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storagehandler.cpp
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storagehandler.cpp
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#include "config.h"
#include "storagehandler.hpp"
#include "fruread.hpp"
#include "read_fru_data.hpp"
#include "selutility.hpp"
#include "sensorhandler.hpp"
#include "storageaddsel.hpp"
#include <arpa/inet.h>
#include <systemd/sd-bus.h>
#include <ipmid/api.hpp>
#include <ipmid/entity_map_json.hpp>
#include <ipmid/utils.hpp>
#include <phosphor-logging/elog-errors.hpp>
#include <phosphor-logging/elog.hpp>
#include <phosphor-logging/lg2.hpp>
#include <sdbusplus/server.hpp>
#include <xyz/openbmc_project/Common/error.hpp>
#include <xyz/openbmc_project/Logging/SEL/error.hpp>
#include <algorithm>
#include <chrono>
#include <cstdio>
#include <cstring>
#include <filesystem>
#include <optional>
#include <string>
#include <variant>
void register_netfn_storage_functions() __attribute__((constructor));
unsigned int g_sel_time = 0xFFFFFFFF;
namespace ipmi
{
namespace sensor
{
extern const IdInfoMap sensors;
} // namespace sensor
} // namespace ipmi
extern const ipmi::sensor::InvObjectIDMap invSensors;
extern const FruMap frus;
constexpr uint8_t eventDataSize = 3;
namespace
{
constexpr auto SystemdTimeService = "org.freedesktop.timedate1";
constexpr auto SystemdTimePath = "/org/freedesktop/timedate1";
constexpr auto SystemdTimeInterface = "org.freedesktop.timedate1";
constexpr auto TIME_INTERFACE = "xyz.openbmc_project.Time.EpochTime";
constexpr auto BMC_TIME_PATH = "/xyz/openbmc_project/time/bmc";
constexpr auto DBUS_PROPERTIES = "org.freedesktop.DBus.Properties";
constexpr auto PROPERTY_ELAPSED = "Elapsed";
} // namespace
using InternalFailure =
sdbusplus::error::xyz::openbmc_project::common::InternalFailure;
using namespace phosphor::logging;
using namespace ipmi::fru;
using namespace xyz::openbmc_project::logging::sel;
using SELCreated =
sdbusplus::error::xyz::openbmc_project::logging::sel::Created;
using SELRecordID = uint16_t;
using SELEntry = ipmi::sel::SELEventRecordFormat;
using SELCacheMap = std::map<SELRecordID, SELEntry>;
SELCacheMap selCacheMap __attribute__((init_priority(101)));
bool selCacheMapInitialized;
std::unique_ptr<sdbusplus::bus::match_t> selAddedMatch
__attribute__((init_priority(101)));
std::unique_ptr<sdbusplus::bus::match_t> selRemovedMatch
__attribute__((init_priority(101)));
std::unique_ptr<sdbusplus::bus::match_t> selUpdatedMatch
__attribute__((init_priority(101)));
static inline uint16_t getLoggingId(const std::string& p)
{
namespace fs = std::filesystem;
fs::path entryPath(p);
return std::stoul(entryPath.filename().string());
}
static inline std::string getLoggingObjPath(uint16_t id)
{
return std::string(ipmi::sel::logBasePath) + "/" + std::to_string(id);
}
std::optional<std::pair<uint16_t, SELEntry>>
parseLoggingEntry(const std::string& p)
{
try
{
auto id = getLoggingId(p);
ipmi::sel::GetSELEntryResponse record{};
record = ipmi::sel::convertLogEntrytoSEL(p);
return std::pair<uint16_t, SELEntry>({id, std::move(record.event)});
}
catch (const std::exception& e)
{
