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dcmihandler.cpp
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dcmihandler.cpp
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#include "config.h"
#include "dcmihandler.hpp"
#include "user_channel/channel_layer.hpp"
#include <ipmid/api.hpp>
#include <ipmid/utils.hpp>
#include <nlohmann/json.hpp>
#include <phosphor-logging/elog-errors.hpp>
#include <phosphor-logging/lg2.hpp>
#include <sdbusplus/bus.hpp>
#include <xyz/openbmc_project/Common/error.hpp>
#include <xyz/openbmc_project/Network/EthernetInterface/server.hpp>
#include <bitset>
#include <cmath>
#include <fstream>
#include <variant>
using namespace phosphor::logging;
using sdbusplus::server::xyz::openbmc_project::network::EthernetInterface;
using InternalFailure =
sdbusplus::error::xyz::openbmc_project::common::InternalFailure;
void register_netfn_dcmi_functions() __attribute__((constructor));
constexpr auto pcapPath = "/xyz/openbmc_project/control/host0/power_cap";
constexpr auto pcapInterface = "xyz.openbmc_project.Control.Power.Cap";
constexpr auto powerCapProp = "PowerCap";
constexpr auto powerCapEnableProp = "PowerCapEnable";
using namespace phosphor::logging;
namespace dcmi
{
constexpr auto assetTagMaxOffset = 62;
constexpr auto assetTagMaxSize = 63;
constexpr auto maxBytes = 16;
constexpr size_t maxCtrlIdStrLen = 63;
constexpr uint8_t parameterRevision = 2;
constexpr uint8_t specMajorVersion = 1;
constexpr uint8_t specMinorVersion = 5;
constexpr auto sensorValueIntf = "xyz.openbmc_project.Sensor.Value";
constexpr auto sensorValueProp = "Value";
constexpr uint8_t configParameterRevision = 1;
constexpr auto option12Mask = 0x01;
constexpr auto activateDhcpReply = 0x00;
constexpr uint8_t dhcpTiming1 = 0x04; // 4 sec
constexpr uint16_t dhcpTiming2 = 0x78; // 120 sec
constexpr uint16_t dhcpTiming3 = 0x40; // 60 sec
// When DHCP Option 12 is enabled the string "SendHostName=true" will be
// added into n/w configuration file and the parameter
// SendHostNameEnabled will set to true.
constexpr auto dhcpOpt12Enabled = "SendHostNameEnabled";
enum class DCMIConfigParameters : uint8_t
{
ActivateDHCP = 1,
DiscoveryConfig,
DHCPTiming1,
DHCPTiming2,
DHCPTiming3,
};
// Refer Table 6-14, DCMI Entity ID Extension, DCMI v1.5 spec
static const std::map<uint8_t, std::string> entityIdToName{
{0x40, "inlet"}, {0x37, "inlet"}, {0x41, "cpu"},
{0x03, "cpu"}, {0x42, "baseboard"}, {0x07, "baseboard"}};
nlohmann::json parseJSONConfig(const std::string& configFile)
{
std::ifstream jsonFile(configFile);
if (!jsonFile.is_open())
{
lg2::error("Temperature readings JSON file not found");
elog<InternalFailure>();
}
auto data = nlohmann::json::parse(jsonFile, nullptr, false);
if (data.is_discarded())
{
lg2::error("Temperature readings JSON parser failure");
elog<InternalFailure>();
}
return data;
}
bool isDCMIPowerMgmtSupported()
{
static bool parsed = false;
