blob: 39ab0ac1de2ab42f5ada3b3dbb7d5a5df9e81968 [file] [log] [blame]
/*
// 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 "bmcweb_config.h"
#include "app.hpp"
#include "dbus_utility.hpp"
#include "generated/enums/memory.hpp"
#include "generated/enums/resource.hpp"
#include "query.hpp"
#include "registries/privilege_registry.hpp"
#include "utils/collection.hpp"
#include "utils/dbus_utils.hpp"
#include "utils/hex_utils.hpp"
#include "utils/json_utils.hpp"
#include <boost/system/error_code.hpp>
#include <boost/url/format.hpp>
#include <nlohmann/json.hpp>
#include <sdbusplus/asio/property.hpp>
#include <sdbusplus/unpack_properties.hpp>
#include <array>
#include <string_view>
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";
}
if (memoryType == "xyz.openbmc_project.Inventory.Item.Dimm.DeviceType.HBM3")
{
return "HBM3";
}
// 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>& asyncResp,
const char* key, const uint16_t* value,
const nlohmann::json::json_pointer& jsonPtr)
{
if (value == nullptr)
{
return;
}
asyncResp->res.jsonValue[jsonPtr][key] = "0x" + intToHexString(*value, 4);
}
inline void getPersistentMemoryProperties(
const std::shared_ptr<bmcweb::AsyncResp>& asyncResp,
const dbus::utility::DBusPropertiesMap& properties,
const nlohmann::json::json_pointer& jsonPtr)
{
const uint16_t* moduleManufacturerID = nullptr;
const uint16_t* moduleProductID = nullptr;
const uint16_t* subsystemVendorID = nullptr;
const uint16_t* subsystemDeviceID = nullptr;
const uint64_t* volatileRegionSizeLimitInKiB = nullptr;
const uint64_t* pmRegionSizeLimitInKiB = nullptr;
const uint64_t* volatileSizeInKiB = nullptr;
const uint64_t* pmSizeInKiB = nullptr;
const uint64_t* cacheSizeInKB = nullptr;
const uint64_t* voltaileRegionMaxSizeInKib = nullptr;
const uint64_t* pmRegionMaxSizeInKiB = nullptr;
const uint64_t* allocationIncrementInKiB = nullptr;
const uint64_t* allocationAlignmentInKiB = nullptr;
const uint64_t* volatileRegionNumberLimit = nullptr;
const uint64_t* pmRegionNumberLimit = nullptr;
const uint64_t* spareDeviceCount = nullptr;
const bool* isSpareDeviceInUse = nullptr;
const bool* isRankSpareEnabled = nullptr;
const std::vector<uint32_t>* maxAveragePowerLimitmW = nullptr;
const bool* configurationLocked = nullptr;
const std::string* allowedMemoryModes = nullptr;
const std::string* memoryMedia = nullptr;
const bool* configurationLockCapable = nullptr;
const bool* dataLockCapable = nullptr;
const bool* passphraseCapable = nullptr;
const uint64_t* maxPassphraseCount = nullptr;
const uint64_t* passphraseLockLimit = nullptr;
const bool success = sdbusplus::unpackPropertiesNoThrow(
dbus_utils::UnpackErrorPrinter(), properties, "ModuleManufacturerID",
moduleManufacturerID, "ModuleProductID", moduleProductID,
"SubsystemVendorID", subsystemVendorID, "SubsystemDeviceID",
subsystemDeviceID, "VolatileRegionSizeLimitInKiB",
volatileRegionSizeLimitInKiB, "PmRegionSizeLimitInKiB",
pmRegionSizeLimitInKiB, "VolatileSizeInKiB", volatileSizeInKiB,
"PmSizeInKiB", pmSizeInKiB, "CacheSizeInKB", cacheSizeInKB,
"VoltaileRegionMaxSizeInKib", voltaileRegionMaxSizeInKib,
"PmRegionMaxSizeInKiB", pmRegionMaxSizeInKiB,
"AllocationIncrementInKiB", allocationIncrementInKiB,
"AllocationAlignmentInKiB", allocationAlignmentInKiB,
"VolatileRegionNumberLimit", volatileRegionNumberLimit,
"PmRegionNumberLimit", pmRegionNumberLimit, "SpareDeviceCount",
spareDeviceCount, "IsSpareDeviceInUse", isSpareDeviceInUse,
"IsRankSpareEnabled", isRankSpareEnabled, "MaxAveragePowerLimitmW",
maxAveragePowerLimitmW, "ConfigurationLocked", configurationLocked,
"AllowedMemoryModes", allowedMemoryModes, "MemoryMedia", memoryMedia,
"ConfigurationLockCapable", configurationLockCapable, "DataLockCapable",
dataLockCapable, "PassphraseCapable", passphraseCapable,
"MaxPassphraseCount", maxPassphraseCount, "PassphraseLockLimit",
