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gerrit.openbmc.org / openbmc / bmcweb / 244256cc493c6c258ce3784b5128cab85ce56c6d / . / redfish-core / lib / memory.hpp
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/*
// Copyright (c) 2018 Intel Corporation
//
// 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.
*/
#pragma once
#include "health.hpp"
#include <app.hpp>
#include <dbus_utility.hpp>
#include <query.hpp>
#include <registries/privilege_registry.hpp>
#include <utils/collection.hpp>
#include <utils/hex_utils.hpp>
#include <utils/json_utils.hpp>
namespace redfish
{
inline std::string translateMemoryTypeToRedfish(const std::string& memoryType)
{
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR")
{
return "DDR";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR2")
{
return "DDR2";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR3")
{
return "DDR3";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR4")
{
return "DDR4";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR4E_SDRAM")
{
return "DDR4E_SDRAM";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR5")
{
return "DDR5";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.LPDDR4_SDRAM")
{
return "LPDDR4_SDRAM";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.LPDDR3_SDRAM")
{
return "LPDDR3_SDRAM";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR2_SDRAM_FB_DIMM")
{
return "DDR2_SDRAM_FB_DIMM";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR2_SDRAM_FB_DIMM_PROB")
{
return "DDR2_SDRAM_FB_DIMM_PROBE";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.DDR_SGRAM")
{
return "DDR_SGRAM";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.ROM")
{
return "ROM";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.SDRAM")
{
return "SDRAM";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.EDO")
{
return "EDO";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.FastPageMode")
{
return "FastPageMode";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.PipelinedNibble")
{
return "PipelinedNibble";
}
if (memoryType ==
"xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.Logical")
{
return "Logical";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.HBM")
{
return "HBM";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.HBM2")
{
return "HBM2";
}
// This is values like Other or Unknown
// Also D-Bus values:
// DRAM
// EDRAM
// VRAM
// SRAM
// RAM
// FLASH
// EEPROM
// FEPROM
// EPROM
// CDRAM
// ThreeDRAM
// RDRAM
// FBD2
// LPDDR_SDRAM
// LPDDR2_SDRAM
// LPDDR5_SDRAM
return "";
}
inline void dimmPropToHex(
const std::shared_ptr<bmcweb::AsyncResp>& aResp, const char* key,
const std::pair<std::string, dbus::utility::DbusVariantType>& property)
{
const uint16_t* value = std::get_if<uint16_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for " << property.first;
return;
}
aResp->res.jsonValue[key] = "0x" + intToHexString(*value, 4);
}
inline void getPersistentMemoryProperties(
const std::shared_ptr<bmcweb::AsyncResp>& aResp,
const std::pair<std::string, dbus::utility::DbusVariantType>& property)
{
if (property.first == "ModuleManufacturerID")
{
dimmPropToHex(aResp, "ModuleManufacturerID", property);
}
else if (property.first == "ModuleProductID")
{
dimmPropToHex(aResp, "ModuleProductID", property);
}
else if (property.first == "SubsystemVendorID")
{
dimmPropToHex(aResp, "MemorySubsystemControllerManufacturerID",
property);
}
else if (property.first == "SubsystemDeviceID")
{
dimmPropToHex(aResp, "MemorySubsystemControllerProductID", property);
}
else if (property.first == "VolatileRegionSizeLimitInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG
<< "Invalid property type for VolatileRegionSizeLimitKiB";
return;
}
aResp->res.jsonValue["VolatileRegionSizeLimitMiB"] = (*value) >> 10;
}
else if (property.first == "PmRegionSizeLimitInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for PmRegioSizeLimitKiB";
return;
}
aResp->res.jsonValue["PersistentRegionSizeLimitMiB"] = (*value) >> 10;
}
else if (property.first == "VolatileSizeInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for VolatileSizeInKiB";
return;
}
aResp->res.jsonValue["VolatileSizeMiB"] = (*value) >> 10;
}
else if (property.first == "PmSizeInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for PmSizeInKiB";
return;
}
aResp->res.jsonValue["NonVolatileSizeMiB"] = (*value) >> 10;
}
else if (property.first == "CacheSizeInKB")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for CacheSizeInKB";
return;
}
aResp->res.jsonValue["CacheSizeMiB"] = (*value >> 10);
}
else if (property.first == "VoltaileRegionMaxSizeInKib")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG
<< "Invalid property type for VolatileRegionMaxSizeInKib";
return;
}
aResp->res.jsonValue["VolatileRegionSizeMaxMiB"] = (*value) >> 10;
}
else if (property.first == "PmRegionMaxSizeInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG
<< "Invalid property type for PmRegionMaxSizeInKiB";
return;
}
aResp->res.jsonValue["PersistentRegionSizeMaxMiB"] = (*value) >> 10;
}
else if (property.first == "AllocationIncrementInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG
<< "Invalid property type for AllocationIncrementInKiB";
return;
}
aResp->res.jsonValue["AllocationIncrementMiB"] = (*value) >> 10;
}
else if (property.first == "AllocationAlignmentInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG
<< "Invalid property type for AllocationAlignmentInKiB";
return;
}
aResp->res.jsonValue["AllocationAlignmentMiB"] = (*value) >> 10;
}
else if (property.first == "VolatileRegionNumberLimit")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["VolatileRegionNumberLimit"] = *value;
}
else if (property.first == "PmRegionNumberLimit")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["PersistentRegionNumberLimit"] = *value;
}
else if (property.first == "SpareDeviceCount")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["SpareDeviceCount"] = *value;
}
else if (property.first == "IsSpareDeviceInUse")
{
const bool* value = std::get_if<bool>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["IsSpareDeviceEnabled"] = *value;
}
else if (property.first == "IsRankSpareEnabled")
{
const bool* value = std::get_if<bool>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["IsRankSpareEnabled"] = *value;
}
else if (property.first == "MaxAveragePowerLimitmW")
{
const auto* value =
std::get_if<std::vector<uint32_t>>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG
<< "Invalid property type for MaxAveragePowerLimitmW";
return;
}
aResp->res.jsonValue["MaxTDPMilliWatts"] = *value;
}
else if (property.first == "ConfigurationLocked")
{
const bool* value = std::get_if<bool>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["ConfigurationLocked"] = *value;
}
else if (property.first == "AllowedMemoryModes")
{
const std::string* value = std::get_if<std::string>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for FormFactor";
return;
}
constexpr const std::array<const char*, 3> values{"Volatile", "PMEM",
"Block"};
for (const char* v : values)
{
if (boost::ends_with(*value, v))
{
aResp->res.jsonValue["OperatingMemoryModes"].push_back(v);
break;
}
}
}
else if (property.first == "MemoryMedia")
{
const std::string* value = std::get_if<std::string>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for MemoryMedia";
return;
}
constexpr const std::array<const char*, 3> values{"DRAM", "NAND",
"Intel3DXPoint"};
for (const char* v : values)
{
if (boost::ends_with(*value, v))
{
aResp->res.jsonValue["MemoryMedia"].push_back(v);
break;
}
}
}
// PersistantMemory.SecurityCapabilites interface
else if (property.first == "ConfigurationLockCapable" ||
property.first == "DataLockCapable" ||
property.first == "PassphraseCapable")
{
const bool* value = std::get_if<bool>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["SecurityCapabilities"][property.first] = *value;
}
else if (property.first == "MaxPassphraseCount" ||
property.first == "PassphraseLockLimit")
{
const uint64_t* value = std::get_if<uint64_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["SecurityCapabilities"][property.first] = *value;
}
}
inline void
assembleDimmProperties(std::string_view dimmId,
const std::shared_ptr<bmcweb::AsyncResp>& aResp,
const dbus::utility::DBusPropertiesMap& properties)
{
aResp->res.jsonValue["Id"] = dimmId;
aResp->res.jsonValue["Name"] = "DIMM Slot";
aResp->res.jsonValue["Status"]["State"] = "Enabled";
aResp->res.jsonValue["Status"]["Health"] = "OK";
for (const auto& property : properties)
{
if (property.first == "MemoryDataWidth")
{
const uint16_t* value = std::get_if<uint16_t>(&property.second);
if (value == nullptr)
{
continue;
}
aResp->res.jsonValue["DataWidthBits"] = *value;
}
else if (property.first == "MemorySizeInKB")
{
const size_t* memorySize = std::get_if<size_t>(&property.second);
if (memorySize == nullptr)
{
// Important property not in desired type
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["CapacityMiB"] = (*memorySize >> 10);
}
else if (property.first == "PartNumber")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
continue;
}
aResp->res.jsonValue["PartNumber"] = *value;
}
else if (property.first == "SerialNumber")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
