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gerrit.openbmc.org / openbmc / phosphor-host-ipmid / 76889090d85dade0e4c486cbd4977d8275765fbe / . / dbus-sdr / storagecommands.cpp
blob: eeed777e054afaa73eaec280cec1f942d8368b7d [file] [log] [blame]
/*
// Copyright (c) 2017-2019 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.
*/
#include "dbus-sdr/storagecommands.hpp"
#include "dbus-sdr/sdrutils.hpp"
#include "selutility.hpp"
#include <boost/algorithm/string.hpp>
#include <boost/container/flat_map.hpp>
#include <boost/process.hpp>
#include <filesystem>
#include <fstream>
#include <functional>
#include <iostream>
#include <ipmid/api.hpp>
#include <ipmid/message.hpp>
#include <ipmid/types.hpp>
#include <phosphor-logging/log.hpp>
#include <sdbusplus/message/types.hpp>
#include <sdbusplus/timer.hpp>
#include <stdexcept>
#include <string_view>
static constexpr bool DEBUG = false;
namespace dynamic_sensors::ipmi::sel
{
static const std::filesystem::path selLogDir = "/var/log";
static const std::string selLogFilename = "ipmi_sel";
static int getFileTimestamp(const std::filesystem::path& file)
{
struct stat st;
if (stat(file.c_str(), &st) >= 0)
{
return st.st_mtime;
}
return ::ipmi::sel::invalidTimeStamp;
}
namespace erase_time
{
static constexpr const char* selEraseTimestamp = "/var/lib/ipmi/sel_erase_time";
void save()
{
// open the file, creating it if necessary
int fd = open(selEraseTimestamp, O_WRONLY | O_CREAT | O_CLOEXEC, 0644);
if (fd < 0)
{
std::cerr << "Failed to open file\n";
return;
}
// update the file timestamp to the current time
if (futimens(fd, NULL) < 0)
{
std::cerr << "Failed to update timestamp: "
<< std::string(strerror(errno));
}
close(fd);
}
int get()
{
return getFileTimestamp(selEraseTimestamp);
}
} // namespace erase_time
} // namespace dynamic_sensors::ipmi::sel
namespace ipmi
{
namespace storage
{
constexpr static const size_t maxMessageSize = 64;
constexpr static const size_t maxFruSdrNameSize = 16;
using ObjectType =
boost::container::flat_map<std::string,
boost::container::flat_map<std::string, Value>>;
using ManagedObjectType =
boost::container::flat_map<sdbusplus::message::object_path, ObjectType>;
using ManagedEntry = std::pair<sdbusplus::message::object_path, ObjectType>;
constexpr static const char* selLoggerServiceName =
"xyz.openbmc_project.Logging.IPMI";
constexpr static const char* fruDeviceServiceName =
"xyz.openbmc_project.FruDevice";
constexpr static const char* entityManagerServiceName =
"xyz.openbmc_project.EntityManager";
constexpr static const size_t writeTimeoutSeconds = 10;
constexpr static const char* chassisTypeRackMount = "23";
constexpr static const char* chassisTypeMainServer = "17";
// event direction is bit[7] of eventType where 1b = Deassertion event
constexpr static const uint8_t deassertionEvent = 0x80;
static std::vector<uint8_t> fruCache;
static uint8_t cacheBus = 0xFF;
static uint8_t cacheAddr = 0XFF;
static uint8_t lastDevId = 0xFF;
static uint8_t writeBus = 0xFF;
static uint8_t writeAddr = 0XFF;
std::unique_ptr<phosphor::Timer> writeTimer = nullptr;
static std::vector<sdbusplus::bus::match_t> fruMatches;
ManagedObjectType frus;
// we unfortunately have to build a map of hashes in case there is a
// collision to verify our dev-id
boost::container::flat_map<uint8_t, std::pair<uint8_t, uint8_t>> deviceHashes;
void registerStorageFunctions() __attribute__((constructor));
bool writeFru(const std::vector<uint8_t>& fru)
{
if (writeBus == 0xFF && writeAddr == 0xFF)
{
return true;
}
lastDevId = 0xFF;
std::shared_ptr<sdbusplus::asio::connection> dbus = getSdBus();
sdbusplus::message_t writeFru = dbus->new_method_call(
fruDeviceServiceName, "/xyz/openbmc_project/FruDevice",
"xyz.openbmc_project.FruDeviceManager", "WriteFru");
writeFru.append(writeBus, writeAddr, fru);
try
{
sdbusplus::message_t writeFruResp = dbus->call(writeFru);
}
catch (const sdbusplus::exception_t&)
{
// todo: log sel?