fprintf(stderr, "Failed to convert %s to SEL: %s\n", p.c_str(),
e.what());
}
return std::nullopt;
}
static void selAddedCallback(sdbusplus::message_t& m)
{
sdbusplus::message::object_path objPath;
try
{
m.read(objPath);
}
catch (const sdbusplus::exception_t& e)
{
lg2::error("Failed to read object path");
return;
}
std::string p = objPath;
auto entry = parseLoggingEntry(p);
if (entry)
{
selCacheMap.insert(std::move(*entry));
}
}
static void selRemovedCallback(sdbusplus::message_t& m)
{
sdbusplus::message::object_path objPath;
try
{
m.read(objPath);
}
catch (const sdbusplus::exception_t& e)
{
lg2::error("Failed to read object path");
}
try
{
std::string p = objPath;
selCacheMap.erase(getLoggingId(p));
}
catch (const std::invalid_argument& e)
{
lg2::error("Invalid logging entry ID");
}
}
static void selUpdatedCallback(sdbusplus::message_t& m)
{
std::string p = m.get_path();
auto entry = parseLoggingEntry(p);
if (entry)
{
selCacheMap.insert_or_assign(entry->first, std::move(entry->second));
}
}
void registerSelCallbackHandler()
{
using namespace sdbusplus::bus::match::rules;
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
if (!selAddedMatch)
{
selAddedMatch = std::make_unique<sdbusplus::bus::match_t>(
bus, interfacesAdded(ipmi::sel::logWatchPath),
std::bind(selAddedCallback, std::placeholders::_1));
}
if (!selRemovedMatch)
{
selRemovedMatch = std::make_unique<sdbusplus::bus::match_t>(
bus, interfacesRemoved(ipmi::sel::logWatchPath),
std::bind(selRemovedCallback, std::placeholders::_1));
}
if (!selUpdatedMatch)
{
selUpdatedMatch = std::make_unique<sdbusplus::bus::match_t>(
bus,
type::signal() + member("PropertiesChanged"s) +
interface("org.freedesktop.DBus.Properties"s) +
argN(0, ipmi::sel::logEntryIntf),
std::bind(selUpdatedCallback, std::placeholders::_1));
}
}
void initSELCache()
{
registerSelCallbackHandler();
ipmi::sel::ObjectPaths paths;
try
{
ipmi::sel::readLoggingObjectPaths(paths);
}
catch (const sdbusplus::exception_t& e)
{
lg2::error("Failed to get logging object paths");
return;
}
for (const auto& p : paths)
{
auto entry = parseLoggingEntry(p);
if (entry)
{
selCacheMap.insert(std::move(*entry));
}
}
selCacheMapInitialized = true;
}
/**
* @enum Device access mode
*/
enum class AccessMode
{
bytes, ///< Device is accessed by bytes
words ///< Device is accessed by words
};
/** @brief implements the get SEL Info command
* @returns IPMI completion code plus response data
* - selVersion - SEL revision
* - entries - Number of log entries in SEL.
* - freeSpace - Free Space in bytes.
* - addTimeStamp - Most recent addition timestamp
* - eraseTimeStamp - Most recent erase timestamp
* - operationSupport - Reserve & Delete SEL operations supported
*/
ipmi::RspType<uint8_t, // SEL revision.
uint16_t, // number of log entries in SEL.
uint16_t, // free Space in bytes.
uint32_t, // most recent addition timestamp
uint32_t, // most recent erase timestamp.
bool, // SEL allocation info supported
bool, // reserve SEL supported
bool, // partial Add SEL Entry supported
bool, // delete SEL supported
uint3_t, // reserved
bool // overflow flag
>
ipmiStorageGetSelInfo()
{
uint16_t entries = 0;
// Most recent addition timestamp.