continue;
}
aResp->res.jsonValue["SerialNumber"] = *value;
}
else if (property.first == "Manufacturer")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
continue;
}
aResp->res.jsonValue["Manufacturer"] = *value;
}
else if (property.first == "RevisionCode")
{
const uint16_t* value = std::get_if<uint16_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for RevisionCode";
return;
}
aResp->res.jsonValue["FirmwareRevision"] = std::to_string(*value);
}
else if (property.first == "Present")
{
const bool* value = std::get_if<bool>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for Dimm Presence";
return;
}
if (!*value)
{
aResp->res.jsonValue["Status"]["State"] = "Absent";
}
}
else if (property.first == "MemoryTotalWidth")
{
const uint16_t* value = std::get_if<uint16_t>(&property.second);
if (value == nullptr)
{
continue;
}
aResp->res.jsonValue["BusWidthBits"] = *value;
}
else if (property.first == "ECC")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for ECC";
return;
}
constexpr const std::array<const char*, 4> values{
"NoECC", "SingleBitECC", "MultiBitECC", "AddressParity"};
for (const char* v : values)
{
if (boost::ends_with(*value, v))
{
aResp->res.jsonValue["ErrorCorrection"] = v;
break;
}
}
}
else if (property.first == "FormFactor")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG << "Invalid property type for FormFactor";
return;
}
constexpr const std::array<const char*, 11> values{
"RDIMM", "UDIMM", "SO_DIMM", "LRDIMM",
"Mini_RDIMM", "Mini_UDIMM", "SO_RDIMM_72b", "SO_UDIMM_72b",
"SO_DIMM_16b", "SO_DIMM_32b", "Die"};
for (const char* v : values)
{
if (boost::ends_with(*value, v))
{
aResp->res.jsonValue["BaseModuleType"] = v;
break;
}
}
}
else if (property.first == "AllowedSpeedsMT")
{
const std::vector<uint16_t>* value =
std::get_if<std::vector<uint16_t>>(&property.second);
if (value == nullptr)
{
continue;
}
nlohmann::json& jValue = aResp->res.jsonValue["AllowedSpeedsMHz"];
jValue = nlohmann::json::array();
for (uint16_t subVal : *value)
{
jValue.push_back(subVal);
}
}
else if (property.first == "MemoryAttributes")
{
const uint8_t* value = std::get_if<uint8_t>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG
<< "Invalid property type for MemoryAttributes";
return;
}
aResp->res.jsonValue["RankCount"] = static_cast<uint64_t>(*value);
}
else if (property.first == "MemoryConfiguredSpeedInMhz")
{
const uint16_t* value = std::get_if<uint16_t>(&property.second);
if (value == nullptr)
{
continue;
}
aResp->res.jsonValue["OperatingSpeedMhz"] = *value;
}
else if (property.first == "MemoryType")
{
const auto* value = std::get_if<std::string>(&property.second);
if (value != nullptr)
{
std::string memoryDeviceType =
translateMemoryTypeToRedfish(*value);
// Values like "Unknown" or "Other" will return empty
// so just leave off
if (!memoryDeviceType.empty())
{
aResp->res.jsonValue["MemoryDeviceType"] = memoryDeviceType;
}
if (value->find("DDR") != std::string::npos)
{
aResp->res.jsonValue["MemoryType"] = "DRAM";
}
else if (boost::ends_with(*value, "Logical"))
{
aResp->res.jsonValue["MemoryType"] = "IntelOptane";
}
}
}
// memory location interface
else if (property.first == "Channel" ||
property.first == "MemoryController" ||
property.first == "Slot" || property.first == "Socket")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["MemoryLocation"][property.first] = *value;
}
else if (property.first == "SparePartNumber")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["SparePartNumber"] = *value;
}
else if (property.first == "Model")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["Model"] = *value;
}
else if (property.first == "LocationCode")
{
const std::string* value =
std::get_if<std::string>(&property.second);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
aResp->res.jsonValue["Location"]["PartLocation"]["ServiceLabel"] =
*value;
}
else
{
getPersistentMemoryProperties(aResp, property);
}
}
}
inline void getDimmDataByService(std::shared_ptr<bmcweb::AsyncResp> aResp,
const std::string& dimmId,
const std::string& service,
const std::string& objPath)
{
auto health = std::make_shared<HealthPopulate>(aResp);
health->selfPath = objPath;
health->populate();
BMCWEB_LOG_DEBUG << "Get available system components.";
crow::connections::systemBus->async_method_call(
[dimmId, aResp{std::move(aResp)}](
const boost::system::error_code ec,
const dbus::utility::DBusPropertiesMap& properties) {
if (ec)
{
BMCWEB_LOG_DEBUG << "DBUS response error";
messages::internalError(aResp->res);
return;
}
assembleDimmProperties(dimmId, aResp, properties);
},
service, objPath, "org.freedesktop.DBus.Properties", "GetAll", "");
