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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/errldisplay/errldisplay.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2013,2019 */
/* [+] 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 /src/usr/errl/display/errldisplay.C
*
* @brief Implementation of ErrlDisplay class
* This will display human-readable dumps of error log entries.
*
* The strings displayed are automatically extracted from source code by
* the script ../errl/parser/genErrlParsers.pl
*
* The base image is limited to 512K, and inclusion of the error strings
* in the base make it grow beyond that limit, so the text and display
* functions are put into the extended image.
*
* The errl module in the base image will provide an interface for the
* display functions to register with it.
* When an errl is generated, the base image will see if a display function
* has been registered. If so, then it will be called to display the error.
* If not, then the base image will display the raw error data and save the
* error information into a list.
* When the display function does register itself, the errl module in the
* base image will pretty-print all of the pending errors from the list
* it generated before that point.
*/
/*****************************************************************************/
// I n c l u d e s
/*****************************************************************************/
#include <trace/interface.H>
#include <errldisplay/errldisplay.H>
#include <errl/errlmanager.H>
#include <errl/errlentry.H>
#include <errl/errlud.H>
#include <errl/errludtarget.H>
#include <errl/errlsctn.H>
#include <errl/errlreasoncodes.H>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <initservice/taskargs.H>
#include <algorithm>
#include <console/consoleif.H>
#include <targeting/common/targetservice.H>
#include <targeting/common/iterators/targetiterator.H>
#include <targeting/common/target.H>
#ifdef CONFIG_CONSOLE_OUTPUT_FFDCDISPLAY
//Generated hearder files for HWP parsing
#include <hbfwErrDisplayPlatHwpErr.H>
#include <hbfwErrDisplayPlatHwpFFDC.H>
#include <prdrErrlDisplaySupt.H>
namespace PRDF
{
namespace HOSTBOOT
{
PrdrErrSigTable & GetErrorSigTable()
{
static PrdrErrSigTable l_sigTable = PrdrErrSigTable();
return l_sigTable;
}
}
}
#endif
namespace ERRORLOGDISPLAY
{
// Trace definition
trace_desc_t* g_trac_errldisp = NULL;
TRAC_INIT(&g_trac_errldisp, "ERRLDISP", KILOBYTE, TRACE::BUFFER_SLOW);
/**
* @brief Default error log to display when we can't find one in the errorInfo
* table.
*
* The data tables and size variables
* static errLogInfo errorInfo []
* static compTableInfo compTable []
* static uint16_t errorInfoTableSize
* static uint16_t compTableSize
* are automatically generated by the ../errl/parser/genErrlTable.pl script
* and placed in the file $GENDIR/errldisplaydata.C
*/
static const ErrLogDisplay::errLogInfo unknownErrorInfo = {
0, // Module Id
0, // Reason Code
"<none>", // Description
"unknown", // Module Name
"unknown", // Reason
"", // User Data 1 string
"" // User Data 2 string
};
ErrLogDisplay& errLogDisplay()
{
return Singleton<ErrLogDisplay>::instance();
}
const ErrLogDisplay::errLogInfo* ErrLogDisplay::findErrLogInfo (
uint8_t i_moduleId, uint16_t i_reasonCode)
{
// Create local errLogInfo to search for
struct ErrLogDisplay::errLogInfo l_errLogInfo = {i_moduleId,i_reasonCode,
NULL,NULL,NULL,NULL,NULL};
errLogInfo* l_result = std::lower_bound(errorInfo,
errorInfo + errorInfoTableSize,
l_errLogInfo,
ErrLogDisplay::errorLogInfoCompare);
// Check if the lower_bound found the correct result
if ( (l_result != (errorInfo + errorInfoTableSize)) &&
(l_result->moduleId == i_moduleId) &&
(l_result->reasonCode == i_reasonCode) )
{
return l_result;
}
// Couldn't find it, so return the default unknown structure.
return &unknownErrorInfo;
}
const char * ErrLogDisplay::findComponentName (compId_t i_compId)
{
// Create local compTableInfo to search for
struct ErrLogDisplay::compTableInfo l_compTableInfo = {i_compId, NULL};
compTableInfo* l_result = std::lower_bound(compTable,
compTable + compTableSize,
l_compTableInfo,
ErrLogDisplay::compTableCompare);
// Check if the lower_bound found the correct result
if ( (l_result != (compTable + errorInfoTableSize)) &&
(l_result->value == i_compId) )
{
return l_result->name;
}
return "unknown";
}
void displayCalloutTarget (uint8_t * epRaw, size_t& o_size)
{
// Data is formatted as a callout_ud_t followed by an entity path.
