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ipmifruinv.C
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ipmifruinv.C
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/* IBM_PROLOG_BEGIN_TAG */
/* This is an automatically generated prolog. */
/* */
/* $Source: src/usr/ipmi/ipmifruinv.C $ */
/* */
/* OpenPOWER HostBoot Project */
/* */
/* Contributors Listed Below - COPYRIGHT 2014,2017 */
/* [+] International Business Machines Corp. */
/* */
/* */
/* Licensed under the Apache License, Version 2.0 (the "License"); */
/* you may not use this file except in compliance with the License. */
/* You may obtain a copy of the License at */
/* */
/* http://www.apache.org/licenses/LICENSE-2.0 */
/* */
/* Unless required by applicable law or agreed to in writing, software */
/* distributed under the License is distributed on an "AS IS" BASIS, */
/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */
/* implied. See the License for the specific language governing */
/* permissions and limitations under the License. */
/* */
/* IBM_PROLOG_END_TAG */
#include <vector>
#include <map>
#include <vpd/mvpdenums.H>
#include <devicefw/userif.H>
#include <vpd/spdenums.H>
#include <vpd/cvpdenums.H>
#include <vpd/pvpdenums.H>
#include <targeting/common/commontargeting.H>
#include <targeting/common/utilFilter.H>
#include <errl/errlmanager.H>
#include <ipmi/ipmifruinv.H>
#include <ipmi/ipmisensor.H>
#include "ipmifru.H"
#include "ipmifruinvprvt.H"
#include <stdio.h>
#include <assert.h>
#include <pnor/pnorif.H>
#include <ipmi/ipmi_reasoncodes.H>
extern trace_desc_t * g_trac_ipmi;
/**
* @brief Compairs two pairs - used for std:sort
* @param[in] lhs - left pair for comparison
* @param[in] rhs - right pair for comparison
*/
inline static bool comparePairs(
const std::pair<TARGETING::TargetHandle_t, uint8_t>& i_lhs,
const std::pair<TARGETING::TargetHandle_t, uint8_t>& i_rhs)
{
bool l_compare = i_lhs.second < i_rhs.second;
// in case of a tie, if the left is a Node, sort it first.
if (i_lhs.second == i_rhs.second)
{
if (TARGETING::TYPE_NODE==i_lhs.first->getAttr<TARGETING::ATTR_TYPE>())
{
l_compare = true;
}
}
return l_compare;
}
IpmiFruInv::IpmiFruInv(TARGETING::TargetHandle_t i_target)
:iv_target(i_target)
{
};
IpmiFruInv::~IpmiFruInv()
{}
IpmiFruInv *IpmiFruInv::Factory(TARGETING::TargetHandleList i_targets,
bool i_updateData)
{
IpmiFruInv *l_fru = NULL;
TARGETING::TargetHandle_t l_target;
assert( ! i_targets.empty(),
"IpmiFruInv::Factory: Input was empty List of Targets");
l_target = i_targets[0];
switch (l_target->getAttr<TARGETING::ATTR_TYPE>())
{
case TARGETING::TYPE_DIMM:
l_fru = new isdimmIpmiFruInv(l_target);
break;
case TARGETING::TYPE_PROC:
l_fru = new procIpmiFruInv(l_target, i_updateData);
break;
case TARGETING::TYPE_MEMBUF:
// A memory riser card will have a mem buff with a distinct FRU ID
l_fru = new membufIpmiFruInv(l_target, i_targets, i_updateData);
break;
case TARGETING::TYPE_NODE:
// When the planar eeprom is shared for planar vpd and memory vpd,
// the node and membufs will have the same FRU ID. The node has
// been sorted ahead of the membufs. The membufs are extra targets
// for their ECIDs.