uint32_t addTimeStamp = ipmi::sel::invalidTimeStamp;
if (!selCacheMapInitialized)
{
// In case the initSELCache() fails, try it again
initSELCache();
}
if (!selCacheMap.empty())
{
entries = static_cast<uint16_t>(selCacheMap.size());
try
{
auto objPath = getLoggingObjPath(selCacheMap.rbegin()->first);
addTimeStamp = static_cast<uint32_t>(
(ipmi::sel::getEntryTimeStamp(objPath).count()));
}
catch (const InternalFailure& e)
{}
catch (const std::runtime_error& e)
{
lg2::error("runtime error: {ERROR}", "ERROR", e);
}
}
constexpr uint8_t selVersion = ipmi::sel::selVersion;
constexpr uint16_t freeSpace = 0xFFFF;
constexpr uint32_t eraseTimeStamp = ipmi::sel::invalidTimeStamp;
constexpr uint3_t reserved{0};
return ipmi::responseSuccess(
selVersion, entries, freeSpace, addTimeStamp, eraseTimeStamp,
ipmi::sel::operationSupport::getSelAllocationInfo,
ipmi::sel::operationSupport::reserveSel,
ipmi::sel::operationSupport::partialAddSelEntry,
ipmi::sel::operationSupport::deleteSel, reserved,
ipmi::sel::operationSupport::overflow);
}
ipmi_ret_t getSELEntry(ipmi_netfn_t, ipmi_cmd_t, ipmi_request_t request,
ipmi_response_t response, ipmi_data_len_t data_len,
ipmi_context_t)
{
if (*data_len != sizeof(ipmi::sel::GetSELEntryRequest))
{
*data_len = 0;
return IPMI_CC_REQ_DATA_LEN_INVALID;
}
auto requestData =
reinterpret_cast<const ipmi::sel::GetSELEntryRequest*>(request);
if (requestData->reservationID != 0)
{
if (!checkSELReservation(requestData->reservationID))
{
*data_len = 0;
return IPMI_CC_INVALID_RESERVATION_ID;
}
}
if (!selCacheMapInitialized)
{
// In case the initSELCache() fails, try it again
initSELCache();
}
if (selCacheMap.empty())
{
*data_len = 0;
return IPMI_CC_SENSOR_INVALID;
}
SELCacheMap::const_iterator iter;
// Check for the requested SEL Entry.
if (requestData->selRecordID == ipmi::sel::firstEntry)
{
iter = selCacheMap.begin();
}
else if (requestData->selRecordID == ipmi::sel::lastEntry)
{
if (selCacheMap.size() > 1)
{
iter = selCacheMap.end();
--iter;
}
else
{
// Only one entry exists, return the first
iter = selCacheMap.begin();
}
}
else
{
iter = selCacheMap.find(requestData->selRecordID);
if (iter == selCacheMap.end())
{
*data_len = 0;
return IPMI_CC_SENSOR_INVALID;
}
}
ipmi::sel::GetSELEntryResponse record{0, iter->second};
// Identify the next SEL record ID
++iter;
if (iter == selCacheMap.end())
{
record.nextRecordID = ipmi::sel::lastEntry;
}
else
{
record.nextRecordID = iter->first;
}
if (requestData->readLength == ipmi::sel::entireRecord)
{
std::memcpy(response, &record, sizeof(record));
*data_len = sizeof(record);
}
else
{
if (requestData->offset >= ipmi::sel::selRecordSize ||
requestData->readLength > ipmi::sel::selRecordSize)
{
*data_len = 0;
return IPMI_CC_INVALID_FIELD_REQUEST;
}
auto diff = ipmi::sel::selRecordSize - requestData->offset;
auto readLength =
std::min(diff, static_cast<int>(requestData->readLength));
std::memcpy(response, &record.nextRecordID,
sizeof(record.nextRecordID));
std::memcpy(static_cast<uint8_t*>(response) +
sizeof(record.nextRecordID),
&record.event.eventRecord.recordID + requestData->offset,
readLength);
*data_len = sizeof(record.nextRecordID) + readLength;
}
return IPMI_CC_OK;
}
/** @brief implements the delete SEL entry command
* @request
* - reservationID; // reservation ID.
* - selRecordID; // SEL record ID.