passphraseLockLimit);
if (!success)
{
messages::internalError(asyncResp->res);
return;
}
dimmPropToHex(asyncResp, "ModuleManufacturerID", moduleManufacturerID,
jsonPtr);
dimmPropToHex(asyncResp, "ModuleProductID", moduleProductID, jsonPtr);
dimmPropToHex(asyncResp, "MemorySubsystemControllerManufacturerID",
subsystemVendorID, jsonPtr);
dimmPropToHex(asyncResp, "MemorySubsystemControllerProductID",
subsystemDeviceID, jsonPtr);
if (volatileRegionSizeLimitInKiB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["VolatileRegionSizeLimitMiB"] =
(*volatileRegionSizeLimitInKiB) >> 10;
}
if (pmRegionSizeLimitInKiB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["PersistentRegionSizeLimitMiB"] =
(*pmRegionSizeLimitInKiB) >> 10;
}
if (volatileSizeInKiB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["VolatileSizeMiB"] =
(*volatileSizeInKiB) >> 10;
}
if (pmSizeInKiB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["NonVolatileSizeMiB"] =
(*pmSizeInKiB) >> 10;
}
if (cacheSizeInKB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["CacheSizeMiB"] =
(*cacheSizeInKB >> 10);
}
if (voltaileRegionMaxSizeInKib != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["VolatileRegionSizeMaxMiB"] =
(*voltaileRegionMaxSizeInKib) >> 10;
}
if (pmRegionMaxSizeInKiB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["PersistentRegionSizeMaxMiB"] =
(*pmRegionMaxSizeInKiB) >> 10;
}
if (allocationIncrementInKiB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["AllocationIncrementMiB"] =
(*allocationIncrementInKiB) >> 10;
}
if (allocationAlignmentInKiB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["AllocationAlignmentMiB"] =
(*allocationAlignmentInKiB) >> 10;
}
if (volatileRegionNumberLimit != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["VolatileRegionNumberLimit"] =
*volatileRegionNumberLimit;
}
if (pmRegionNumberLimit != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["PersistentRegionNumberLimit"] =
*pmRegionNumberLimit;
}
if (spareDeviceCount != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["SpareDeviceCount"] =
*spareDeviceCount;
}
if (isSpareDeviceInUse != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["IsSpareDeviceEnabled"] =
*isSpareDeviceInUse;
}
if (isRankSpareEnabled != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["IsRankSpareEnabled"] =
*isRankSpareEnabled;
}
if (maxAveragePowerLimitmW != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["MaxTDPMilliWatts"] =
*maxAveragePowerLimitmW;
}
if (configurationLocked != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["ConfigurationLocked"] =
*configurationLocked;
}
if (allowedMemoryModes != nullptr)
{
constexpr const std::array<const char*, 3> values{"Volatile", "PMEM",
"Block"};
for (const char* v : values)
{
if (allowedMemoryModes->ends_with(v))
{
asyncResp->res.jsonValue[jsonPtr]["OperatingMemoryModes"]
.push_back(v);
break;
}
}
}
if (memoryMedia != nullptr)
{
constexpr const std::array<const char*, 3> values{"DRAM", "NAND",
"Intel3DXPoint"};
for (const char* v : values)
{
if (memoryMedia->ends_with(v))
{
asyncResp->res.jsonValue[jsonPtr]["MemoryMedia"].push_back(v);
break;
}
}
}
if (configurationLockCapable != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["SecurityCapabilities"]
["ConfigurationLockCapable"] =
*configurationLockCapable;
}
if (dataLockCapable != nullptr)
{
asyncResp->res
.jsonValue[jsonPtr]["SecurityCapabilities"]["DataLockCapable"] =
*dataLockCapable;
}
if (passphraseCapable != nullptr)
{
asyncResp->res
.jsonValue[jsonPtr]["SecurityCapabilities"]["PassphraseCapable"] =
*passphraseCapable;
}
if (maxPassphraseCount != nullptr)
{
asyncResp->res
.jsonValue[jsonPtr]["SecurityCapabilities"]["MaxPassphraseCount"] =
*maxPassphraseCount;
}
if (passphraseLockLimit != nullptr)
{
asyncResp->res
.jsonValue[jsonPtr]["SecurityCapabilities"]["PassphraseLockLimit"] =