l_fru = new backplaneIpmiFruInv(l_target, i_targets, i_updateData);
break;
case TARGETING::TYPE_SYS:
// Use sys target for setting System Firmware Info
l_fru = new systemFwIpmiFruInv(l_target);
break;
default:
assert(false,
"IpmiFruInv::Factory: No support for target type given: [%08x]",
l_target->getAttr<TARGETING::ATTR_TYPE>());
break;
}
return l_fru;
}
void IpmiFruInv::sendFruData(uint8_t i_deviceId)
{
if (iv_record_data.size() > 0)
{
//Use IMPIFRU::writeData to send data to service processor
// it will do any error handling and memory management
IPMIFRU::writeData(i_deviceId, &iv_record_data[0],
iv_record_data.size(), IPMIFRUINV::DEFAULT_FRU_OFFSET);
}
else
{
TRACFCOMP(g_trac_ipmi,"IpmiFruInv::sendFruData: "
"Not sending data for deviceId[%08x], no data found for this record.");
}
return;
}
void IpmiFruInv::printRecordDebugData(const std::vector<uint8_t> &i_data)
{
if (i_data.size() > 0)
{
TRACFBIN(g_trac_ipmi, "IpmiRecordData", &i_data[0], i_data.size());
}
else
{
TRACFCOMP(g_trac_ipmi,"IpmiRecordData empty");
}
}
//This uses the template method design pattern
// Since all IPMI Fru Inventory records all contain the same 5 sections
// (whether they are populated or empty) this funciton will build all 5
// sections, build the header for the entire record, and then combine all 5
// records into one full record
errlHndl_t IpmiFruInv::buildFruInvRecord(void)
{
errlHndl_t l_errl = NULL;
std::vector<uint8_t> l_iu_data;
std::vector<uint8_t> l_ci_data;
std::vector<uint8_t> l_bi_data;
std::vector<uint8_t> l_pi_data;
std::vector<uint8_t> l_mr_data;
do {
//First build up all 5 records individually
l_errl = buildInternalUseArea(l_iu_data);
if (l_errl) { break; }
l_errl = buildChassisInfoArea(l_ci_data);
if (l_errl) { break; }
l_errl = buildBoardInfoArea(l_bi_data);
if (l_errl) { break; }
l_errl = buildProductInfoArea(l_pi_data);
if (l_errl) { break; }
l_errl = buildMultiRecordInfoArea(l_mr_data);
if (l_errl) { break; }
//Now build common header with data for this FRU Inv Record
buildCommonHeader(l_iu_data, l_ci_data, l_bi_data,
l_pi_data, l_mr_data);
//Combine everything into one full IPMI Fru Inventory Record
completeRecord(l_iu_data, l_ci_data, l_bi_data,
l_pi_data, l_mr_data);
} while(0);
if (l_errl)
{
TRACFCOMP(g_trac_ipmi,"IpmiFruInv::buildFruInvRecord Error encountered"
" building up Fru Inventory Record sections.");
}
return l_errl;
}
void IpmiFruInv::buildCommonHeader(
const std::vector<uint8_t> &i_internal_use_data,
const std::vector<uint8_t> &i_chassis_data,
const std::vector<uint8_t> &i_board_data,
const std::vector<uint8_t> &i_product_data,
const std::vector<uint8_t> &i_multirecord_data)
{
//Use this variable to increment size of header as we go along to determine
// offset for the subsequent area offsets
uint32_t l_cur_data_offset = 0;
//First byte is id for version of FRU Info Storage Spec used
addHeaderFormat(iv_record_data);
//2nd byte is offset to internal use data
buildCommonHeaderSection(iv_record_data, i_internal_use_data.size(),
l_cur_data_offset);
//3rd byte is offset to chassis data
buildCommonHeaderSection(iv_record_data, i_chassis_data.size(),
l_cur_data_offset);
//4th byte is offset to board data
buildCommonHeaderSection(iv_record_data, i_board_data.size(),
l_cur_data_offset);
//5th byte is offset to product data
buildCommonHeaderSection(iv_record_data, i_product_data.size(),
l_cur_data_offset);
//6th byte is offset to multirecord data
buildCommonHeaderSection(iv_record_data, i_multirecord_data.size(),
l_cur_data_offset);
//7th byte is PAD
padData(iv_record_data);
//8th (Final byte of Header Format) is the checksum
addDataChecksum(iv_record_data);
}
void IpmiFruInv::completeRecord(const std::vector<uint8_t> &i_internal_use_data,
const std::vector<uint8_t> &i_chassis_data,
const std::vector<uint8_t> &i_board_data,
const std::vector<uint8_t> &i_product_data,
const std::vector<uint8_t> &i_multirecord_data)