// Note that in error data unused entity path elements are
// eliminated, so use data to find the length
const uint8_t pathTypeLength = *epRaw;
//# of ep elements (2 bytes each) are in lower nibble of first elem
//Master sentinel is 0xF0 so size is correct @ 1
o_size = ((pathTypeLength & 0x0F) * 2)+1;
const char * ep_str = "MASTER PROCESSOR SENTINEL";
char * tmp_str = NULL;
if( *epRaw != HWAS::TARGET_IS_SENTINEL )
{
TARGETING::EntityPath ep;
if ((o_size > sizeof(TARGETING::EntityPath)))
{
ep_str = "MALFORMED UD Entity Path";
o_size = 0; //stay safe
}
else
{
memcpy (reinterpret_cast<uint8_t*>(&ep), epRaw,o_size);
tmp_str = ep.toString();
ep_str = tmp_str;
}
}
CONSOLE::displayf(NULL, " Target : %s", ep_str);
free(tmp_str);
}
void ErrLogDisplay::displayPrdf (uint64_t i_ud1, uint64_t i_ud2)
{
//PRD stores the HUID of the callout in top word of ud1
// and the signature in the top word of ud2
uint32_t l_huid = i_ud1 >> 32;
uint32_t l_sig = i_ud2 >> 32;
CONSOLE::displayf(NULL, " PRD Signature : 0x%X 0x%X",
l_huid, l_sig);
#ifdef CONFIG_CONSOLE_OUTPUT_FFDCDISPLAY
//Find the Target from the HUID
TARGETING::Target* l_pTopLevel = NULL;
TARGETING::targetService().getTopLevelTarget(l_pTopLevel);
TARGETING::Target * l_target = l_pTopLevel->getTargetFromHuid(l_huid);
if(l_target)
{
TARGETING::TYPE l_targetType =
l_target->getAttr<TARGETING::ATTR_TYPE>();
const char * l_nameStr =
PRDF::HOSTBOOT::GetErrorSigTable()[l_targetType][l_sig].first;
const char * l_descStr =
PRDF::HOSTBOOT::GetErrorSigTable()[l_targetType][l_sig].second;
TARGETING::ATTR_FAPI_NAME_type l_fapiStr = {0};
l_target->tryGetAttr<TARGETING::ATTR_FAPI_NAME>(l_fapiStr);
if(l_nameStr)
{
CONSOLE::displayf(NULL, " Signature Description : %s (%s) %s",
l_fapiStr, l_nameStr, l_descStr);
}
else
{
CONSOLE::displayf(NULL, " Signature Description : %s UNKNOWN",
l_fapiStr);
}
}
#endif
}
void ErrLogDisplay::displayCallout (void *data, size_t size)
{
CONSOLE::displayf(NULL,
"------------------------------------------------");
// Parse encoded callout data. See ErrlUserDetailsCallout class in
// errludcallout.C for (undocumented) encoding details.