*passphraseLockLimit;
}
}
inline void assembleDimmProperties(
std::string_view dimmId,
const std::shared_ptr<bmcweb::AsyncResp>& asyncResp,
const dbus::utility::DBusPropertiesMap& properties,
const nlohmann::json::json_pointer& jsonPtr)
{
asyncResp->res.jsonValue[jsonPtr]["Id"] = dimmId;
asyncResp->res.jsonValue[jsonPtr]["Name"] = "DIMM Slot";
asyncResp->res.jsonValue[jsonPtr]["Status"]["State"] =
resource::State::Enabled;
asyncResp->res.jsonValue[jsonPtr]["Status"]["Health"] =
resource::Health::OK;
const uint16_t* memoryDataWidth = nullptr;
const size_t* memorySizeInKB = nullptr;
const std::string* partNumber = nullptr;
const std::string* serialNumber = nullptr;
const std::string* manufacturer = nullptr;
const uint16_t* revisionCode = nullptr;
const bool* present = nullptr;
const uint16_t* memoryTotalWidth = nullptr;
const std::string* ecc = nullptr;
const std::string* formFactor = nullptr;
const std::vector<uint16_t>* allowedSpeedsMT = nullptr;
const size_t* memoryAttributes = nullptr;
const uint16_t* memoryConfiguredSpeedInMhz = nullptr;
const std::string* memoryType = nullptr;
const std::uint8_t* channel = nullptr;
const std::uint8_t* memoryController = nullptr;
const std::uint8_t* slot = nullptr;
const std::uint8_t* socket = nullptr;
const std::string* sparePartNumber = nullptr;
const std::string* model = nullptr;
const std::string* locationCode = nullptr;
const bool success = sdbusplus::unpackPropertiesNoThrow(
dbus_utils::UnpackErrorPrinter(), properties, "MemoryDataWidth",
memoryDataWidth, "MemorySizeInKB", memorySizeInKB, "PartNumber",
partNumber, "SerialNumber", serialNumber, "Manufacturer", manufacturer,
"RevisionCode", revisionCode, "Present", present, "MemoryTotalWidth",
memoryTotalWidth, "ECC", ecc, "FormFactor", formFactor,
"AllowedSpeedsMT", allowedSpeedsMT, "MemoryAttributes",
memoryAttributes, "MemoryConfiguredSpeedInMhz",
memoryConfiguredSpeedInMhz, "MemoryType", memoryType, "Channel",
channel, "MemoryController", memoryController, "Slot", slot, "Socket",
socket, "SparePartNumber", sparePartNumber, "Model", model,
"LocationCode", locationCode);
if (!success)
{
messages::internalError(asyncResp->res);
return;
}
if (memoryDataWidth != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["DataWidthBits"] = *memoryDataWidth;
}
if (memorySizeInKB != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["CapacityMiB"] =
(*memorySizeInKB >> 10);
}
if (partNumber != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["PartNumber"] = *partNumber;
}
if (serialNumber != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["SerialNumber"] = *serialNumber;
}
if (manufacturer != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["Manufacturer"] = *manufacturer;
}
if (revisionCode != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["FirmwareRevision"] =
std::to_string(*revisionCode);
}
if (present != nullptr && !*present)
{
asyncResp->res.jsonValue[jsonPtr]["Status"]["State"] =
resource::State::Absent;
}
if (memoryTotalWidth != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["BusWidthBits"] = *memoryTotalWidth;
}
if (ecc != nullptr)
{
constexpr const std::array<const char*, 4> values{
"NoECC", "SingleBitECC", "MultiBitECC", "AddressParity"};
for (const char* v : values)
{
if (ecc->ends_with(v))
{
asyncResp->res.jsonValue[jsonPtr]["ErrorCorrection"] = v;
break;
}
}
}
if (formFactor != nullptr)
{
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 (formFactor->ends_with(v))
{
asyncResp->res.jsonValue[jsonPtr]["BaseModuleType"] = v;
break;
}
}
}
if (allowedSpeedsMT != nullptr)
{
nlohmann::json& jValue =
asyncResp->res.jsonValue[jsonPtr]["AllowedSpeedsMHz"];
jValue = nlohmann::json::array();
for (uint16_t subVal : *allowedSpeedsMT)
{
jValue.push_back(subVal);
}
}
if (memoryAttributes != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["RankCount"] = *memoryAttributes;