{
addDataToRecord(i_internal_use_data);
addDataToRecord(i_chassis_data);
addDataToRecord(i_board_data);
addDataToRecord(i_product_data);
addDataToRecord(i_multirecord_data);
}
//Helper function to simply combine vectors together
void IpmiFruInv::addDataToRecord(const std::vector<uint8_t> &i_data)
{
iv_record_data.insert(iv_record_data.end(), i_data.begin(), i_data.end());
}
//Helper function to create an 'empty' record
errlHndl_t IpmiFruInv::buildEmptyArea(std::vector<uint8_t> &i_data)
{
return NULL;
}
//Helper function to pad a data record. Most of the IPMI Fru Invenotry
// Record format works with each section being a multiple of 8 bytes
// so padding is needed to make records properly formatted
void IpmiFruInv::padData(std::vector<uint8_t> &io_data)
{
uint8_t l_pad_remainder = (io_data.size() + IPMIFRUINV::CHECKSUM_SIZE) %
IPMIFRUINV::RECORD_UNIT_OF_MEASUREMENT;
if (l_pad_remainder)
{
io_data.insert(io_data.end(),
IPMIFRUINV::RECORD_UNIT_OF_MEASUREMENT - l_pad_remainder,
uint8_t(0));
}
return;
}
//Creates a 2's complement checksum at the end of the given data vector
void IpmiFruInv::addDataChecksum(std::vector<uint8_t> &io_data)
{
uint8_t l_checksum_val = 0;
std::vector<uint8_t>::iterator l_iter;
for (l_iter = io_data.begin(); l_iter != io_data.end(); ++l_iter)
{
l_checksum_val += *l_iter;
}
// Push the Zero checksum as the last byte of this data
// This appears to be a simple summation of all the bytes
io_data.push_back(-l_checksum_val);
return;
}
//The Common Header points to the offset for each of the 5 data record
// sections, this function is used in helping to build that up.
void IpmiFruInv::buildCommonHeaderSection(std::vector<uint8_t> &io_out_data,
uint32_t i_section_data_size,
uint32_t &io_cur_data_offset)
{
//Check if data for internal use section populated
if (i_section_data_size == 0)
{
//Indicate record not prsent
io_out_data.push_back(IPMIFRUINV::RECORD_NOT_PRESENT);
}
else {
//Place data to define offset to internal_use_data section
io_out_data.push_back((io_cur_data_offset +
IPMIFRUINV::COMMON_HEADER_FORMAT_SIZE)
/ IPMIFRUINV::RECORD_UNIT_OF_MEASUREMENT);
io_cur_data_offset += i_section_data_size;
}
return;
}
//Helper function to add the IPMI Fru Inventory Format to the
// beginning of the data vector passed in
void IpmiFruInv::addHeaderFormat(std::vector<uint8_t> &io_data)
{
//Add id for version of FRU Info Storage Spec used
io_data.push_back(IPMIFRUINV::SPEC_VERSION);
return;
}
//Helper function to complete the formatting for a given section
// that can be completed prior to adding section data
// It will add the spec version, create a placeholder for the data
// size and set the language code if desired
void IpmiFruInv::preFormatProcessing(std::vector<uint8_t> &io_data,
bool i_setLanguageCode)
{
//Add id for version of FRU Info Storage Spec used
addHeaderFormat(io_data);
//Add Data Size - 0 as a placeholder, can edit after the data is finalized
io_data.push_back(uint8_t(0));
if (i_setLanguageCode)
{
//Add Language Code
io_data.push_back(uint8_t(IPMIFRUINV::ENGLISH_LANGUAGE_CODE));
}
}
//Helper function to complete the formatting for a given section
// It will calculate overall section size,
// pad the section if needed, and add the data checksum
void IpmiFruInv::postFormatProcessing(std::vector<uint8_t> &io_data)
{
//This area needs to be padded to a multiple of 8 bytes (after checksum)
padData(io_data);
//Set size of data info area
setAreaSize(io_data, 1);
//Finally add board info checksum
addDataChecksum(io_data);
return;
}
//Helper function containing the logic to set the proper size of a data section
void IpmiFruInv::setAreaSize(std::vector<uint8_t> &io_data, uint8_t i_offset)
{
io_data.at(i_offset) = (io_data.size() + IPMIFRUINV::CHECKSUM_SIZE)
/ IPMIFRUINV::RECORD_UNIT_OF_MEASUREMENT;
return;
}
// Function to compute the correct data for the Mfg date/time section.