if (size >= sizeof(HWAS::callout_ud_t))
{
HWAS::callout_ud_t* callout =
reinterpret_cast<HWAS::callout_ud_t*>(data);
size_t displayTarget = 0;
bool displayGard = false;
HWAS::GARD_ErrorType l_gard = HWAS::GARD_Fatal;
bool displayDeconfig = false;
HWAS::DeconfigEnum l_deconfig = HWAS::DECONFIG;
switch ( callout->type )
{
case HWAS::CLOCK_CALLOUT:
switch (callout->clockType)
{
#define case_CLOCK_TYPE(_type) \
case HWAS::_type: CONSOLE::displayf(NULL, " Clock Type : %s", #_type); break;
case_CLOCK_TYPE(TODCLK_TYPE)
case_CLOCK_TYPE(MEMCLK_TYPE)
case_CLOCK_TYPE(OSCREFCLK_TYPE)
case_CLOCK_TYPE(OSCPCICLK_TYPE)
default:
CONSOLE::displayf(NULL, " Clock Type : UNKNOWN 0x%X",
callout->clockType);
} // switch clockType
#undef case_CLOCK_TYPE
displayGard = true;
l_gard = callout->clkGardErrorType;
displayDeconfig = true;
l_deconfig = callout->clkDeconfigState;
displayTarget = 1;
break;
case HWAS::PART_CALLOUT:
switch (callout->partType)
{
#define case_PART_TYPE(_type) \
case HWAS::_type: CONSOLE::displayf(NULL, " Part Type : %s", #_type); break;
case_PART_TYPE(FLASH_CONTROLLER_PART_TYPE)
case_PART_TYPE(PNOR_PART_TYPE)
case_PART_TYPE(SBE_SEEPROM_PART_TYPE)
case_PART_TYPE(VPD_PART_TYPE)
case_PART_TYPE(LPC_SLAVE_PART_TYPE)
case_PART_TYPE(GPIO_EXPANDER_PART_TYPE)
case_PART_TYPE(SPIVID_SLAVE_PART_TYPE)
case_PART_TYPE(BPM_CABLE_PART_TYPE)
case_PART_TYPE(NV_CONTROLLER_PART_TYPE)
default:
CONSOLE::displayf(NULL, " Part Type : UNKNOWN 0x%X",
callout->partType);
} // switch partType
#undef case_PART_TYPE
displayGard = true;
l_gard = callout->partGardErrorType;
displayDeconfig = true;
l_deconfig = callout->partDeconfigState;
displayTarget = 1;
break;
case HWAS::BUS_CALLOUT:
switch (callout->busType)
{
#define case_BUS_TYPE(_type) \
case HWAS::_type: CONSOLE::displayf(NULL, " Bus Type : %s", #_type); break;
case_BUS_TYPE(FSI_BUS_TYPE)
case_BUS_TYPE(DMI_BUS_TYPE)
case_BUS_TYPE(A_BUS_TYPE)
case_BUS_TYPE(X_BUS_TYPE)
case_BUS_TYPE(I2C_BUS_TYPE)
case_BUS_TYPE(PSI_BUS_TYPE)
case_BUS_TYPE(O_BUS_TYPE)
default:
CONSOLE::displayf(NULL, " Bus Type : UNKNOWN 0x%X",
callout->busType);
} // switch partType
#undef case_BUS_TYPE
// Data is formatted as a callout_ud_t followed by 2 entity
// paths representing each side of the link.