static bool supported = false;
if (!parsed)
{
auto data = parseJSONConfig(gDCMICapabilitiesConfig);
supported = (gDCMIPowerMgmtSupported ==
data.value(gDCMIPowerMgmtCapability, 0));
}
return supported;
}
std::optional<uint32_t> getPcap(ipmi::Context::ptr& ctx)
{
std::string service{};
boost::system::error_code ec =
ipmi::getService(ctx, pcapInterface, pcapPath, service);
if (ec.value())
{
return std::nullopt;
}
uint32_t pcap{};
ec = ipmi::getDbusProperty(ctx, service, pcapPath, pcapInterface,
powerCapProp, pcap);
if (ec.value())
{
lg2::error("Error in getPcap prop: {ERROR}", "ERROR", ec.message());
elog<InternalFailure>();
return std::nullopt;
}
return pcap;
}
std::optional<bool> getPcapEnabled(ipmi::Context::ptr& ctx)
{
std::string service{};
boost::system::error_code ec =
ipmi::getService(ctx, pcapInterface, pcapPath, service);
if (ec.value())
{
return std::nullopt;
}
bool pcapEnabled{};
ec = ipmi::getDbusProperty(ctx, service, pcapPath, pcapInterface,
powerCapEnableProp, pcapEnabled);
if (ec.value())
{
lg2::error("Error in getPcap prop");
elog<InternalFailure>();
return std::nullopt;
}
return pcapEnabled;
}
bool setPcap(ipmi::Context::ptr& ctx, const uint32_t powerCap)
{
std::string service{};
boost::system::error_code ec =
ipmi::getService(ctx, pcapInterface, pcapPath, service);
if (ec.value())
{
return false;
}
ec = ipmi::setDbusProperty(ctx, service, pcapPath, pcapInterface,
powerCapProp, powerCap);
if (ec.value())
{
lg2::error("Error in setPcap property: {ERROR}", "ERROR", ec.message());
elog<InternalFailure>();
return false;
}
return true;
}
bool setPcapEnable(ipmi::Context::ptr& ctx, bool enabled)
{
std::string service{};
boost::system::error_code ec =
ipmi::getService(ctx, pcapInterface, pcapPath, service);
if (ec.value())
{
return false;
}
ec = ipmi::setDbusProperty(ctx, service, pcapPath, pcapInterface,
powerCapEnableProp, enabled);
if (ec.value())
{
lg2::error("Error in setPcapEnabled property: {ERROR}", "ERROR",
ec.message());
elog<InternalFailure>();
return false;
}
return true;
}
std::optional<std::string> readAssetTag(ipmi::Context::ptr& ctx)
{
// Read the object tree with the inventory root to figure out the object
// that has implemented the Asset tag interface.
ipmi::DbusObjectInfo objectInfo;
boost::system::error_code ec = getDbusObject(
ctx, dcmi::assetTagIntf, ipmi::sensor::inventoryRoot, "", objectInfo);
if (ec.value())
{
return std::nullopt;
}
std::string assetTag{};
ec =
ipmi::getDbusProperty(ctx, objectInfo.second, objectInfo.first,
dcmi::assetTagIntf, dcmi::assetTagProp, assetTag);
if (ec.value())
{
lg2::error("Error in reading asset tag: {ERROR}", "ERROR",
ec.message());
elog<InternalFailure>();
return std::nullopt;
}
return assetTag;
}
bool writeAssetTag(ipmi::Context::ptr& ctx, const std::string& assetTag)
{
// Read the object tree with the inventory root to figure out the object
// that has implemented the Asset tag interface.