// IPMI expects the time to be in seconds from 01/01/1996.
errlHndl_t IpmiFruInv::formatMfgData(std::vector<uint8_t> i_mfgDateData,
uint32_t& o_mfgDate)
{
errlHndl_t l_errl = NULL;
// MB keyword size is 8 hex bytes, throw an error if it is smaller so we
// don't do an invalid access.
if (i_mfgDateData.size() != 8)
{
/*@
* @errortype
* @moduleid IPMI::MOD_IPMIFRU_INV
* @reasoncode IPMI::RC_INVALID_VPD_DATA
* @userdata1 Size of vpd data
*
* @devdesc VPD data is invalid size
*/
l_errl = new ERRORLOG::ErrlEntry(ERRORLOG::ERRL_SEV_INFORMATIONAL,
IPMI::MOD_IPMIFRU_INV,
IPMI::RC_INVALID_VPD_DATA,
i_mfgDateData.size());
TARGETING::Target* nodeTarget = NULL;
TARGETING::PredicateCTM nodeFilter(TARGETING::CLASS_ENC,
TARGETING::TYPE_NODE);
TARGETING::TargetRangeFilter nodeItr(
TARGETING::targetService().begin(),
TARGETING::targetService().end(),
&nodeFilter);
nodeTarget = *nodeItr;
// Callout out node since that is where the VPD lives
l_errl->addHwCallout(nodeTarget,
HWAS::SRCI_PRIORITY_HIGH,
HWAS::NO_DECONFIG,
HWAS::GARD_NULL );
}
else
{
// Convert Centuries / Years / months / day / hour / minute / second
// into a uint64 representing number of minute since 1/1/96
// The vpd data is expected to be in this format VVCCYYmmDDHHMMSS
uint8_t century = i_mfgDateData.at(1);
uint8_t year = i_mfgDateData.at(2);
uint8_t month = i_mfgDateData.at(3);
uint8_t day = i_mfgDateData.at(4);
uint8_t hour = i_mfgDateData.at(5);
uint8_t minute = i_mfgDateData.at(6);
// Subtract year
uint8_t numOfYears = (century*100 + year) - 1996;
// Subtract month
uint8_t numOfMonths = month - 1;
// Subtract day
uint16_t numOfDays = day - 1;
// Add the specific number of days for the months given
for (uint8_t i=0; i < numOfMonths; i++)
{
numOfDays += daysInMonth[i];
}
// Add the number of days for the number of year given
numOfDays += (numOfYears*365);
// Add a day for every leap year
// Check if we need to consider the current year
if (month <= 2)
{
// We don't need to consider this year for a leap year, as it
// wouldn't have happened yet. Decrement a year.
year = year - 1;
}
uint8_t numLeapYears = 0;
// For every year from 1996 until the build date year, check if it's a
// leap year
for(uint16_t i = 1996; i <= (century*100 + year); i++)
{
// If the year is divisible by 4, its a leap year. Don't have to
// worry about centuries since the only possible century is 2000
// and it was a leap year.
if(i % 4 == 0)
{
numLeapYears++;
}
}
numOfDays += numLeapYears;
// Convert into minutes
o_mfgDate = (((numOfDays*24)*60) + (hour*60) + minute);
}
return l_errl;
}
// Function to set the data for the Mfg date/time section.
void IpmiFruInv::setMfgData(std::vector<uint8_t> &io_data,
std::vector<uint8_t> &mfgDateData)
{
errlHndl_t l_errl = NULL;
uint32_t mfgDate = 0;
// Pass mfgDateData vector to format function to get the minute integer
l_errl = formatMfgData(mfgDateData, mfgDate);
if (l_errl)
{
// MFG date isn't entierly necessary. Let's just delete and
// continue.
