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gerrit.openbmc.org / openbmc / openpower-vpd-parser / refs/heads/master / . / vpd-manager / src / isdimm_parser.cpp
blob: 72e2657013f206da2f2ccd6aa4e4e5281da039f2 [file] [log] [blame] [edit]
#include "isdimm_parser.hpp"
#include "constants.hpp"
#include "logger.hpp"
#include <algorithm>
#include <iostream>
#include <numeric>
#include <optional>
#include <string>
#include <unordered_map>
namespace vpd
{
// Constants
constexpr auto SPD_JEDEC_DDR4_SDRAM_CAP_MASK = 0x0F;
constexpr auto SPD_JEDEC_DDR4_PRI_BUS_WIDTH_MASK = 0x07;
constexpr auto SPD_JEDEC_DDR4_SDRAM_WIDTH_MASK = 0x07;
constexpr auto SPD_JEDEC_DDR4_NUM_RANKS_MASK = 0x38;
constexpr auto SPD_JEDEC_DDR4_DIE_COUNT_MASK = 0x70;
constexpr auto SPD_JEDEC_DDR4_SINGLE_LOAD_STACK = 0x02;
constexpr auto SPD_JEDEC_DDR4_SIGNAL_LOADING_MASK = 0x03;
constexpr auto SPD_JEDEC_DDR4_SDRAMCAP_MULTIPLIER = 256;
constexpr auto SPD_JEDEC_DDR4_PRI_BUS_WIDTH_MULTIPLIER = 8;
constexpr auto SPD_JEDEC_DDR4_SDRAM_WIDTH_MULTIPLIER = 4;
constexpr auto SPD_JEDEC_DDR4_SDRAMCAP_RESERVED = 8;
constexpr auto SPD_JEDEC_DDR4_4_RESERVED_BITS = 4;
constexpr auto SPD_JEDEC_DDR4_3_RESERVED_BITS = 3;
constexpr auto SPD_JEDEC_DDR4_DIE_COUNT_RIGHT_SHIFT = 4;
constexpr auto SPD_JEDEC_DDR4_MFG_ID_MSB_OFFSET = 321;
constexpr auto SPD_JEDEC_DDR4_MFG_ID_LSB_OFFSET = 320;
constexpr auto SPD_JEDEC_DDR4_SN_BYTE0_OFFSET = 325;
constexpr auto SPD_JEDEC_DDR4_SN_BYTE1_OFFSET = 326;
constexpr auto SPD_JEDEC_DDR4_SN_BYTE2_OFFSET = 327;
constexpr auto SPD_JEDEC_DDR4_SN_BYTE3_OFFSET = 328;
constexpr auto SPD_JEDEC_DDR4_SDRAM_DENSITY_BANK_OFFSET = 4;
constexpr auto SPD_JEDEC_DDR4_SDRAM_ADDR_OFFSET = 5;
constexpr auto SPD_JEDEC_DDR4_DRAM_PRI_PACKAGE_OFFSET = 6;
constexpr auto SPD_JEDEC_DDR4_DRAM_MODULE_ORG_OFFSET = 12;
static constexpr auto SPD_JEDEC_DDR4_DRAM_MANUFACTURER_ID_OFFSET = 320;
static constexpr auto SPD_JEDEC_DRAM_MANUFACTURER_ID_LENGTH = 2;
// Lookup tables
const std::map<std::tuple<std::string, uint8_t>, std::string> pnFreqFnMap = {
{std::make_tuple("8421000", 6), "78P4191"},
{std::make_tuple("8421008", 6), "78P4192"},
{std::make_tuple("8529000", 6), "78P4197"},
{std::make_tuple("8529008", 6), "78P4198"},
{std::make_tuple("8529928", 6), "78P4199"},
{std::make_tuple("8529B28", 6), "78P4200"},
{std::make_tuple("8631928", 6), "78P6925"},
{std::make_tuple("8529000", 5), "78P7317"},
{std::make_tuple("8529008", 5), "78P7318"},
{std::make_tuple("8631008", 5), "78P6815"}};
const std::unordered_map<std::string, std::string> pnCCINMap = {