displayTarget = 2;
break;
case HWAS::HW_CALLOUT:
CONSOLE::displayf(NULL, " Callout type : Hardware Callout");
CONSOLE::displayf(NULL, " CPU id : %d", callout->cpuid);
displayGard = true;
l_gard = callout->gardErrorType;
displayDeconfig = true;
l_deconfig = callout->deconfigState;
displayTarget = 1;
break;
case HWAS::PROCEDURE_CALLOUT:
CONSOLE::displayf(NULL, " Callout type : Procedure Callout");
switch (callout->procedure)
{
#define case_PROCEDURE(_type) \
case HWAS::_type: CONSOLE::displayf(NULL, " Procedure : %s", #_type); break;
case_PROCEDURE(EPUB_PRC_NONE)
case_PROCEDURE(EPUB_PRC_FIND_DECONFIGURED_PART)
case_PROCEDURE(EPUB_PRC_SP_CODE)
case_PROCEDURE(EPUB_PRC_PHYP_CODE)
case_PROCEDURE(EPUB_PRC_ALL_PROCS)
case_PROCEDURE(EPUB_PRC_ALL_MEMCRDS)
case_PROCEDURE(EPUB_PRC_INVALID_PART)
case_PROCEDURE(EPUB_PRC_LVL_SUPP)
case_PROCEDURE(EPUB_PRC_PROCPATH)
case_PROCEDURE(EPUB_PRC_NO_VPD_FOR_FRU)
case_PROCEDURE(EPUB_PRC_MEMORY_PLUGGING_ERROR)
case_PROCEDURE(EPUB_PRC_FSI_PATH)
case_PROCEDURE(EPUB_PRC_PROC_AB_BUS)
case_PROCEDURE(EPUB_PRC_PROC_XYZ_BUS)
case_PROCEDURE(EPUB_PRC_MEMBUS_ERROR)
case_PROCEDURE(EPUB_PRC_EIBUS_ERROR)
case_PROCEDURE(EPUB_PRC_POWER_ERROR)
case_PROCEDURE(EPUB_PRC_MEMORY_UE)
case_PROCEDURE(EPUB_PRC_PERFORMANCE_DEGRADED)
case_PROCEDURE(EPUB_PRC_HB_CODE)
case_PROCEDURE(EPUB_PRC_TOD_CLOCK_ERR)
case_PROCEDURE(EPUB_PRC_COOLING_SYSTEM_ERR)
case_PROCEDURE(EPUB_PRC_FW_VERIFICATION_ERR)
case_PROCEDURE(EPUB_PRC_GPU_ISOLATION_PROCEDURE)
default:
CONSOLE::displayf(NULL, " Procedure : UNKNOWN: 0x%X",
callout->procedure);
break;
} // switch procedure
#undef case_PROCEDURE
break;
case HWAS::SENSOR_CALLOUT:
CONSOLE::displayf(NULL, " Sensor ID : 0x%x", callout->sensorId);
switch (callout->sensorType)
{
#define case_SENSOR_TYPE(_type) \
case HWAS::_type: CONSOLE::displayf(NULL, " Sensor Type : %s", #_type); break;
case_SENSOR_TYPE(UNKNOWN_SENSOR)
case_SENSOR_TYPE(GPU_FUNC_SENSOR)
case_SENSOR_TYPE(GPU_TEMPERATURE_SENSOR)
case_SENSOR_TYPE(GPU_MEMORY_TEMP_SENSOR)
default:
CONSOLE::displayf(NULL, " Sensor Type : UNKNOWN 0x%X",
callout->sensorType);
} // switch sensorType
#undef case_SENSOR_TYPE
break;
case HWAS::I2C_DEVICE_CALLOUT:
CONSOLE::displayf(nullptr, " Callout type : I2C Device Callout");
break;
default:
CONSOLE::displayf(NULL, " Callout type : UNKNOWN: 0x%X",
callout->type);
break;
}
///////////////////////////
// Display all the common stuff
///////////////////////////
//Display the number of targets indicated above
uint8_t * epRaw = reinterpret_cast<uint8_t*>( callout+1 ); //ptr math
size_t l_size = 0;
for(size_t numT = 0 ; numT < displayTarget; numT++)
{
// Data is formatted as a callout_ud_t followed by an entity path
// Multiple EP are packed together
epRaw += l_size;
displayCalloutTarget(epRaw,l_size);
}
if(displayDeconfig)
{
switch (l_deconfig)
{
#define case_DECONFIG_STATE(_type) \
case HWAS::_type: CONSOLE::displayf(NULL, " Deconfig State : %s", #_type); break;
case_DECONFIG_STATE(NO_DECONFIG)
case_DECONFIG_STATE(DECONFIG)