TRACFCOMP(g_trac_ipmi,"backplaneIpmiFruInv::buildBoardInfoArea - "
"Error from formatMfgData. Using default MFG Date/Time.");
io_data.push_back(0);
io_data.push_back(0);
io_data.push_back(0);
delete l_errl;
}
else
{
if(((mfgDate & 0xFF000000) >> 24) != 0)
{
// If there is data in these bits, we have exceeded the
// maximum time we can display (IPMI only takes in 3 bytes
// of hex, FFFFFF)
TRACFCOMP(g_trac_ipmi,"backplaneIpmiFruInv::buildBoardInfoArea "
"- Exeeded maximum allowed build date to display. Using "
"default MFG Date/Time.");
io_data.push_back(0);
io_data.push_back(0);
io_data.push_back(0);
}
else
{
// Convert mfgDate to hex
uint8_t l_leastSig = (mfgDate & 0x000000FF);
uint8_t l_middleSig = (mfgDate & 0x0000FF00) >> 8;
uint8_t l_mostSig = (mfgDate & 0x00FF0000) >> 16;
// Push data into io_data - least significant byte first
io_data.push_back(l_leastSig);
io_data.push_back(l_middleSig);
io_data.push_back(l_mostSig);
}
}
}
//##############################################################################
isdimmIpmiFruInv::isdimmIpmiFruInv( TARGETING::TargetHandle_t i_target )
:IpmiFruInv(i_target)
{
};
errlHndl_t isdimmIpmiFruInv::buildInternalUseArea(std::vector<uint8_t> &io_data)
{
//This section not needed for isdimm type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t isdimmIpmiFruInv::buildChassisInfoArea(std::vector<uint8_t> &io_data)
{
//This section not needed for isdimm type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t isdimmIpmiFruInv::buildBoardInfoArea(std::vector<uint8_t> &io_data)
{
//This section not needed for isdimm type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t isdimmIpmiFruInv::buildMultiRecordInfoArea(
std::vector<uint8_t> &io_data)
{
//This section not needed for isdimm type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t isdimmIpmiFruInv::buildProductInfoArea(std::vector<uint8_t> &io_data)
{
errlHndl_t l_errl = NULL;
do {
//Set formatting data that goes at the beginning of the record
preFormatProcessing(io_data, true);
//Set Manufacturer's Name - Use JEDEC standard MFG ID
l_errl = addVpdData(io_data, SPD::MODULE_MANUFACTURER_ID);
if (l_errl) { break; }
//Set Product Name - Use Basic SPD Memory Type
l_errl = addVpdData(io_data, SPD::BASIC_MEMORY_TYPE);
if (l_errl) { break; }
//Set Product Part/Model Number
l_errl = addVpdData(io_data, SPD::MODULE_PART_NUMBER, true);
if (l_errl) { break; }
//Set Product Version
l_errl = addVpdData(io_data, SPD::MODULE_REVISION_CODE);
if (l_errl) { break; }
//Set Product Serial Number
l_errl = addVpdData(io_data, SPD::MODULE_SERIAL_NUMBER);
if (l_errl) { break; }
//Add Asset Tag
io_data.push_back(uint8_t(0)); //No Asset Tag needed - O bytes
//FRU File ID - Empty
io_data.push_back(IPMIFRUINV::TYPELENGTH_BYTE_NULL);
io_data.push_back(uint8_t(0)); // Empty FRU File ID bytes
io_data.push_back(IPMIFRUINV::END_OF_CUSTOM_FIELDS);
} while (0);
//Finalize section formatting
postFormatProcessing(io_data);
if (l_errl)
{
TRACFCOMP(g_trac_ipmi,"isdimIpmiFruInv::buildProductInfoArea - Errors "
"collecting product info data from VPD");
}
return l_errl;
}
errlHndl_t isdimmIpmiFruInv::addVpdData(std::vector<uint8_t> &io_data,
uint8_t i_keyword,
bool i_ascii)
{
size_t l_vpdSize = 0;
errlHndl_t l_errl = NULL;
do {