*
* @returns ipmi completion code plus response data
* - Record ID of the deleted record
*/
ipmi::RspType<uint16_t // deleted record ID
>
deleteSELEntry(uint16_t reservationID, uint16_t selRecordID)
{
namespace fs = std::filesystem;
if (!checkSELReservation(reservationID))
{
return ipmi::responseInvalidReservationId();
}
// Per the IPMI spec, need to cancel the reservation when a SEL entry is
// deleted
cancelSELReservation();
if (!selCacheMapInitialized)
{
// In case the initSELCache() fails, try it again
initSELCache();
}
if (selCacheMap.empty())
{
return ipmi::responseSensorInvalid();
}
SELCacheMap::const_iterator iter;
uint16_t delRecordID = 0;
if (selRecordID == ipmi::sel::firstEntry)
{
delRecordID = selCacheMap.begin()->first;
}
else if (selRecordID == ipmi::sel::lastEntry)
{
delRecordID = selCacheMap.rbegin()->first;
}
else
{
delRecordID = selRecordID;
}
iter = selCacheMap.find(delRecordID);
if (iter == selCacheMap.end())
{
return ipmi::responseSensorInvalid();
}
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
std::string service;
auto objPath = getLoggingObjPath(iter->first);
try
{
service = ipmi::getService(bus, ipmi::sel::logDeleteIntf, objPath);
}
catch (const std::runtime_error& e)
{
lg2::error("runtime error: {ERROR}", "ERROR", e);
return ipmi::responseUnspecifiedError();
}
auto methodCall = bus.new_method_call(service.c_str(), objPath.c_str(),
ipmi::sel::logDeleteIntf, "Delete");
try
{
auto reply = bus.call(methodCall);
}
catch (const std::exception& e)
{
return ipmi::responseUnspecifiedError();
}
return ipmi::responseSuccess(delRecordID);
}
/** @brief implements the Clear SEL command
* @request
* - reservationID // Reservation ID.
* - clr // char array { 'C'(0x43h), 'L'(0x4Ch), 'R'(0x52h) }
* - eraseOperation; // requested operation.
*
* @returns ipmi completion code plus response data
* - erase status
*/
ipmi::RspType<uint8_t // erase status
>
clearSEL(uint16_t reservationID, const std::array<char, 3>& clr,
uint8_t eraseOperation)
{
static constexpr std::array<char, 3> clrOk = {'C', 'L', 'R'};
if (clr != clrOk)
{
return ipmi::responseInvalidFieldRequest();
}
if (!checkSELReservation(reservationID))
{
return ipmi::responseInvalidReservationId();
}
/*
* Erasure status cannot be fetched from DBUS, so always return erasure
* status as `erase completed`.
*/
if (eraseOperation == ipmi::sel::getEraseStatus)
{
return ipmi::responseSuccess(
static_cast<uint8_t>(ipmi::sel::eraseComplete));
}
// Check that initiate erase is correct
if (eraseOperation != ipmi::sel::initiateErase)
{
return ipmi::responseInvalidFieldRequest();
}
// Per the IPMI spec, need to cancel any reservation when the SEL is cleared
cancelSELReservation();
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
auto service = ipmi::getService(bus, ipmi::sel::logIntf, ipmi::sel::logObj);
auto method =
bus.new_method_call(service.c_str(), ipmi::sel::logObj,
ipmi::sel::logIntf, ipmi::sel::logDeleteAllMethod);
try
{
bus.call_noreply(method);
}
catch (const sdbusplus::exception_t& e)
{
lg2::error("Error eraseAll: {ERROR}", "ERROR", e);
return ipmi::responseUnspecifiedError();
}
return ipmi::responseSuccess(
static_cast<uint8_t>(ipmi::sel::eraseComplete));
}
/** @brief implements the get SEL time command
* @returns IPMI completion code plus response data
* -current time
*/
ipmi::RspType<uint32_t> // current time
ipmiStorageGetSelTime()
{
using namespace std::chrono;
uint64_t bmc_time_usec = 0;
std::stringstream bmcTime;
try
{
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
auto service = ipmi::getService(bus, TIME_INTERFACE, BMC_TIME_PATH);
auto propValue = ipmi::getDbusProperty(
bus, service, BMC_TIME_PATH, TIME_INTERFACE, PROPERTY_ELAPSED);
bmc_time_usec = std::get<uint64_t>(propValue);
}
catch (const InternalFailure& e)
{
lg2::error("Internal Failure: {ERROR}", "ERROR", e);
return ipmi::responseUnspecifiedError();
}
catch (const std::exception& e)
{
lg2::error("exception message: {ERROR}", "ERROR", e);
return ipmi::responseUnspecifiedError();
}
lg2::debug("BMC time: {BMC_TIME}", "BMC_TIME",
duration_cast<seconds>(microseconds(bmc_time_usec)).count());
// Time is really long int but IPMI wants just uint32. This works okay until
// the number of seconds since 1970 overflows uint32 size.. Still a whole
// lot of time here to even think about that.