ipmi::DbusObjectInfo objectInfo;
boost::system::error_code ec = getDbusObject(
ctx, dcmi::assetTagIntf, ipmi::sensor::inventoryRoot, "", objectInfo);
if (ec.value())
{
return false;
}
ec =
ipmi::setDbusProperty(ctx, objectInfo.second, objectInfo.first,
dcmi::assetTagIntf, dcmi::assetTagProp, assetTag);
if (ec.value())
{
lg2::error("Error in writing asset tag: {ERROR}", "ERROR",
ec.message());
elog<InternalFailure>();
return false;
}
return true;
}
std::optional<std::string> getHostName(ipmi::Context::ptr& ctx)
{
std::string service{};
boost::system::error_code ec =
ipmi::getService(ctx, networkConfigIntf, networkConfigObj, service);
if (ec.value())
{
return std::nullopt;
}
std::string hostname{};
ec = ipmi::getDbusProperty(ctx, service, networkConfigObj,
networkConfigIntf, hostNameProp, hostname);
if (ec.value())
{
lg2::error("Error fetching hostname");
elog<InternalFailure>();
return std::nullopt;
}
return hostname;
}
std::optional<EthernetInterface::DHCPConf>
getDHCPEnabled(ipmi::Context::ptr& ctx)
{
auto ethdevice = ipmi::getChannelName(ethernetDefaultChannelNum);
ipmi::DbusObjectInfo ethernetObj{};
boost::system::error_code ec = ipmi::getDbusObject(
ctx, ethernetIntf, networkRoot, ethdevice, ethernetObj);
if (ec.value())
{
return std::nullopt;
}
std::string service{};
ec = ipmi::getService(ctx, ethernetIntf, ethernetObj.first, service);
if (ec.value())
{
return std::nullopt;
}
std::string dhcpVal{};
ec = ipmi::getDbusProperty(ctx, service, ethernetObj.first, ethernetIntf,
"DHCPEnabled", dhcpVal);
if (ec.value())
{
return std::nullopt;
}
return EthernetInterface::convertDHCPConfFromString(dhcpVal);
}
std::optional<bool> getDHCPOption(ipmi::Context::ptr& ctx,
const std::string& prop)
{
ipmi::ObjectTree objectTree;
if (ipmi::getAllDbusObjects(ctx, networkRoot, dhcpIntf, objectTree))
{
return std::nullopt;
}
for (const auto& [path, serviceMap] : objectTree)
{
for (const auto& [service, object] : serviceMap)
{
bool value{};
if (ipmi::getDbusProperty(ctx, service, path, dhcpIntf, prop,
value))
{
return std::nullopt;
}
if (value)
{
return true;
}
}
}
return false;
}
bool setDHCPOption(ipmi::Context::ptr& ctx, std::string prop, bool value)
{
ipmi::ObjectTree objectTree;
if (ipmi::getAllDbusObjects(ctx, networkRoot, dhcpIntf, objectTree))
{
return false;
}
for (const auto& [path, serviceMap] : objectTree)
{
for (const auto& [service, object] : serviceMap)
{
if (ipmi::setDbusProperty(ctx, service, path, dhcpIntf, prop,
value))
{
return false;
}
}
}
return true;
}
} // namespace dcmi
constexpr uint8_t exceptionPowerOff = 0x01;
ipmi::RspType<uint16_t, // reserved
uint8_t, // exception actions
uint16_t, // power limit requested in watts
uint32_t, // correction time in milliseconds
uint16_t, // reserved
uint16_t // statistics sampling period in seconds
>
getPowerLimit(ipmi::Context::ptr ctx, uint16_t reserved)
{
if (!dcmi::isDCMIPowerMgmtSupported())
{
return ipmi::responseInvalidCommand();
}
if (reserved)
{
return ipmi::responseInvalidFieldRequest();
}
std::optional<uint16_t> pcapValue = dcmi::getPcap(ctx);
std::optional<bool> pcapEnable = dcmi::getPcapEnabled(ctx);
if (!pcapValue || !pcapEnable)
{
return ipmi::responseUnspecifiedError();
}
constexpr uint16_t reserved1{};
constexpr uint16_t reserved2{};
/*
* Exception action if power limit is exceeded and cannot be controlled
* with the correction time limit is hardcoded to Hard Power Off system
* and log event to SEL.
*/
constexpr uint8_t exception = exceptionPowerOff;
/*
* Correction time limit and Statistics sampling period is currently not
* populated.