}
if (memoryConfiguredSpeedInMhz != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["OperatingSpeedMhz"] =
*memoryConfiguredSpeedInMhz;
}
if (memoryType != nullptr)
{
std::string memoryDeviceType =
translateMemoryTypeToRedfish(*memoryType);
// Values like "Unknown" or "Other" will return empty
// so just leave off
if (!memoryDeviceType.empty())
{
asyncResp->res.jsonValue[jsonPtr]["MemoryDeviceType"] =
memoryDeviceType;
}
if (memoryType->find("DDR") != std::string::npos)
{
asyncResp->res.jsonValue[jsonPtr]["MemoryType"] =
memory::MemoryType::DRAM;
}
else if (memoryType->ends_with("Logical"))
{
asyncResp->res.jsonValue[jsonPtr]["MemoryType"] =
memory::MemoryType::IntelOptane;
}
}
if (channel != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["MemoryLocation"]["Channel"] =
*channel;
}
if (memoryController != nullptr)
{
asyncResp->res
.jsonValue[jsonPtr]["MemoryLocation"]["MemoryController"] =
*memoryController;
}
if (slot != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["MemoryLocation"]["Slot"] = *slot;
}
if (socket != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["MemoryLocation"]["Socket"] = *socket;
}
if (sparePartNumber != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["SparePartNumber"] = *sparePartNumber;
}
if (model != nullptr)
{
asyncResp->res.jsonValue[jsonPtr]["Model"] = *model;
}
if (locationCode != nullptr)
{
asyncResp->res
.jsonValue[jsonPtr]["Location"]["PartLocation"]["ServiceLabel"] =
*locationCode;
}
getPersistentMemoryProperties(asyncResp, properties, jsonPtr);
}
inline void getDimmDataByService(
std::shared_ptr<bmcweb::AsyncResp> asyncResp, const std::string& dimmId,
const std::string& service, const std::string& objPath)
{
BMCWEB_LOG_DEBUG("Get available system components.");
sdbusplus::asio::getAllProperties(
*crow::connections::systemBus, service, objPath, "",
[dimmId, asyncResp{std::move(asyncResp)}](
const boost::system::error_code& ec,
const dbus::utility::DBusPropertiesMap& properties) {
if (ec)
{
BMCWEB_LOG_DEBUG("DBUS response error");
messages::internalError(asyncResp->res);
return;
}
assembleDimmProperties(dimmId, asyncResp, properties,
""_json_pointer);
});
}
inline void assembleDimmPartitionData(
const std::shared_ptr<bmcweb::AsyncResp>& asyncResp,
const dbus::utility::DBusPropertiesMap& properties,
const nlohmann::json::json_pointer& regionPtr)
{
const std::string* memoryClassification = nullptr;
const uint64_t* offsetInKiB = nullptr;
const std::string* partitionId = nullptr;
const bool* passphraseState = nullptr;
const uint64_t* sizeInKiB = nullptr;
const bool success = sdbusplus::unpackPropertiesNoThrow(
dbus_utils::UnpackErrorPrinter(), properties, "MemoryClassification",
memoryClassification, "OffsetInKiB", offsetInKiB, "PartitionId",
partitionId, "PassphraseState", passphraseState, "SizeInKiB",
sizeInKiB);
if (!success)
{
messages::internalError(asyncResp->res);
return;
}
nlohmann::json::object_t partition;
if (memoryClassification != nullptr)
{
partition["MemoryClassification"] = *memoryClassification;
}
if (offsetInKiB != nullptr)
{
partition["OffsetMiB"] = (*offsetInKiB >> 10);
}
if (partitionId != nullptr)
{
partition["RegionId"] = *partitionId;
}
if (passphraseState != nullptr)
{
partition["PassphraseEnabled"] = *passphraseState;
}
if (sizeInKiB != nullptr)
{
partition["SizeMiB"] = (*sizeInKiB >> 10);
}
asyncResp->res.jsonValue[regionPtr].emplace_back(std::move(partition));
}
inline void getDimmPartitionData(std::shared_ptr<bmcweb::AsyncResp> asyncResp,
const std::string& service,
const std::string& path)
{
sdbusplus::asio::getAllProperties(
*crow::connections::systemBus, service, path,
"xyz.openbmc_project.Inventory.Item.PersistentMemory.Partition",
[asyncResp{std::move(asyncResp)}](
const boost::system::error_code& ec,