{"78P4191", "324D"}, {"78P4192", "324E"}, {"78P4197", "324E"},
{"78P4198", "324F"}, {"78P4199", "325A"}, {"78P4200", "324C"},
{"78P6925", "32BC"}, {"78P7317", "331A"}, {"78P7318", "331F"},
{"78P6815", "32BB"}};
auto JedecSpdParser::getDDR4DimmCapacity(
types::BinaryVector::const_iterator& i_iterator)
{
size_t l_tmp = 0, l_dimmSize = 0;
size_t l_sdramCap = 1, l_priBusWid = 1, l_sdramWid = 1,
l_logicalRanksPerDimm = 1;
size_t l_dieCount = 1;
// NOTE: This calculation is Only for DDR4
// Calculate SDRAM capacity
l_tmp = i_iterator[constants::SPD_BYTE_4] & SPD_JEDEC_DDR4_SDRAM_CAP_MASK;
/* Make sure the bits are not Reserved */
if (l_tmp >= SPD_JEDEC_DDR4_SDRAMCAP_RESERVED)
{
logging::logMessage(
"Bad data in spd byte 4. Can't calculate SDRAM capacity "
"and so dimm size.\n ");
return l_dimmSize;
}
l_sdramCap = (l_sdramCap << l_tmp) * SPD_JEDEC_DDR4_SDRAMCAP_MULTIPLIER;
/* Calculate Primary bus width */
l_tmp = i_iterator[constants::SPD_BYTE_13] &
SPD_JEDEC_DDR4_PRI_BUS_WIDTH_MASK;
if (l_tmp >= SPD_JEDEC_DDR4_4_RESERVED_BITS)
{
logging::logMessage(
"Bad data in spd byte 13. Can't calculate primary bus "
"width and so dimm size.\n ");
return l_dimmSize;
}
l_priBusWid = (l_priBusWid << l_tmp) *
SPD_JEDEC_DDR4_PRI_BUS_WIDTH_MULTIPLIER;
/* Calculate SDRAM width */
l_tmp = i_iterator[constants::SPD_BYTE_12] &
SPD_JEDEC_DDR4_SDRAM_WIDTH_MASK;
if (l_tmp >= SPD_JEDEC_DDR4_4_RESERVED_BITS)
{
logging::logMessage(
"Bad data in spd byte 12. Can't calculate SDRAM width and "
"so dimm size.\n ");
return l_dimmSize;
}
l_sdramWid = (l_sdramWid << l_tmp) * SPD_JEDEC_DDR4_SDRAM_WIDTH_MULTIPLIER;
l_tmp = i_iterator[constants::SPD_BYTE_6] &
SPD_JEDEC_DDR4_SIGNAL_LOADING_MASK;
if (l_tmp == SPD_JEDEC_DDR4_SINGLE_LOAD_STACK)
{
// Fetch die count
l_tmp = i_iterator[constants::SPD_BYTE_6] &
SPD_JEDEC_DDR4_DIE_COUNT_MASK;
l_tmp >>= SPD_JEDEC_DDR4_DIE_COUNT_RIGHT_SHIFT;
l_dieCount = l_tmp + 1;
}
/* Calculate Number of ranks */
l_tmp = i_iterator[constants::SPD_BYTE_12] & SPD_JEDEC_DDR4_NUM_RANKS_MASK;
l_tmp >>= SPD_JEDEC_DDR4_3_RESERVED_BITS;
if (l_tmp >= SPD_JEDEC_DDR4_4_RESERVED_BITS)
{
logging::logMessage(
"Can't calculate number of ranks. Invalid data found.\n ");
return l_dimmSize;
}
l_logicalRanksPerDimm = (l_tmp + 1) * l_dieCount;
l_dimmSize = (l_sdramCap / SPD_JEDEC_DDR4_PRI_BUS_WIDTH_MULTIPLIER) *
(l_priBusWid / l_sdramWid) * l_logicalRanksPerDimm;
return l_dimmSize;
}
std::string_view JedecSpdParser::getDDR4PartNumber(
types::BinaryVector::const_iterator& i_iterator)
{
char l_tmpPN[constants::PART_NUM_LEN + 1] = {'\0'};
sprintf(l_tmpPN, "%02X%02X%02X%X",