*/
constexpr uint32_t correctionTime{};
constexpr uint16_t statsPeriod{};
if (*pcapEnable == false)
{
constexpr ipmi::Cc responseNoPowerLimitSet = 0x80;
return ipmi::response(responseNoPowerLimitSet, reserved1, exception,
*pcapValue, correctionTime, reserved2,
statsPeriod);
}
return ipmi::responseSuccess(reserved1, exception, *pcapValue,
correctionTime, reserved2, statsPeriod);
}
ipmi::RspType<> setPowerLimit(ipmi::Context::ptr& ctx, uint16_t reserved1,
uint8_t reserved2, uint8_t exceptionAction,
uint16_t powerLimit, uint32_t correctionTime,
uint16_t reserved3, uint16_t statsPeriod)
{
if (!dcmi::isDCMIPowerMgmtSupported())
{
lg2::error("DCMI Power management is unsupported!");
return ipmi::responseInvalidCommand();
}
// Only process the power limit requested in watts. Return errors
// for other fields that are set
if (reserved1 || reserved2 || reserved3 || correctionTime || statsPeriod ||
exceptionAction != exceptionPowerOff)
{
return ipmi::responseInvalidFieldRequest();
}
if (!dcmi::setPcap(ctx, powerLimit))
{
return ipmi::responseUnspecifiedError();
}
lg2::info("Set Power Cap: {POWERCAP}", "POWERCAP", powerLimit);
return ipmi::responseSuccess();
}
ipmi::RspType<> applyPowerLimit(ipmi::Context::ptr& ctx, bool enabled,
uint7_t reserved1, uint16_t reserved2)
{
if (!dcmi::isDCMIPowerMgmtSupported())
{
lg2::error("DCMI Power management is unsupported!");
return ipmi::responseInvalidCommand();
}
if (reserved1 || reserved2)
{
return ipmi::responseInvalidFieldRequest();
}
if (!dcmi::setPcapEnable(ctx, enabled))
{
return ipmi::responseUnspecifiedError();
}
lg2::info("Set Power Cap Enable: {POWERCAPENABLE}", "POWERCAPENABLE",
enabled);
return ipmi::responseSuccess();
}
ipmi::RspType<uint8_t, // total tag length
std::vector<char> // tag data
>
getAssetTag(ipmi::Context::ptr& ctx, uint8_t offset, uint8_t count)
{
// Verify offset to read and number of bytes to read are not exceeding
// the range.
if ((offset > dcmi::assetTagMaxOffset) || (count > dcmi::maxBytes) ||
((offset + count) > dcmi::assetTagMaxSize))
{
return ipmi::responseParmOutOfRange();
}
std::optional<std::string> assetTagResp = dcmi::readAssetTag(ctx);
if (!assetTagResp)
{
return ipmi::responseUnspecifiedError();
}
std::string& assetTag = assetTagResp.value();
// If the asset tag is longer than 63 bytes, restrict it to 63 bytes to
// suit Get Asset Tag command.
if (assetTag.size() > dcmi::assetTagMaxSize)
{
assetTag.resize(dcmi::assetTagMaxSize);
}
if (offset >= assetTag.size())
{
return ipmi::responseParmOutOfRange();
}
// silently truncate reads beyond the end of assetTag
if ((offset + count) >= assetTag.size())
{
count = assetTag.size() - offset;
}
auto totalTagSize = static_cast<uint8_t>(assetTag.size());
std::vector<char> data{assetTag.begin() + offset,
assetTag.begin() + offset + count};
return ipmi::responseSuccess(totalTagSize, data);
}
ipmi::RspType<uint8_t // new asset tag length
>
setAssetTag(ipmi::Context::ptr& ctx, uint8_t offset, uint8_t count,
const std::vector<char>& data)
{
// Verify offset to read and number of bytes to read are not exceeding
// the range.
