priority > highestPriorityCallout->priority) )
{
highestPriorityCallout = pData;
}
}
} // for each SectionVector
// if this pointer is not null it will be pointing to the
// highest priority entry
if((highestPriorityCallout == NULL) ||
(highestPriorityCallout->priority == HWAS::SRCI_PRIORITY_NONE) )
{
// no callouts in log, add default callout for hb code and
// add trace
TRACFCOMP(g_trac_errl, "WRN>> No callouts in elog %.8X", eid());
TRACFCOMP(g_trac_errl, "Adding default callout EPUB_PRC_HB_CODE ");
addProcedureCallout( HWAS::EPUB_PRC_HB_CODE,
HWAS::SRCI_PRIORITY_LOW);
iv_User.setSubSys( EPUB_FIRMWARE_HOSTBOOT );
}
else
{
pData = highestPriorityCallout;
if( pData->type == HWAS::HW_CALLOUT )
{
// rebuild the target from the entity path, then use
// the target type to determine the ssid
if (*((uint8_t *)(pData + 1)) != TARGET_IS_SENTINEL)
{
// copy the entity path from the data buffer
TARGETING::EntityPath ep;
memcpy(&ep, ( pData + 1), sizeof(ep));
// convert the EntityPath to a Target pointer
TARGETING::Target *pTarget =
TARGETING::targetService().toTarget(ep);
TRACDCOMP(g_trac_errl, INFO_MRK
"mapping highest priority target 0x%x "
"callout to determine SSID",
pTarget->getAttr<TARGETING::ATTR_TYPE>() );
// use the target type to get the failing ssid.
iv_User.setSubSys( getSubSystem(
pTarget->getAttr<TARGETING::ATTR_TYPE>()));
}
else
{
// it was the sentinel -- so just use the proc ssid
iv_User.setSubSys( EPUB_PROCESSOR_SUBSYS );
}
}
else if ( pData->type == HWAS::PROCEDURE_CALLOUT )
{
// for procedures, map the procedure to a subsystem
TRACDCOMP(g_trac_errl, INFO_MRK
"mapping highest priority procedure 0x%x "
"callout to determine SSID", pData->procedure);
iv_User.setSubSys(getSubSystem( pData->procedure));
}
else if ( pData->type == HWAS::BUS_CALLOUT )
{
TRACFCOMP(g_trac_errl, INFO_MRK
"mapping highest priority bus 0x%x "
"callout to determine SSID", pData->busType);
iv_User.setSubSys(getSubSystem(pData->busType));
}
else if ( pData->type == HWAS::CLOCK_CALLOUT )
{
TRACFCOMP(g_trac_errl, INFO_MRK
"mapping highest priority clock 0x%x "
"callout to determine SSID", pData->clockType);
iv_User.setSubSys(getSubSystem(pData->clockType));
}
else if ( pData->type == HWAS::PART_CALLOUT )
{
TRACFCOMP(g_trac_errl, INFO_MRK
"mapping highest priority part 0x%x "
"callout to determine SSID", pData->partType);
iv_User.setSubSys(getSubSystem(pData->partType));
}
else if ( pData->type == HWAS::SENSOR_CALLOUT )
{
TRACFCOMP(g_trac_errl, INFO_MRK
"mapping highest priority sensor type 0x%x "
"callout to determine SSID", pData->sensorType);
iv_User.setSubSys(getSubSystem(pData->sensorType));
}
else
{
TRACFCOMP(g_trac_errl, ERR_MRK
"Unknown callout type 0x%x, setting subsys to unknown",
pData->type);
iv_User.setSubSys(EPUB_UNKNOWN);
}
}
// add ssid to the SRC too, it is defined in the ErrlUH in FSP land
// in hb code it has been defined in both places and is also used
// in both places.
iv_Src.setSubSys( iv_User.getSubSys() );
TRACDCOMP(g_trac_errl, INFO_MRK
"ErrlEntry::setSubSystemIdBasedOnCallouts() "
"ssid selected 0x%X", iv_Src.getSubSys() );
}
///////////////////////////////////////////////////////////////////////////////
// Determine if this log should cause a termination
bool ErrlEntry::isTerminateLog() const
{
bool l_terminate = false;
switch( iv_termState )
{
case TERM_STATE_MNFG:
l_terminate = true;
break;
case TERM_STATE_SOFT:
l_terminate = true;
break;