}
inline void getDimmPartitionData(std::shared_ptr<bmcweb::AsyncResp> aResp,
const std::string& service,
const std::string& path)
{
crow::connections::systemBus->async_method_call(
[aResp{std::move(aResp)}](
const boost::system::error_code ec,
const dbus::utility::DBusPropertiesMap& properties) {
if (ec)
{
BMCWEB_LOG_DEBUG << "DBUS response error";
messages::internalError(aResp->res);
return;
}
nlohmann::json& partition =
aResp->res.jsonValue["Regions"].emplace_back(
nlohmann::json::object());
for (const auto& [key, val] : properties)
{
if (key == "MemoryClassification")
{
const std::string* value = std::get_if<std::string>(&val);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
partition[key] = *value;
}
else if (key == "OffsetInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&val);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
partition["OffsetMiB"] = (*value >> 10);
}
else if (key == "PartitionId")
{
const std::string* value = std::get_if<std::string>(&val);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
partition["RegionId"] = *value;
}
else if (key == "PassphraseState")
{
const bool* value = std::get_if<bool>(&val);
if (value == nullptr)
{
messages::internalError(aResp->res);
return;
}
partition["PassphraseEnabled"] = *value;
}
else if (key == "SizeInKiB")
{
const uint64_t* value = std::get_if<uint64_t>(&val);
if (value == nullptr)
{
messages::internalError(aResp->res);
BMCWEB_LOG_DEBUG
<< "Invalid property type for SizeInKiB";
return;
}
partition["SizeMiB"] = (*value >> 10);
}
}
},
service, path, "org.freedesktop.DBus.Properties", "GetAll",
"xyz.openbmc_project.Inventory.Item.PersistentMemory.Partition");
}
inline void getDimmData(std::shared_ptr<bmcweb::AsyncResp> aResp,
const std::string& dimmId)
{
BMCWEB_LOG_DEBUG << "Get available system dimm resources.";
crow::connections::systemBus->async_method_call(
[dimmId, aResp{std::move(aResp)}](
const boost::system::error_code ec,
const dbus::utility::MapperGetSubTreeResponse& subtree) {
if (ec)
{
BMCWEB_LOG_DEBUG << "DBUS response error";
messages::internalError(aResp->res);
return;
}
bool found = false;
for (const auto& [path, object] : subtree)
{
if (path.find(dimmId) != std::string::npos)
{
for (const auto& [service, interfaces] : object)
{
for (const auto& interface : interfaces)
{
if (interface ==
"xyz.openbmc_project.Inventory.Item.Dimm")
{
getDimmDataByService(aResp, dimmId, service,
path);
found = true;
}
// partitions are separate as there can be multiple
// per
// device, i.e.
// /xyz/openbmc_project/Inventory/Item/Dimm1/Partition1
// /xyz/openbmc_project/Inventory/Item/Dimm1/Partition2
if (interface ==
"xyz.openbmc_project.Inventory.Item.PersistentMemory.Partition")
{
getDimmPartitionData(aResp, service, path);
}
}
}
}
}
// Object not found
if (!found)
{
messages::resourceNotFound(aResp->res, "Memory", dimmId);
}
return;
},
"xyz.openbmc_project.ObjectMapper",
"/xyz/openbmc_project/object_mapper",
"xyz.openbmc_project.ObjectMapper", "GetSubTree",
"/xyz/openbmc_project/inventory", 0,
std::array<const char*, 2>{
"xyz.openbmc_project.Inventory.Item.Dimm",
"xyz.openbmc_project.Inventory.Item.PersistentMemory.Partition"});
}
inline void requestRoutesMemoryCollection(App& app)
{
/**
* Functions triggers appropriate requests on DBus
*/
BMCWEB_ROUTE(app, "/redfish/v1/Systems/system/Memory/")
.privileges(redfish::privileges::getMemoryCollection)
.methods(boost::beast::http::verb::get)(
[&app](const crow::Request& req,
const std::shared_ptr<bmcweb::AsyncResp>& asyncResp) {
if (!redfish::setUpRedfishRoute(app, req, asyncResp->res))
{
return;
}
asyncResp->res.jsonValue["@odata.type"] =
"#MemoryCollection.MemoryCollection";
asyncResp->res.jsonValue["Name"] = "Memory Module Collection";
asyncResp->res.jsonValue["@odata.id"] =
"/redfish/v1/Systems/system/Memory";
collection_util::getCollectionMembers(
asyncResp, "/redfish/v1/Systems/system/Memory",
{"xyz.openbmc_project.Inventory.Item.Dimm"});
});
}
inline void requestRoutesMemory(App& app)
{
/**
* Functions triggers appropriate requests on DBus
*/
BMCWEB_ROUTE(app, "/redfish/v1/Systems/system/Memory/<str>/")
.privileges(redfish::privileges::getMemory)
.methods(boost::beast::http::verb::get)(
[&app](const crow::Request& req,
const std::shared_ptr<bmcweb::AsyncResp>& asyncResp,
const std::string& dimmId) {
if (!redfish::setUpRedfishRoute(app, req, asyncResp->res))
{
return;
}
asyncResp->res.jsonValue["@odata.type"] =
"#Memory.v1_11_0.Memory";
asyncResp->res.jsonValue["@odata.id"] =
"/redfish/v1/Systems/system/Memory/" + dimmId;
getDimmData(asyncResp, dimmId);
});
}
} // namespace redfish