if ((offset > dcmi::assetTagMaxOffset) || (count > dcmi::maxBytes) ||
((offset + count) > dcmi::assetTagMaxSize))
{
return ipmi::responseParmOutOfRange();
}
if (data.size() != count)
{
return ipmi::responseReqDataLenInvalid();
}
std::optional<std::string> assetTagResp = dcmi::readAssetTag(ctx);
if (!assetTagResp)
{
return ipmi::responseUnspecifiedError();
}
std::string& assetTag = assetTagResp.value();
if (offset > assetTag.size())
{
return ipmi::responseParmOutOfRange();
}
// operation is to truncate at offset and append new data
assetTag.resize(offset);
assetTag.append(data.begin(), data.end());
if (!dcmi::writeAssetTag(ctx, assetTag))
{
return ipmi::responseUnspecifiedError();
}
auto totalTagSize = static_cast<uint8_t>(assetTag.size());
return ipmi::responseSuccess(totalTagSize);
}
ipmi::RspType<uint8_t, // length
std::vector<char> // data
>
getMgmntCtrlIdStr(ipmi::Context::ptr& ctx, uint8_t offset, uint8_t count)
{
if (count > dcmi::maxBytes || offset + count > dcmi::maxCtrlIdStrLen)
{
return ipmi::responseParmOutOfRange();
}
std::optional<std::string> hostnameResp = dcmi::getHostName(ctx);
if (!hostnameResp)
{
return ipmi::responseUnspecifiedError();
}
std::string& hostname = hostnameResp.value();
// If the id string is longer than 63 bytes, restrict it to 63 bytes to
// suit set management ctrl str command.
if (hostname.size() > dcmi::maxCtrlIdStrLen)
{
hostname.resize(dcmi::maxCtrlIdStrLen);
}
if (offset >= hostname.size())
{
return ipmi::responseParmOutOfRange();
}
// silently truncate reads beyond the end of hostname
if ((offset + count) >= hostname.size())
{
count = hostname.size() - offset;
}
auto nameSize = static_cast<uint8_t>(hostname.size());
std::vector<char> data{hostname.begin() + offset,
hostname.begin() + offset + count};
return ipmi::responseSuccess(nameSize, data);
}
ipmi::RspType<uint8_t>
setMgmntCtrlIdStr(ipmi::Context::ptr& ctx, uint8_t offset, uint8_t count,
std::vector<char> data)
{
if ((offset > dcmi::maxCtrlIdStrLen) || (count > dcmi::maxBytes) ||
((offset + count) > dcmi::maxCtrlIdStrLen))
{
return ipmi::responseParmOutOfRange();
}
if (data.size() != count)
{
return ipmi::responseReqDataLenInvalid();
}
bool terminalWrite{data.back() == '\0'};
if (terminalWrite)
{
// remove the null termination from the data (no need with std::string)
data.resize(count - 1);
}
static std::string hostname{};
// read in the current value if not starting at offset 0
if (hostname.size() == 0 && offset != 0)
{
/* read old ctrlIdStr */
std::optional<std::string> hostnameResp = dcmi::getHostName(ctx);
if (!hostnameResp)
{
return ipmi::responseUnspecifiedError();
}
hostname = hostnameResp.value();
hostname.resize(offset);
}
// operation is to truncate at offset and append new data
hostname.append(data.begin(), data.end());
// do the update if this is the last write
if (terminalWrite)
{
boost::system::error_code ec = ipmi::setDbusProperty(
ctx, dcmi::networkServiceName, dcmi::networkConfigObj,
dcmi::networkConfigIntf, dcmi::hostNameProp, hostname);
hostname.clear();
if (ec.value())
{
return ipmi::responseUnspecifiedError();
}
}
auto totalIdSize = static_cast<uint8_t>(offset + count);
return ipmi::responseSuccess(totalIdSize);
}
ipmi::RspType<ipmi::message::Payload> getDCMICapabilities(uint8_t parameter)
{