const dbus::utility::DBusPropertiesMap& properties) {
if (ec)
{
BMCWEB_LOG_DEBUG("DBUS response error");
messages::internalError(asyncResp->res);
return;
}
nlohmann::json::json_pointer regionPtr = "/Regions"_json_pointer;
assembleDimmPartitionData(asyncResp, properties, regionPtr);
}
);
}
inline void getDimmData(std::shared_ptr<bmcweb::AsyncResp> asyncResp,
const std::string& dimmId)
{
BMCWEB_LOG_DEBUG("Get available system dimm resources.");
constexpr std::array<std::string_view, 2> dimmInterfaces = {
"xyz.openbmc_project.Inventory.Item.Dimm",
"xyz.openbmc_project.Inventory.Item.PersistentMemory.Partition"};
dbus::utility::getSubTree(
"/xyz/openbmc_project/inventory", 0, dimmInterfaces,
[dimmId, asyncResp{std::move(asyncResp)}](
const boost::system::error_code& ec,
const dbus::utility::MapperGetSubTreeResponse& subtree) {
if (ec)
{
BMCWEB_LOG_DEBUG("DBUS response error");
messages::internalError(asyncResp->res);
return;
}
bool found = false;
for (const auto& [rawPath, object] : subtree)
{
sdbusplus::message::object_path path(rawPath);
for (const auto& [service, interfaces] : object)
{
for (const auto& interface : interfaces)
{
if (interface ==
"xyz.openbmc_project.Inventory.Item.Dimm" &&
path.filename() == dimmId)
{
getDimmDataByService(asyncResp, dimmId, service,
rawPath);
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" &&
path.parent_path().filename() == dimmId)
{
getDimmPartitionData(asyncResp, service, rawPath);
}
}
}
}
// Object not found
if (!found)
{
messages::resourceNotFound(asyncResp->res, "Memory", dimmId);
return;
}
// Set @odata only if object is found
asyncResp->res.jsonValue["@odata.type"] = "#Memory.v1_11_0.Memory";
asyncResp->res.jsonValue["@odata.id"] =
boost::urls::format("/redfish/v1/Systems/{}/Memory/{}",
BMCWEB_REDFISH_SYSTEM_URI_NAME, dimmId);
return;
});
}
inline void requestRoutesMemoryCollection(App& app)
{
/**
* Functions triggers appropriate requests on DBus
*/
BMCWEB_ROUTE(app, "/redfish/v1/Systems/<str>/Memory/")
.privileges(redfish::privileges::getMemoryCollection)
.methods(boost::beast::http::verb::get)(
[&app](const crow::Request& req,
const std::shared_ptr<bmcweb::AsyncResp>& asyncResp,
const std::string& systemName) {
if (!redfish::setUpRedfishRoute(app, req, asyncResp))
{
return;
}
if constexpr (BMCWEB_EXPERIMENTAL_REDFISH_MULTI_COMPUTER_SYSTEM)
{
// Option currently returns no systems. TBD
messages::resourceNotFound(asyncResp->res, "ComputerSystem",
systemName);
return;
}
if (systemName != BMCWEB_REDFISH_SYSTEM_URI_NAME)
{
messages::resourceNotFound(asyncResp->res, "ComputerSystem",
systemName);
return;
}
asyncResp->res.jsonValue["@odata.type"] =
"#MemoryCollection.MemoryCollection";
asyncResp->res.jsonValue["Name"] = "Memory Module Collection";
asyncResp->res.jsonValue["@odata.id"] =
boost::urls::format("/redfish/v1/Systems/{}/Memory",
BMCWEB_REDFISH_SYSTEM_URI_NAME);
constexpr std::array<std::string_view, 1> interfaces{
"xyz.openbmc_project.Inventory.Item.Dimm"};
collection_util::getCollectionMembers(
asyncResp,
boost::urls::format("/redfish/v1/Systems/{}/Memory",
BMCWEB_REDFISH_SYSTEM_URI_NAME),
interfaces, "/xyz/openbmc_project/inventory");
});
}
inline void requestRoutesMemory(App& app)
{
/**
* Functions triggers appropriate requests on DBus
*/
BMCWEB_ROUTE(app, "/redfish/v1/Systems/<str>/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& systemName, const std::string& dimmId) {
if (!redfish::setUpRedfishRoute(app, req, asyncResp))
{
return;
}
if constexpr (BMCWEB_EXPERIMENTAL_REDFISH_MULTI_COMPUTER_SYSTEM)
{
// Option currently returns no systems. TBD
messages::resourceNotFound(asyncResp->res, "ComputerSystem",
systemName);
return;
}
if (systemName != BMCWEB_REDFISH_SYSTEM_URI_NAME)
{
messages::resourceNotFound(asyncResp->res, "ComputerSystem",
systemName);
return;
}
getDimmData(asyncResp, dimmId);
});
}
} // namespace redfish