phosphor::logging::log<phosphor::logging::level::ERR>(
"error writing fru");
return false;
}
writeBus = 0xFF;
writeAddr = 0xFF;
return true;
}
bool writeFruCache()
{
return writeFru(fruCache);
}
void createTimers()
{
writeTimer = std::make_unique<phosphor::Timer>(writeFruCache);
}
void recalculateHashes()
{
deviceHashes.clear();
// hash the object paths to create unique device id's. increment on
// collision
std::hash<std::string> hasher;
for (const auto& fru : frus)
{
auto fruIface = fru.second.find("xyz.openbmc_project.FruDevice");
if (fruIface == fru.second.end())
{
continue;
}
auto busFind = fruIface->second.find("BUS");
auto addrFind = fruIface->second.find("ADDRESS");
if (busFind == fruIface->second.end() ||
addrFind == fruIface->second.end())
{
phosphor::logging::log<phosphor::logging::level::INFO>(
"fru device missing Bus or Address",
phosphor::logging::entry("FRU=%s", fru.first.str.c_str()));
continue;
}
uint8_t fruBus = std::get<uint32_t>(busFind->second);
uint8_t fruAddr = std::get<uint32_t>(addrFind->second);
auto chassisFind = fruIface->second.find("CHASSIS_TYPE");
std::string chassisType;
if (chassisFind != fruIface->second.end())
{
chassisType = std::get<std::string>(chassisFind->second);
}
uint8_t fruHash = 0;
if (chassisType.compare(chassisTypeRackMount) != 0 &&
chassisType.compare(chassisTypeMainServer) != 0)
{
fruHash = hasher(fru.first.str);
// can't be 0xFF based on spec, and 0 is reserved for baseboard
if (fruHash == 0 || fruHash == 0xFF)
{
fruHash = 1;
}
}
std::pair<uint8_t, uint8_t> newDev(fruBus, fruAddr);
bool emplacePassed = false;
while (!emplacePassed)
{
auto resp = deviceHashes.emplace(fruHash, newDev);
emplacePassed = resp.second;
if (!emplacePassed)
{
fruHash++;
// can't be 0xFF based on spec, and 0 is reserved for
// baseboard
if (fruHash == 0XFF)
{
fruHash = 0x1;
}
}
}
}
}
void replaceCacheFru(
const std::shared_ptr<sdbusplus::asio::connection>& bus,
boost::asio::yield_context& yield,
[[maybe_unused]] const std::optional<std::string>& path = std::nullopt)
{
boost::system::error_code ec;
frus = bus->yield_method_call<ManagedObjectType>(
yield, ec, fruDeviceServiceName, "/",
"org.freedesktop.DBus.ObjectManager", "GetManagedObjects");
if (ec)
{
phosphor::logging::log<phosphor::logging::level::ERR>(
"GetMangagedObjects for replaceCacheFru failed",
phosphor::logging::entry("ERROR=%s", ec.message().c_str()));
return;
}
recalculateHashes();
}
std::pair<ipmi::Cc, std::vector<uint8_t>> getFru(ipmi::Context::ptr ctx,
uint8_t devId)
{
if (lastDevId == devId && devId != 0xFF)
{
return {ipmi::ccSuccess, fruCache};
}
auto deviceFind = deviceHashes.find(devId);
if (deviceFind == deviceHashes.end())
{
return {IPMI_CC_SENSOR_INVALID, {}};
}
cacheBus = deviceFind->second.first;
cacheAddr = deviceFind->second.second;
boost::system::error_code ec;
std::vector<uint8_t> fru =
ctx->bus->yield_method_call<std::vector<uint8_t>>(
ctx->yield, ec, fruDeviceServiceName,
"/xyz/openbmc_project/FruDevice",
"xyz.openbmc_project.FruDeviceManager", "GetRawFru", cacheBus,
cacheAddr);
if (ec)
{
phosphor::logging::log<phosphor::logging::level::ERR>(
"Couldn't get raw fru",
phosphor::logging::entry("ERROR=%s", ec.message().c_str()));
cacheBus = 0xFF;
cacheAddr = 0xFF;
return {ipmi::ccResponseError, {}};
}
fruCache.clear();
lastDevId = devId;
fruCache = fru;
return {ipmi::ccSuccess, fru};
}
void writeFruIfRunning()
{
if (!writeTimer->isRunning())
{
return;
}
writeTimer->stop();
writeFruCache();
}
void startMatch(void)
{
if (fruMatches.size())
{
return;
}
fruMatches.reserve(2);
auto bus = getSdBus();
fruMatches.emplace_back(*bus,
"type='signal',arg0path='/xyz/openbmc_project/"
"FruDevice/',member='InterfacesAdded'",
[](sdbusplus::message_t& message) {
sdbusplus::message::object_path path;
ObjectType object;
try
{
message.read(path, object);
}
catch (const sdbusplus::exception_t&)
{
return;
}
auto findType = object.find(
"xyz.openbmc_project.FruDevice");
if (findType == object.end())
{
return;
}
writeFruIfRunning();
frus[path] = object;
recalculateHashes();
lastDevId = 0xFF;
});
fruMatches.emplace_back(*bus,
"type='signal',arg0path='/xyz/openbmc_project/"
"FruDevice/',member='InterfacesRemoved'",
[](sdbusplus::message_t& message) {