std::ifstream dcmiCapFile(dcmi::gDCMICapabilitiesConfig);
if (!dcmiCapFile.is_open())
{
lg2::error("DCMI Capabilities file not found");
return ipmi::responseUnspecifiedError();
}
auto data = nlohmann::json::parse(dcmiCapFile, nullptr, false);
if (data.is_discarded())
{
lg2::error("DCMI Capabilities JSON parser failure");
return ipmi::responseUnspecifiedError();
}
constexpr bool reserved1{};
constexpr uint5_t reserved5{};
constexpr uint7_t reserved7{};
constexpr uint8_t reserved8{};
constexpr uint16_t reserved16{};
ipmi::message::Payload payload;
payload.pack(dcmi::specMajorVersion, dcmi::specMinorVersion,
dcmi::parameterRevision);
enum class DCMICapParameters : uint8_t
{
SupportedDcmiCaps = 0x01, // Supported DCMI Capabilities
MandatoryPlatAttributes = 0x02, // Mandatory Platform Attributes
OptionalPlatAttributes = 0x03, // Optional Platform Attributes
ManageabilityAccessAttributes = 0x04, // Manageability Access Attributes
};
switch (static_cast<DCMICapParameters>(parameter))
{
case DCMICapParameters::SupportedDcmiCaps:
{
bool powerManagement = data.value("PowerManagement", 0);
bool oobSecondaryLan = data.value("OOBSecondaryLan", 0);
bool serialTMode = data.value("SerialTMODE", 0);
bool inBandSystemInterfaceChannel =
data.value("InBandSystemInterfaceChannel", 0);
payload.pack(reserved8, powerManagement, reserved7,
inBandSystemInterfaceChannel, serialTMode,
oobSecondaryLan, reserved5);
break;
}
// Mandatory Platform Attributes
case DCMICapParameters::MandatoryPlatAttributes:
{
bool selAutoRollOver = data.value("SELAutoRollOver", 0);
bool flushEntireSELUponRollOver =
data.value("FlushEntireSELUponRollOver", 0);
bool recordLevelSELFlushUponRollOver =
data.value("RecordLevelSELFlushUponRollOver", 0);
uint12_t numberOfSELEntries =
data.value("NumberOfSELEntries", 0xcac);
uint8_t tempMonitoringSamplingFreq =
data.value("TempMonitoringSamplingFreq", 0);
payload.pack(numberOfSELEntries, reserved1,
recordLevelSELFlushUponRollOver,
flushEntireSELUponRollOver, selAutoRollOver,
reserved16, tempMonitoringSamplingFreq);
break;
}
// Optional Platform Attributes
case DCMICapParameters::OptionalPlatAttributes:
{
uint7_t powerMgmtDeviceTargetAddress =
data.value("PowerMgmtDeviceSlaveAddress", 0);
uint4_t bmcChannelNumber = data.value("BMCChannelNumber", 0);
uint4_t deviceRivision = data.value("DeviceRivision", 0);
payload.pack(powerMgmtDeviceTargetAddress, reserved1,
deviceRivision, bmcChannelNumber);
break;
}
// Manageability Access Attributes
case DCMICapParameters::ManageabilityAccessAttributes:
{
uint8_t mandatoryPrimaryLanOOBSupport =
data.value("MandatoryPrimaryLanOOBSupport", 0xff);
uint8_t optionalSecondaryLanOOBSupport =
data.value("OptionalSecondaryLanOOBSupport", 0xff);
uint8_t optionalSerialOOBMTMODECapability =
data.value("OptionalSerialOOBMTMODECapability", 0xff);
payload.pack(mandatoryPrimaryLanOOBSupport,
optionalSecondaryLanOOBSupport,
optionalSerialOOBMTMODECapability);
break;
}
default:
{
lg2::error("Invalid input parameter");
return ipmi::responseInvalidFieldRequest();
}
}
return ipmi::responseSuccess(payload);
}
namespace dcmi
{
namespace temp_readings
{
std::tuple<bool, bool, uint8_t>
readTemp(ipmi::Context::ptr& ctx, const std::string& dbusService,
const std::string& dbusPath)
{
// Read the temperature value from d-bus object. Need some conversion.