//First get size with NULL call:
l_errl = deviceRead(iv_target,
NULL,
l_vpdSize,
DEVICE_SPD_ADDRESS(i_keyword));
if (l_errl)
{
TRACFCOMP(g_trac_ipmi,"isdimmIpmiFruInv::addVpdData - "
"Error while reading SPD keyword size for keyword 0x%x",
i_keyword);
break;
}
//Assert if vpd field is too large to fit in IPMI fru inventory format
assert(l_vpdSize < IPMIFRUINV::TYPELENGTH_BYTE_ASCII);
if (l_vpdSize > 0)
{
//Determine how big data is and expand it to handle the soon to
//be read VPD data
uint8_t l_offset = io_data.size();
io_data.resize(l_offset + 1 + l_vpdSize);
//Add on the data to the type/length byte indicating it is ascii
// otherwise leave it as binary
if (i_ascii)
{
io_data.at(l_offset) = l_vpdSize
+ IPMIFRUINV::TYPELENGTH_BYTE_ASCII;
}
else
{
io_data.at(l_offset) = l_vpdSize;
}
l_offset += 1;
//Read the VPD data directly into fru inventory data buffer
l_errl = deviceRead(iv_target,&io_data[l_offset], l_vpdSize,
DEVICE_SPD_ADDRESS(i_keyword));
}
else
{
TRACFCOMP(g_trac_ipmi,"isdimmIpmiFruInv::addVpdData - "
" No size returned for SPD keyword");
}
} while(0);
if (l_errl)
{
TRACFCOMP(g_trac_ipmi, "addVpdData - Error acquiring data from Vpd.");
}
return l_errl;
}
//##############################################################################
procIpmiFruInv::procIpmiFruInv( TARGETING::TargetHandle_t i_target,
bool i_isUpdate )
:IpmiFruInv(i_target),
iv_isUpdate(i_isUpdate)
{
};
errlHndl_t procIpmiFruInv::buildInternalUseArea(std::vector<uint8_t> &io_data)
{
//This section not needed for proc type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t procIpmiFruInv::buildChassisInfoArea(std::vector<uint8_t> &io_data)
{
//This section not needed for proc type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t procIpmiFruInv::buildBoardInfoArea(std::vector<uint8_t> &io_data)
{
errlHndl_t l_errl = NULL;
do {
//Set formatting data that goes at the beginning of the record
preFormatProcessing(io_data, true);
//MFG Date/Time - Blank
io_data.push_back(0);
io_data.push_back(0);
io_data.push_back(0);
//Board Manufacturer - IBM
//Board MFG - Type/Length Byte
// - Indicate 8-bit Ascii + Latin 1 (0xC0)
// - and a size of 3 for "IBM" - 0x3
// - add together and the value for this byte is 0xC3
io_data.push_back(0xC3);
// - Now put in 'IBM'
io_data.push_back('I');
io_data.push_back('B');
io_data.push_back('M');
//Set Board Info description
l_errl = addVpdData(io_data, MVPD::VINI, MVPD::DR, true);
if (l_errl) { break; }
//Set Board Info serial number
l_errl = addVpdData(io_data, MVPD::VRML, MVPD::SN, true);
if (l_errl) { break; }
//Set Board part number
l_errl = addVpdData(io_data, MVPD::VRML, MVPD::PN, true);
if (l_errl) { break; }
//Set Board FRU File ID
l_errl = addVpdData(io_data, MVPD::VINI, MVPD::VZ);
if (l_errl) { break; }
//Push Fru File ID Byte - NULL
io_data.push_back(IPMIFRUINV::TYPELENGTH_BYTE_NULL);
//Get EC Data
TARGETING::ATTR_EC_type ecInfo;
bool getEC = iv_target->tryGetAttr<TARGETING::ATTR_EC>(ecInfo);
//Get ECID Data
TARGETING::ATTR_ECID_type ecidInfo;
bool getEcid = iv_target->tryGetAttr<TARGETING::ATTR_ECID>(ecidInfo);
//Only add ECID Data if in an update scenario
if (getEcid && iv_isUpdate == true)
{
addEcidData(iv_target, ecidInfo, io_data);
}
//Add in the EC Data whether we're in an update scenario or not.