case_DECONFIG_STATE(DELAYED_DECONFIG)
default:
CONSOLE::displayf(NULL, " Deconfig State : UNKNOWN: 0x%X",
l_deconfig);
break;
} // switch deconfigState
#undef case_DECONFIG_STATE
}
if(displayGard)
{
switch (l_gard)
{
#define case_GARD_ERROR_TYPE(_type) \
case HWAS::_type: CONSOLE::displayf(NULL, " GARD Error Type : %s", #_type); break;
case_GARD_ERROR_TYPE(GARD_NULL)
case_GARD_ERROR_TYPE(GARD_User_Manual)
case_GARD_ERROR_TYPE(GARD_Unrecoverable)
case_GARD_ERROR_TYPE(GARD_Fatal)
case_GARD_ERROR_TYPE(GARD_Predictive)
case_GARD_ERROR_TYPE(GARD_Power)
case_GARD_ERROR_TYPE(GARD_PHYP)
case_GARD_ERROR_TYPE(GARD_Reconfig)
case_GARD_ERROR_TYPE(GARD_Void)
default:
CONSOLE::displayf(NULL, " GARD Error Type : UNKNOWN: 0x%X",
l_gard);
break;
} // switch gardState
#undef case_GARD_ERROR_TYPE
}
switch (callout->priority)
{
#define case_PRIORITY(_type) \
case HWAS::_type: CONSOLE::displayf(NULL, " Priority : %s", #_type); break;
case_PRIORITY(SRCI_PRIORITY_NONE)
case_PRIORITY(SRCI_PRIORITY_LOW)
case_PRIORITY(SRCI_PRIORITY_MEDC)
case_PRIORITY(SRCI_PRIORITY_MEDB)
case_PRIORITY(SRCI_PRIORITY_MEDA)
case_PRIORITY(SRCI_PRIORITY_MED)
case_PRIORITY(SRCI_PRIORITY_HIGH)
default:
CONSOLE::displayf(NULL, " Priority : UNKNOWN: 0x%X",
callout->priority);
break;
} // switch priority
#undef case_PRIORITY
}
}
//Display a "Target". This is a misnomer in that HB uses a "target"
// User detail section for lots of things. We are only going to look
// for HWPF subtypes and display those
void ErrLogDisplay::displayTarget(void *data, size_t size)
{
char *char_buf = reinterpret_cast<char*>( data );
// The first part of the buffer is a TargetLabel_t.
ERRORLOG::TargetLabel_t *label =
reinterpret_cast<ERRORLOG::TargetLabel_t*>( char_buf );
if( label->tag == 0xffffffff )
{
CONSOLE::displayf(NULL, " MASTER PROCESSOR SENTINEL" );
}
else
{
// The second part of the buffer contains the encoded target.
// See Target::targetFFDC for encoding details.
// We only care about the HUID and can look up the Target based on that.
char_buf += sizeof(ERRORLOG::TargetLabel_t);
TARGETING::AttributeTraits<TARGETING::ATTR_HUID>::Type *huid =
reinterpret_cast<TARGETING::AttributeTraits<
TARGETING::ATTR_HUID>::Type*>( char_buf );
CONSOLE::displayf(NULL, " HUID: %08x", *huid );
// Look up the HUID across all targets.
for ( TARGETING::TargetIterator ti = TARGETING::targetService().begin();
ti != TARGETING::targetService().end(); ++ti )
{
TARGETING::AttributeTraits<TARGETING::ATTR_HUID>::Type tmp_huid;
if( ti->tryGetAttr<TARGETING::ATTR_HUID>( tmp_huid ) &&
tmp_huid == *huid )
{
TARGETING::Target *target = *ti;
CONSOLE::displayf(NULL,
" Phys path: %s",
target->getAttr<TARGETING::ATTR_PHYS_PATH>().toString() );
CONSOLE::displayf(NULL,
" Affinity path: %s",
target->getAttr<TARGETING::ATTR_AFFINITY_PATH>().toString());
break;
}
}
}
}
#ifdef CONFIG_CONSOLE_OUTPUT_FFDCDISPLAY
static void printHex(char *i_buf, const size_t i_size)
{
char byte_str[256] = { 0, };
size_t pos = 0;
// Limit dump to first 32 bytes.