i_iterator[SPD_JEDEC_DDR4_SDRAM_DENSITY_BANK_OFFSET],
i_iterator[SPD_JEDEC_DDR4_SDRAM_ADDR_OFFSET],
i_iterator[SPD_JEDEC_DDR4_DRAM_PRI_PACKAGE_OFFSET],
i_iterator[SPD_JEDEC_DDR4_DRAM_MODULE_ORG_OFFSET] & 0x0F);
std::string l_partNumber(l_tmpPN, sizeof(l_tmpPN) - 1);
return l_partNumber;
}
std::string JedecSpdParser::getDDR4SerialNumber(
types::BinaryVector::const_iterator& i_iterator)
{
char l_tmpSN[constants::SERIAL_NUM_LEN + 1] = {'\0'};
sprintf(l_tmpSN, "%02X%02X%02X%02X%02X%02X",
i_iterator[SPD_JEDEC_DDR4_MFG_ID_MSB_OFFSET],
i_iterator[SPD_JEDEC_DDR4_MFG_ID_LSB_OFFSET],
i_iterator[SPD_JEDEC_DDR4_SN_BYTE0_OFFSET],
i_iterator[SPD_JEDEC_DDR4_SN_BYTE1_OFFSET],
i_iterator[SPD_JEDEC_DDR4_SN_BYTE2_OFFSET],
i_iterator[SPD_JEDEC_DDR4_SN_BYTE3_OFFSET]);
std::string l_serialNumber(l_tmpSN, sizeof(l_tmpSN) - 1);
return l_serialNumber;
}
std::string_view JedecSpdParser::getDDR4FruNumber(
const std::string& i_partNumber,
types::BinaryVector::const_iterator& i_iterator)
{
// check for 128GB ISRDIMM not implemented
//(128GB 2RX4(8GX72) IS RDIMM 36*(16GBIT, 2H),1.2V 288PIN,1.2" ROHS) - NA
// MTB Units is used in deciding the frequency of the DIMM
// This is applicable only for DDR4 specification
// 10 - DDR4-1600
// 9 - DDR4-1866
// 8 - DDR4-2133
// 7 - DDR4-2400
// 6 - DDR4-2666
// 5 - DDR4-3200
// pnFreqFnMap < tuple <partNumber, MTBUnits>, fruNumber>
uint8_t l_mtbUnits = i_iterator[constants::SPD_BYTE_18] &
constants::SPD_BYTE_MASK;
std::string l_fruNumber = "FFFFFFF";
auto it = pnFreqFnMap.find({i_partNumber, l_mtbUnits});
if (it != pnFreqFnMap.end())
{
l_fruNumber = it->second;
}
return l_fruNumber;
}
std::string_view JedecSpdParser::getDDR4CCIN(const std::string& i_fruNumber)
{
auto it = pnCCINMap.find(i_fruNumber);
if (it != pnCCINMap.end())
{
return it->second;
}
return "XXXX"; // Return default value as XXXX
}
types::BinaryVector JedecSpdParser::getDDR4ManufacturerId()
{
types::BinaryVector l_mfgId(SPD_JEDEC_DRAM_MANUFACTURER_ID_LENGTH);
if (m_memSpd.size() < (SPD_JEDEC_DDR4_DRAM_MANUFACTURER_ID_OFFSET +
SPD_JEDEC_DRAM_MANUFACTURER_ID_LENGTH))
{
logging::logMessage(
"VPD length is less than the offset of Manufacturer ID. Can't fetch it");
return l_mfgId;
}
std::copy_n((m_memSpd.cbegin() +
SPD_JEDEC_DDR4_DRAM_MANUFACTURER_ID_OFFSET),
SPD_JEDEC_DRAM_MANUFACTURER_ID_LENGTH, l_mfgId.begin());
return l_mfgId;
}
auto JedecSpdParser::getDDR5DimmCapacity(
types::BinaryVector::const_iterator& i_iterator)
{
// dummy implementation to be updated when required
size_t dimmSize = 0;
(void)i_iterator;
return dimmSize;
}
auto JedecSpdParser::getDDR5PartNumber(