//We have the EC info after discover_targets()
if (getEC)
{
addECData(iv_target, ecInfo, io_data);
}
if(!getEC && !(getEcid && iv_isUpdate))
{
//Indicate no custom fields if ecid and ec data not found
io_data.push_back(IPMIFRUINV::TYPELENGTH_BYTE_NULL);
}
if (iv_isUpdate == true)
{
std::vector<TARGETING::TargetHandle_t> l_procList;
l_procList.push_back(iv_target);
customData(l_procList, io_data);
}
//Indicate end of custom fields
io_data.push_back(IPMIFRUINV::END_OF_CUSTOM_FIELDS);
} while (0);
//Complete formatting for this data record
postFormatProcessing(io_data);
if (l_errl)
{
TRACFCOMP(g_trac_ipmi,"buildBoardInfoArea - Errors Collecting ISDimm "
"FRU Inventory Board Info Data");
}
return l_errl;
}
errlHndl_t procIpmiFruInv::buildProductInfoArea(std::vector<uint8_t> &io_data)
{
//This section not needed for proc type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t procIpmiFruInv::buildMultiRecordInfoArea(
std::vector<uint8_t> &io_data)
{
//This section not needed for proc type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t procIpmiFruInv::addVpdData(std::vector<uint8_t> &io_data,
uint8_t i_record,
uint8_t i_keyword,
bool i_ascii,
bool i_typeLengthByte)
{
errlHndl_t l_errl = NULL;
l_errl = addCommonVpdData(iv_target,
io_data,
DeviceFW::MVPD,
i_record,
i_keyword,
i_ascii,
i_typeLengthByte);
return l_errl;
}
//##############################################################################
backplaneIpmiFruInv::backplaneIpmiFruInv( TARGETING::TargetHandle_t i_target,
TARGETING::TargetHandleList i_extraTargets,
bool i_isUpdate)
:IpmiFruInv(i_target),
iv_isUpdate(i_isUpdate),
iv_extraTargets(i_extraTargets)
{
};
errlHndl_t backplaneIpmiFruInv::buildInternalUseArea(
std::vector<uint8_t> &io_data)
{
//This section not needed for the backplane type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t backplaneIpmiFruInv::buildChassisInfoArea(
std::vector<uint8_t> &io_data)
{
errlHndl_t l_errl = NULL;
do {
//Set formatting data that goes at the beginning of the record
preFormatProcessing(io_data, false);
//Set Chassis Enclosure Type - Not Ascii
// Also, do not include type/length byte
l_errl = addVpdData(io_data, PVPD::OSYS, PVPD::ET, false, false);
//Support Legacy VPD without OSYS record
if (l_errl)
{
TRACFCOMP(g_trac_ipmi,"backplaneIpmiFruInv::buildChassisInfoArea - "
" Using Legacy Chassis VPD Data");
//Delete errorlog and use Default data and Legacy VPD Fields
delete l_errl;
l_errl = NULL;
//Set default chassis type
io_data.push_back(IPMIFRUINV::DEFAULT_CHASSIS_TYPE);
//Set chassis part number - ascii formatted field
l_errl = addVpdData(io_data, PVPD::OPFR, PVPD::VP, true);
if (l_errl) { break; }
//Set chassis serial number - ascii formatted field
l_errl = addVpdData(io_data, PVPD::OPFR, PVPD::VS, true);
if (l_errl) { break; }
}
else
{
TRACFCOMP(g_trac_ipmi,"backplaneIpmiFruInv::buildChassisInfoArea - "
" Using NEW OSYS RECORD FOR Chassis VPD Data");
//Set chassis part number - ascii formatted field
l_errl = addVpdData(io_data, PVPD::OSYS, PVPD::MM, true);
if (l_errl) { break; }
//Set chassis serial number - ascii formatted field