return ipmi::responseSuccess(
duration_cast<seconds>(microseconds(bmc_time_usec)).count());
}
/** @brief implements the set SEL time command
* @param selDeviceTime - epoch time
* -local time as the number of seconds from 00:00:00, January 1, 1970
* @returns IPMI completion code
*/
ipmi::RspType<> ipmiStorageSetSelTime(uint32_t selDeviceTime)
{
using namespace std::chrono;
microseconds usec{seconds(selDeviceTime)};
try
{
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
bool ntp = std::get<bool>(
ipmi::getDbusProperty(bus, SystemdTimeService, SystemdTimePath,
SystemdTimeInterface, "NTP"));
if (ntp)
{
return ipmi::responseCommandNotAvailable();
}
auto service = ipmi::getService(bus, TIME_INTERFACE, BMC_TIME_PATH);
std::variant<uint64_t> value{(uint64_t)usec.count()};
// Set bmc time
auto method = bus.new_method_call(service.c_str(), BMC_TIME_PATH,
DBUS_PROPERTIES, "Set");
method.append(TIME_INTERFACE, PROPERTY_ELAPSED, value);
auto reply = bus.call(method);
}
catch (const InternalFailure& e)
{
lg2::error("Internal Failure: {ERROR}", "ERROR", e);
return ipmi::responseUnspecifiedError();
}
catch (const std::exception& e)
{
lg2::error("exception message: {ERROR}", "ERROR", e);
return ipmi::responseUnspecifiedError();
}
return ipmi::responseSuccess();
}
/** @brief implements the get SEL timezone command
* @returns IPMI completion code plus response data
* -current timezone
*/
ipmi::RspType<int16_t> ipmiStorageGetSelTimeUtcOffset()
{
time_t timep;
struct tm* gmTime;
struct tm* localTime;
time(&timep);
localTime = localtime(&timep);
auto validLocalTime = mktime(localTime);
gmTime = gmtime(&timep);
auto validGmTime = mktime(gmTime);
auto timeEquation = (validLocalTime - validGmTime) / 60;
return ipmi::responseSuccess(timeEquation);
}
/** @brief implements the reserve SEL command
* @returns IPMI completion code plus response data
* - SEL reservation ID.
*/
ipmi::RspType<uint16_t> ipmiStorageReserveSel()
{
return ipmi::responseSuccess(reserveSel());
}
/** @brief implements the Add SEL entry command
* @request
*
* - recordID ID used for SEL Record access
* - recordType Record Type
* - timeStamp Time when event was logged. LS byte first
* - generatorID software ID if event was generated from
* system software
* - evmRev event message format version
* - sensorType sensor type code for service that generated
* the event
* - sensorNumber number of sensors that generated the event
* - eventDir event dir
* - eventData event data field contents
*
* @returns ipmi completion code plus response data
* - RecordID of the Added SEL entry
*/
ipmi::RspType<uint16_t // recordID of the Added SEL entry
>
ipmiStorageAddSEL(uint16_t recordID, uint8_t recordType,
[[maybe_unused]] uint32_t timeStamp, uint16_t generatorID,
[[maybe_unused]] uint8_t evmRev, uint8_t sensorType,
uint8_t sensorNumber, uint8_t eventDir,
std::array<uint8_t, eventDataSize> eventData)
{
std::string objpath;
static constexpr auto systemRecordType = 0x02;
// Hostboot sends SEL with OEM record type 0xDE to indicate that there is
// a maintenance procedure associated with eSEL record.