// As per the interface xyz.openbmc_project.Sensor.Value, the
// temperature is an double and in degrees C. It needs to be scaled by
// using the formula Value * 10^Scale. The ipmi spec has the temperature
// as a uint8_t, with a separate single bit for the sign.
ipmi::PropertyMap result{};
boost::system::error_code ec = ipmi::getAllDbusProperties(
ctx, dbusService, dbusPath, "xyz.openbmc_project.Sensor.Value", result);
if (ec.value())
{
return std::make_tuple(false, false, 0);
}
auto temperature =
std::visit(ipmi::VariantToDoubleVisitor(), result.at("Value"));
double absTemp = std::abs(temperature);
auto findFactor = result.find("Scale");
double factor = 0.0;
if (findFactor != result.end())
{
factor = std::visit(ipmi::VariantToDoubleVisitor(), findFactor->second);
}
double scale = std::pow(10, factor);
auto tempDegrees = absTemp * scale;
// Max absolute temp as per ipmi spec is 127.
constexpr auto maxTemp = 127;
if (tempDegrees > maxTemp)
{
tempDegrees = maxTemp;
}
return std::make_tuple(true, (temperature < 0),
static_cast<uint8_t>(tempDegrees));
}
std::tuple<std::vector<std::tuple<uint7_t, bool, uint8_t>>, uint8_t>
read(ipmi::Context::ptr& ctx, const std::string& type, uint8_t instance,
size_t count)
{
std::vector<std::tuple<uint7_t, bool, uint8_t>> response{};
auto data = parseJSONConfig(gDCMISensorsConfig);
static const std::vector<nlohmann::json> empty{};
std::vector<nlohmann::json> readings = data.value(type, empty);
for (const auto& j : readings)
{
// Max of 8 response data sets
if (response.size() == count)
{
break;
}
uint8_t instanceNum = j.value("instance", 0);
// Not in the instance range we're interested in
if (instanceNum < instance)
{
continue;
}
std::string path = j.value("dbus", "");
std::string service{};
boost::system::error_code ec = ipmi::getService(
ctx, "xyz.openbmc_project.Sensor.Value", path, service);
if (ec.value())
{
// not found on dbus
continue;
}
const auto& [ok, sign, temp] = readTemp(ctx, service, path);
if (ok)
{
response.emplace_back(uint7_t{temp}, sign, instanceNum);
}
}
auto totalInstances =
static_cast<uint8_t>(std::min(readings.size(), maxInstances));
return std::make_tuple(response, totalInstances);
}
} // namespace temp_readings
} // namespace dcmi
ipmi::RspType<uint8_t, // total instances for entity id
uint8_t, // number of instances in this reply
std::vector< // zero or more of the following two bytes
std::tuple<uint7_t, // temperature value
bool, // sign bit
uint8_t // entity instance
>>>
getTempReadings(ipmi::Context::ptr& ctx, uint8_t sensorType,
uint8_t entityId, uint8_t entityInstance,
uint8_t instanceStart)
{
auto it = dcmi::entityIdToName.find(entityId);
if (it == dcmi::entityIdToName.end())
{
lg2::error("Unknown Entity ID: {ENTITY_ID}", "ENTITY_ID", entityId);
return ipmi::responseInvalidFieldRequest();
}
if (sensorType != dcmi::temperatureSensorType)
{
lg2::error("Invalid sensor type: {SENSOR_TYPE}", "SENSOR_TYPE",
sensorType);
return ipmi::responseInvalidFieldRequest();
}
uint8_t requestedRecords = (entityInstance == 0) ? dcmi::maxRecords : 1;
// Read requested instances
const auto& [temps, totalInstances] = dcmi::temp_readings::read(
ctx, it->second, instanceStart, requestedRecords);
auto numInstances = static_cast<uint8_t>(temps.size());
return ipmi::responseSuccess(totalInstances, numInstances, temps);
}
ipmi::RspType<> setDCMIConfParams(ipmi::Context::ptr& ctx, uint8_t parameter,
uint8_t setSelector,
ipmi::message::Payload& payload)
{
if (setSelector)
{
return ipmi::responseInvalidFieldRequest();
}
// Take action based on the Parameter Selector
switch (static_cast<dcmi::DCMIConfigParameters>(parameter))
{
case dcmi::DCMIConfigParameters::ActivateDHCP:
{
uint7_t reserved{};
bool activate{};
if (payload.unpack(activate, reserved) || !payload.fullyUnpacked())
{
return ipmi::responseReqDataLenInvalid();
}
if (reserved)
{
return ipmi::responseInvalidFieldRequest();
}
std::optional<EthernetInterface::DHCPConf> dhcpEnabled =
dcmi::getDHCPEnabled(ctx);
if (!dhcpEnabled)
{
return ipmi::responseUnspecifiedError();
}
if (activate &&
(dhcpEnabled.value() != EthernetInterface::DHCPConf::none))
{
// When these conditions are met we have to trigger DHCP
// protocol restart using the latest parameter settings,
// but as per n/w manager design, each time when we
// update n/w parameters, n/w service is restarted. So
// we no need to take any action in this case.