types::BinaryVector::const_iterator& i_iterator)
{
// dummy implementation to be updated when required
std::string l_partNumber;
(void)i_iterator;
l_partNumber = "0123456";
return l_partNumber;
}
auto JedecSpdParser::getDDR5SerialNumber(
types::BinaryVector::const_iterator& i_iterator)
{
// dummy implementation to be updated when required
std::string l_serialNumber;
(void)i_iterator;
l_serialNumber = "444444444444";
return l_serialNumber;
}
auto JedecSpdParser::getDDR5FruNumber(const std::string& i_partNumber)
{
// dummy implementation to be updated when required
static std::unordered_map<std::string, std::string> pnFruMap = {
{"1234567", "XXXXXXX"}};
std::string l_fruNumber;
auto itr = pnFruMap.find(i_partNumber);
if (itr != pnFruMap.end())
{
l_fruNumber = itr->second;
}
else
{
l_fruNumber = "FFFFFFF";
}
return l_fruNumber;
}
auto JedecSpdParser::getDDR5CCIN(const std::string& i_partNumber)
{
// dummy implementation to be updated when required
static std::unordered_map<std::string, std::string> pnCCINMap = {
{"1234567", "XXXX"}};
std::string ccin = "XXXX";
auto itr = pnCCINMap.find(i_partNumber);
if (itr != pnCCINMap.end())
{
ccin = itr->second;
}
return ccin;
}
types::JedecSpdMap JedecSpdParser::readKeywords(
types::BinaryVector::const_iterator& i_iterator)
{
types::JedecSpdMap l_keywordValueMap{};
size_t dimmSize = getDDR4DimmCapacity(i_iterator);
if (!dimmSize)
{
logging::logMessage("Error: Calculated dimm size is 0.");
}
else
{
l_keywordValueMap.emplace("MemorySizeInKB",
dimmSize * constants::CONVERT_MB_TO_KB);
}
auto l_partNumber = getDDR4PartNumber(i_iterator);
auto l_fruNumber = getDDR4FruNumber(
std::string(l_partNumber.begin(), l_partNumber.end()), i_iterator);
auto l_serialNumber = getDDR4SerialNumber(i_iterator);
auto ccin =
getDDR4CCIN(std::string(l_fruNumber.begin(), l_fruNumber.end()));
// PN value is made same as FN value
auto l_displayPartNumber = l_fruNumber;
auto l_mfgId = getDDR4ManufacturerId();
l_keywordValueMap.emplace("PN",
move(std::string(l_displayPartNumber.begin(),
l_displayPartNumber.end())));
l_keywordValueMap.emplace(
"FN", move(std::string(l_fruNumber.begin(), l_fruNumber.end())));
l_keywordValueMap.emplace("SN", move(l_serialNumber));
l_keywordValueMap.emplace("CC",
move(std::string(ccin.begin(), ccin.end())));
l_keywordValueMap.emplace("DI", move(l_mfgId));
return l_keywordValueMap;
}
types::VPDMapVariant JedecSpdParser::parse()
{
// Read the data and return the map
auto l_iterator = m_memSpd.cbegin();
auto l_spdDataMap = readKeywords(l_iterator);
return l_spdDataMap;
}
} // namespace vpd