static constexpr auto procedureType = 0xDE;
cancelSELReservation();
if (recordType == systemRecordType)
{
for (const auto& it : invSensors)
{
if (it.second.sensorID == sensorNumber)
{
objpath = it.first;
break;
}
}
auto selDataStr = ipmi::sel::toHexStr(eventData);
bool assert = (eventDir & 0x80) ? false : true;
recordID = report<SELCreated>(
Created::RECORD_TYPE(recordType),
Created::GENERATOR_ID(generatorID),
Created::SENSOR_DATA(selDataStr.c_str()),
Created::EVENT_DIR(assert), Created::SENSOR_PATH(objpath.c_str()));
}
#ifdef OPEN_POWER_SUPPORT
else if (recordType == procedureType)
{
// In the OEM record type 0xDE, byte 11 in the SEL record indicate the
// procedure number.
createProcedureLogEntry(sensorType);
}
#endif
return ipmi::responseSuccess(recordID);
}
bool isFruPresent(ipmi::Context::ptr& ctx, const std::string& fruPath)
{
using namespace ipmi::fru;
std::string service;
boost::system::error_code ec =
getService(ctx, invItemInterface, invObjPath + fruPath, service);
if (!ec)
{
bool result;
ec = ipmi::getDbusProperty(ctx, service, invObjPath + fruPath,
invItemInterface, itemPresentProp, result);
if (!ec)
{
return result;
}
}
ipmi::ObjectValueTree managedObjects;
ec = getManagedObjects(ctx, "xyz.openbmc_project.EntityManager",
"/xyz/openbmc_project/inventory", managedObjects);
if (!ec)
{
auto connection = managedObjects.find(fruPath);
if (connection != managedObjects.end())
{
return true;
}
}
return false;
}
/** @brief implements the get FRU Inventory Area Info command
*
* @returns IPMI completion code plus response data
* - FRU Inventory area size in bytes,
* - access bit
**/
ipmi::RspType<uint16_t, // FRU Inventory area size in bytes,
uint8_t // access size (bytes / words)
>
ipmiStorageGetFruInvAreaInfo(ipmi::Context::ptr ctx, uint8_t fruID)
{
auto iter = frus.find(fruID);
if (iter == frus.end())
{
return ipmi::responseSensorInvalid();
}
auto path = iter->second[0].path;
if (!isFruPresent(ctx, path))
{
return ipmi::responseSensorInvalid();
}
try
{
return ipmi::responseSuccess(
static_cast<uint16_t>(getFruAreaData(fruID).size()),
static_cast<uint8_t>(AccessMode::bytes));
}
catch (const InternalFailure& e)
{
lg2::error("Internal Failure: {ERROR}", "ERROR", e);
return ipmi::responseUnspecifiedError();
}
}
/**@brief implements the Read FRU Data command
* @param fruDeviceId - FRU device ID. FFh = reserved
* @param offset - FRU inventory offset to read
* @param readCount - count to read
*
* @return IPMI completion code plus response data
* - returnCount - response data count.
* - data - response data
*/
ipmi::RspType<uint8_t, // count returned
std::vector<uint8_t>> // FRU data
ipmiStorageReadFruData(uint8_t fruDeviceId, uint16_t offset,
uint8_t readCount)
{
if (fruDeviceId == 0xFF)
{
return ipmi::responseInvalidFieldRequest();
}
auto iter = frus.find(fruDeviceId);
if (iter == frus.end())
{
return ipmi::responseSensorInvalid();
}
try
{
const auto& fruArea = getFruAreaData(fruDeviceId);
auto size = fruArea.size();
if (offset >= size)
{
return ipmi::responseParmOutOfRange();
}
// Write the count of response data.