}
break;
}
case dcmi::DCMIConfigParameters::DiscoveryConfig:
{
bool option12{};
uint6_t reserved1{};
bool randBackOff{};
if (payload.unpack(option12, reserved1, randBackOff) ||
!payload.fullyUnpacked())
{
return ipmi::responseReqDataLenInvalid();
}
// Systemd-networkd doesn't support Random Back off
if (reserved1 || randBackOff)
{
return ipmi::responseInvalidFieldRequest();
}
dcmi::setDHCPOption(ctx, dcmi::dhcpOpt12Enabled, option12);
break;
}
// Systemd-networkd doesn't allow to configure DHCP timigs
case dcmi::DCMIConfigParameters::DHCPTiming1:
case dcmi::DCMIConfigParameters::DHCPTiming2:
case dcmi::DCMIConfigParameters::DHCPTiming3:
default:
return ipmi::responseInvalidFieldRequest();
}
return ipmi::responseSuccess();
}
ipmi::RspType<ipmi::message::Payload> getDCMIConfParams(
ipmi::Context::ptr& ctx, uint8_t parameter, uint8_t setSelector)
{
if (setSelector)
{
return ipmi::responseInvalidFieldRequest();
}
ipmi::message::Payload payload;
payload.pack(dcmi::specMajorVersion, dcmi::specMinorVersion,
dcmi::configParameterRevision);
// Take action based on the Parameter Selector
switch (static_cast<dcmi::DCMIConfigParameters>(parameter))
{
case dcmi::DCMIConfigParameters::ActivateDHCP:
payload.pack(dcmi::activateDhcpReply);
break;
case dcmi::DCMIConfigParameters::DiscoveryConfig:
{
uint8_t discovery{};
std::optional<bool> enabled =
dcmi::getDHCPOption(ctx, dcmi::dhcpOpt12Enabled);
if (!enabled.has_value())
{
return ipmi::responseUnspecifiedError();
}
if (enabled.value())
{
discovery = dcmi::option12Mask;
}
payload.pack(discovery);
break;
}
// Get below values from Systemd-networkd source code
case dcmi::DCMIConfigParameters::DHCPTiming1:
payload.pack(dcmi::dhcpTiming1);
break;
case dcmi::DCMIConfigParameters::DHCPTiming2:
payload.pack(dcmi::dhcpTiming2);
break;
case dcmi::DCMIConfigParameters::DHCPTiming3:
payload.pack(dcmi::dhcpTiming3);
break;
default:
return ipmi::responseInvalidFieldRequest();
}
return ipmi::responseSuccess(payload);
}
static std::optional<uint16_t> readPower(ipmi::Context::ptr& ctx)
{
std::ifstream sensorFile(POWER_READING_SENSOR);
std::string objectPath;
if (!sensorFile.is_open())
{
lg2::error(
"Power reading configuration file not found: {POWER_SENSOR_FILE}",
"POWER_SENSOR_FILE", std::string_view{POWER_READING_SENSOR});
return std::nullopt;
}
auto data = nlohmann::json::parse(sensorFile, nullptr, false);
if (data.is_discarded())
{