for ( size_t i = 0; i < std::min( i_size, 32ul ); ++i )
pos += sprintf( byte_str + pos, "%s%02X", (i % 4) == 0 ? " " : "",
i_buf[i] );
CONSOLE::displayf( NULL, " %s", byte_str );
}
#endif
void ErrLogDisplay::displayHwpf(void *data, size_t size, uint8_t i_type)
{
#ifdef CONFIG_CONSOLE_OUTPUT_FFDCDISPLAY
uint32_t *word_buf = reinterpret_cast<uint32_t*>( data );
switch ( i_type )
{
case ERRORLOG::ERRL_UDT_STRING:
//this is error code str -- single word of data is HWPF RC
CONSOLE::displayf( NULL,
"------------------------------------------------" );
const char *rc;
const char *desc;
fapi2::hbfwErrLookupHwpRc( *word_buf, rc, desc );
CONSOLE::displayf( NULL, " HwpReturnCode : %s",
rc ? rc : "Unknown" );
CONSOLE::displayf( NULL, " HWP Error description : %s",
desc ? desc : "Unknown" );
break;
case ERRORLOG::ERRL_UDT_TARGET:
{
//this is HWPF FFDC. First word is hash, rest of data is hex
//reserve space for 16 words of data with spaces between
CONSOLE::displayf( NULL,
"------------------------------------------------" );
fapi2::hbfwFfdcType type;
uint64_t value;
const char *str;
int index = 0;
char *buf = reinterpret_cast<char*>( data ) + sizeof( *word_buf );
size -= sizeof( *word_buf );
while ( fapi2::hbfwErrLookupHwpRcFFDC( *word_buf, index, type, value,
str ) )
{
if( type == fapi2::HBFW_FFDC_TYPE_HWP_RC_FFDC )
{
const char *rc;
const char *desc;
fapi2::hbfwErrLookupHwpRc( value, rc, desc );
CONSOLE::displayf( NULL, " HwpReturnCode : %s",
rc ? rc : "Unknown" );
CONSOLE::displayf( NULL, " FFDC : %s",
str ? str : "Unknown" );
printHex(buf, size);
size = 0;
}
else if( type == fapi2::HBFW_FFDC_TYPE_SCOM_FAIL )
{
uint64_t val64 = be64toh( *reinterpret_cast<uint64_t*>( buf ) );
CONSOLE::displayf( NULL, " Failed SCOM address : %#016lX",
val64 );
}
else if( type == fapi2::HBFW_FFDC_TYPE_PIB_RC )
{
uint64_t val32 = be64toh( *reinterpret_cast<uint32_t*>( buf ) );
CONSOLE::displayf( NULL, " PIB RC : %#08lX",
val32 );
}
else if( type == fapi2::HBFW_FFDC_TYPE_REGISTER_SET )
{
CONSOLE::displayf( NULL, " Register FFDC : %s",
str ? str : "Unknown" );
}
else if( type == fapi2::HBFW_FFDC_TYPE_CHIP_POSITION
&& (size >= sizeof(uint32_t)) )
{
uint32_t val32 = be32toh( *reinterpret_cast<uint32_t*>( buf ) );
CONSOLE::displayf( NULL, " Chip Position : %X",
val32 );
buf += sizeof(uint32_t);
size -= sizeof(uint32_t);
}
else if( type == fapi2::HBFW_FFDC_TYPE_CFAM_REG
&& (size >= sizeof(uint32_t)) )
{
uint32_t val32 = be32toh( *reinterpret_cast<uint32_t*>( buf ) );
CONSOLE::displayf( NULL, " CFAM Register : %s",
str ? str : "Unknown" );
CONSOLE::displayf( NULL, " %08X", val32 );
buf += sizeof(uint32_t);
size -= sizeof(uint32_t);
}
else if( type == fapi2::HBFW_FFDC_TYPE_SCOM_REG
&& (size >= sizeof(uint64_t)) )
{
uint64_t val64 = be64toh( *reinterpret_cast<uint64_t*>( buf ) );
CONSOLE::displayf( NULL, " SCOM Register : %s",
str ? str : "Unknown" );
CONSOLE::displayf( NULL, " %08llX %08llX",
(val64 >> 32) & 0xffffffff,
(val64 & 0xffffffff) );
buf += sizeof(uint64_t);
size -= sizeof(uint64_t);
}
index++;
}
break;
}
}
#endif
}
//
// Display a human-readable form of an error.