uint8_t returnCount;
if ((offset + readCount) <= size)
{
returnCount = readCount;
}
else
{
returnCount = size - offset;
}
std::vector<uint8_t> fruData((fruArea.begin() + offset),
(fruArea.begin() + offset + returnCount));
return ipmi::responseSuccess(returnCount, fruData);
}
catch (const InternalFailure& e)
{
lg2::error("Internal Failure: {ERROR}", "ERROR", e);
return ipmi::responseUnspecifiedError();
}
}
ipmi::RspType<uint8_t, // SDR version
uint16_t, // record count LS first
uint16_t, // free space in bytes, LS first
uint32_t, // addition timestamp LS first
uint32_t, // deletion timestamp LS first
uint8_t> // operation Support
ipmiGetRepositoryInfo()
{
constexpr uint8_t sdrVersion = 0x51;
constexpr uint16_t freeSpace = 0xFFFF;
constexpr uint32_t additionTimestamp = 0x0;
constexpr uint32_t deletionTimestamp = 0x0;
constexpr uint8_t operationSupport = 0;
// Get SDR count. This returns the total number of SDRs in the device.
const auto& entityRecords =
ipmi::sensor::EntityInfoMapContainer::getContainer()
->getIpmiEntityRecords();
uint16_t records =
ipmi::sensor::sensors.size() + frus.size() + entityRecords.size();
return ipmi::responseSuccess(sdrVersion, records, freeSpace,
additionTimestamp, deletionTimestamp,
operationSupport);
}
void register_netfn_storage_functions()
{
selCacheMapInitialized = false;
initSELCache();
// Handlers with dbus-sdr handler implementation.
// Do not register the hander if it dynamic sensors stack is used.
#ifndef FEATURE_DYNAMIC_SENSORS
#ifndef FEATURE_DYNAMIC_STORAGES_ONLY
// <Get SEL Info>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdGetSelInfo, ipmi::Privilege::User,
ipmiStorageGetSelInfo);
// <Get SEL Timezone>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdGetSelTimeUtcOffset,
ipmi::Privilege::User,
ipmiStorageGetSelTimeUtcOffset);
// <Get SEL Entry>
ipmi_register_callback(NETFUN_STORAGE, IPMI_CMD_GET_SEL_ENTRY, NULL,
getSELEntry, PRIVILEGE_USER);
// <Delete SEL Entry>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdDeleteSelEntry,
ipmi::Privilege::Operator, deleteSELEntry);
// <Add SEL Entry>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdAddSelEntry,
ipmi::Privilege::Operator, ipmiStorageAddSEL);
// <Clear SEL>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdClearSel, ipmi::Privilege::Operator,
clearSEL);
// <Get FRU Inventory Area Info>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdGetFruInventoryAreaInfo,
ipmi::Privilege::User, ipmiStorageGetFruInvAreaInfo);
// <READ FRU Data>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdReadFruData,
ipmi::Privilege::Operator, ipmiStorageReadFruData);
#endif // FEATURE_DYNAMIC_STORAGES_ONLY
// <Get Repository Info>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdGetSdrRepositoryInfo,
ipmi::Privilege::User, ipmiGetRepositoryInfo);
// <Reserve SDR Repository>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdReserveSdrRepository,
ipmi::Privilege::User, ipmiSensorReserveSdr);
// <Get SDR>
ipmi_register_callback(NETFUN_STORAGE, IPMI_CMD_GET_SDR, nullptr,
ipmi_sen_get_sdr, PRIVILEGE_USER);
#endif
// Common Handers used by both implementation.
// <Reserve SEL>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdReserveSel, ipmi::Privilege::User,
ipmiStorageReserveSel);
// <Get SEL Time>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdGetSelTime, ipmi::Privilege::User,
ipmiStorageGetSelTime);
// <Set SEL Time>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdSetSelTime,
ipmi::Privilege::Operator, ipmiStorageSetSelTime);
ipmi::fru::registerCallbackHandler();
return;
}