l_errl = addVpdData(io_data, PVPD::OSYS, PVPD::SS, true);
if (l_errl) { break; }
}
//Indicate no custom fields
io_data.push_back(IPMIFRUINV::TYPELENGTH_BYTE_NULL);
io_data.push_back(IPMIFRUINV::END_OF_CUSTOM_FIELDS);
} while (0);
//Complete record data formatting
postFormatProcessing(io_data);
if (l_errl)
{
TRACFCOMP(g_trac_ipmi,"backplaneIpmiFruInv::buildChassisInfoArea - "
"Errors collecting chassis info data");
}
return l_errl;
}
errlHndl_t backplaneIpmiFruInv::buildBoardInfoArea(
std::vector<uint8_t> &io_data)
{
errlHndl_t l_errl = NULL;
do {
//Set formatting data that goes at the beginning of the record
preFormatProcessing(io_data, true);
// Set Mfg Build date
// Grab VPD data into seperate data vector
std::vector<uint8_t> mfgDateData;
l_errl = addVpdData(mfgDateData, PVPD::OPFR, PVPD::MB, false, false);
if (l_errl) { break; }
// Pass that to the function that sets the Build date
setMfgData(io_data, mfgDateData);
//Set Vendor Name - ascii formatted data
l_errl = addVpdData(io_data, PVPD::OPFR, PVPD::VN, true);
if (l_errl) { break; }
//Set Product Name - ascii formatted data
l_errl = addVpdData(io_data, PVPD::OPFR, PVPD::DR, true);
if (l_errl) { break; }
//Set Product Serial number - ascii formatted data
TARGETING::ATTR_SERIAL_NUMBER_type l_sn = {'0'};
if( !( iv_target->
tryGetAttr<TARGETING::ATTR_SERIAL_NUMBER>
( l_sn) ) )
{
// Should not fail. Need to use tryGetAttr due to complex type.
// Use zeros if fails.
TRACFCOMP(g_trac_ipmi,"backplaneIpmiFruInv::buildBoardInfoArea - "
"Error getting serial number attribute");
}
// The attribute size is 18. The vpd is 16. Only use 16.
addCommonAttrData(io_data,
(uint8_t *)&l_sn,
VPD_SN_PN_VPD_SIZE);
//Set Product Part number - ascii formatted data
TARGETING::ATTR_PART_NUMBER_type l_pn = {'0'};
if( !( iv_target->
tryGetAttr<TARGETING::ATTR_PART_NUMBER>
( l_pn) ) )
{
// Should not fail. Need to use tryGetAttr due to complex type.
// Use zeros if fails.
TRACFCOMP(g_trac_ipmi,"backplaneIpmiFruInv::buildBoardInfoArea - "
"Error getting part number attribute");
}
// The attribute size is 18. The vpd is 16. Only use 16.
addCommonAttrData(io_data,
(uint8_t *)&l_pn,
VPD_SN_PN_VPD_SIZE);
//Push Fru File ID Byte - NULL
io_data.push_back(IPMIFRUINV::TYPELENGTH_BYTE_NULL);
//Indicate End of Custom Fields
io_data.push_back(IPMIFRUINV::END_OF_CUSTOM_FIELDS);
} while (0);
//Complete record data formatting
postFormatProcessing(io_data);
if (l_errl)
{
TRACFCOMP(g_trac_ipmi,"backplaneIpmiFruInv::buildBoardInfoArea - "
"Errors collecting board info data");
}
return l_errl;
}
errlHndl_t backplaneIpmiFruInv::buildProductInfoArea(
std::vector<uint8_t> &io_data)
{
//This section not needed for the backplane type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t backplaneIpmiFruInv::buildMultiRecordInfoArea(
std::vector<uint8_t> &io_data)
{
//This section not needed for the backplane type
return IpmiFruInv::buildEmptyArea(io_data);
}
errlHndl_t backplaneIpmiFruInv::addVpdData(std::vector<uint8_t> &io_data,
uint8_t i_record,
uint8_t i_keyword,
bool i_ascii,
bool i_typeLengthByte)
{
errlHndl_t l_errl = NULL;