void ErrLogDisplay::msgDisplay (const errlHndl_t &i_err,
compId_t i_committerComp)
{
TRACDCOMP( g_trac_errldisp, ENTER_MRK "ErrLogDisplay::msgDisplay" );
do
{
// Decide whether or not to skip the error log
if( i_err->getSkipShowingLog() )
{
TRACDCOMP( g_trac_errldisp, INFO_MRK"msgDisplay: %.8X is INFORMATIONAL/RECOVERED; skipping...", i_err->eid());
break;
}
const errLogInfo *info = findErrLogInfo ( i_err->moduleId(),
i_err->reasonCode());
CONSOLE::displayf(NULL,
"================================================");
CONSOLE::displayf(NULL, "Error reported by %s (0x%04X) PLID 0x%08X",
findComponentName( i_committerComp ),
i_committerComp, i_err->plid() );
//PRD doesn't follow the rest of the HB conventions
// Handle them special
if(i_committerComp == PRDF_COMP_ID)
{
displayPrdf(i_err->getUserData1(), i_err->getUserData2());
}
else
{
CONSOLE::displayf(NULL, " %s", info->descriptString);
CONSOLE::displayf(NULL, " ModuleId 0x%02x %s",
i_err->moduleId(), info->moduleName);
CONSOLE::displayf(NULL, " ReasonCode 0x%04x %s",
i_err->reasonCode(), info->reasonString);
}
CONSOLE::displayf(NULL, " UserData1 %s : 0x%016lx",
info->userData1String, i_err->getUserData1());
CONSOLE::displayf(NULL, " UserData2 %s : 0x%016lx",
info->userData2String, i_err->getUserData2());
// Loop through and print interesting user data sections.
for ( size_t i = 0; i < i_err->iv_SectionVector.size(); ++i )
{
ERRORLOG::ErrlUD *user_data = i_err->iv_SectionVector[i];
//HWPF subsections abuse the rules... handle it special
if(user_data->iv_header.iv_compId == HWPF_COMP_ID)
{
displayHwpf( user_data->iv_pData, user_data->iv_Size,
user_data->iv_header.iv_sst);
}
else
{
switch ( user_data->iv_header.iv_sst )
{
case ERRORLOG::ERRL_UDT_CALLOUT:
displayCallout( user_data->iv_pData, user_data->iv_Size );
break;
case ERRORLOG::ERRL_UDT_STRING:
CONSOLE::displayf(NULL,
"------------------------------------------------");
CONSOLE::displayf(NULL,
" %s",
reinterpret_cast<char*>( user_data->iv_pData ) );
break;
}
}
}
CONSOLE::displayf(NULL,
"================================================" );
CONSOLE::flush();
}while( 0 );
TRACDCOMP( g_trac_errldisp, EXIT_MRK "ErrLogDisplay::msgDisplay" );
}
/**
* @brief This is the task entry point. It will register ErrlDisplay module with
* the base image Errl module.
*
* @param[in/out] io_taskRetErrl Errl module to register with ErrlDisplay
* instance
*
* @return None
*/
static void errLogDisplayEntryPoint (errlHndl_t &io_taskRetErrl)
{
TRACFCOMP( g_trac_errldisp, ENTER_MRK "ErrLogDisplay::errLogDisplayEntryPoint" );
io_taskRetErrl = Singleton<ErrLogDisplay>::instance().init();
TRACFCOMP( g_trac_errldisp, EXIT_MRK "ErrLogDisplay::errLogDisplayEntryPoint" );
}
TASK_ENTRY_MACRO( errLogDisplayEntryPoint );
errlHndl_t ErrLogDisplay::init()
{
ERRORLOG::ErrlManager::errlResourceReady(ERRORLOG::ERRLDISP);
return NULL;
}
} // End namespace
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