sdbusplus::message::object_path path;
std::set<std::string> interfaces;
try
{
message.read(path, interfaces);
}
catch (const sdbusplus::exception_t&)
{
return;
}
auto findType = interfaces.find(
"xyz.openbmc_project.FruDevice");
if (findType == interfaces.end())
{
return;
}
writeFruIfRunning();
frus.erase(path);
recalculateHashes();
lastDevId = 0xFF;
});
// call once to populate
boost::asio::spawn(*getIoContext(), [](boost::asio::yield_context yield) {
replaceCacheFru(getSdBus(), yield);
});
}
/** @brief implements the read FRU data command
* @param fruDeviceId - FRU Device ID
* @param fruInventoryOffset - FRU Inventory Offset to write
* @param countToRead - Count to read
*
* @returns ipmi completion code plus response data
* - countWritten - Count written
*/
ipmi::RspType<uint8_t, // Count
std::vector<uint8_t> // Requested data
>
ipmiStorageReadFruData(ipmi::Context::ptr ctx, uint8_t fruDeviceId,
uint16_t fruInventoryOffset, uint8_t countToRead)
{
if (fruDeviceId == 0xFF)
{
return ipmi::responseInvalidFieldRequest();
}
auto [status, fru] = getFru(ctx, fruDeviceId);
if (status != ipmi::ccSuccess)
{
return ipmi::response(status);
}
size_t fromFruByteLen = 0;
if (countToRead + fruInventoryOffset < fru.size())
{
fromFruByteLen = countToRead;
}
else if (fru.size() > fruInventoryOffset)
{
fromFruByteLen = fru.size() - fruInventoryOffset;
}
else
{
return ipmi::responseReqDataLenExceeded();
}
std::vector<uint8_t> requestedData;
requestedData.insert(requestedData.begin(),
fru.begin() + fruInventoryOffset,
fru.begin() + fruInventoryOffset + fromFruByteLen);
return ipmi::responseSuccess(static_cast<uint8_t>(requestedData.size()),
requestedData);
}
/** @brief implements the write FRU data command
* @param fruDeviceId - FRU Device ID
* @param fruInventoryOffset - FRU Inventory Offset to write
* @param dataToWrite - Data to write
*
* @returns ipmi completion code plus response data
* - countWritten - Count written
*/
ipmi::RspType<uint8_t>
ipmiStorageWriteFruData(ipmi::Context::ptr ctx, uint8_t fruDeviceId,
uint16_t fruInventoryOffset,
std::vector<uint8_t>& dataToWrite)
{
if (fruDeviceId == 0xFF)
{
return ipmi::responseInvalidFieldRequest();
}
size_t writeLen = dataToWrite.size();
auto [status, fru] = getFru(ctx, fruDeviceId);
if (status != ipmi::ccSuccess)
{
return ipmi::response(status);
}
size_t lastWriteAddr = fruInventoryOffset + writeLen;
if (fru.size() < lastWriteAddr)
{
fru.resize(fruInventoryOffset + writeLen);
}
std::copy(dataToWrite.begin(), dataToWrite.begin() + writeLen,
fru.begin() + fruInventoryOffset);
bool atEnd = false;
if (fru.size() >= sizeof(FRUHeader))
{
FRUHeader* header = reinterpret_cast<FRUHeader*>(fru.data());
size_t areaLength = 0;
size_t lastRecordStart = std::max(
{header->internalOffset, header->chassisOffset, header->boardOffset,
header->productOffset, header->multiRecordOffset});
lastRecordStart *= 8; // header starts in are multiples of 8 bytes
if (header->multiRecordOffset)
{
// This FRU has a MultiRecord Area
uint8_t endOfList = 0;
// Walk the MultiRecord headers until the last record
while (!endOfList)
{
// The MSB in the second byte of the MultiRecord header signals
// "End of list"
endOfList = fru[lastRecordStart + 1] & 0x80;
// Third byte in the MultiRecord header is the length
areaLength = fru[lastRecordStart + 2];
// This length is in bytes (not 8 bytes like other headers)
areaLength += 5; // The length omits the 5 byte header
if (!endOfList)
{
// Next MultiRecord header
lastRecordStart += areaLength;
}
}
}
else
{
// This FRU does not have a MultiRecord Area
// Get the length of the area in multiples of 8 bytes
if (lastWriteAddr > (lastRecordStart + 1))
{
// second byte in record area is the length
areaLength = fru[lastRecordStart + 1];
areaLength *= 8; // it is in multiples of 8 bytes
}
}
if (lastWriteAddr >= (areaLength + lastRecordStart))
{
atEnd = true;
}
}
uint8_t countWritten = 0;
writeBus = cacheBus;
writeAddr = cacheAddr;
if (atEnd)
{
// cancel timer, we're at the end so might as well send it
writeTimer->stop();
if (!writeFru(fru))
{
return ipmi::responseInvalidFieldRequest();
}
countWritten = std::min(fru.size(), static_cast<size_t>(0xFF));
}
else
{
fruCache = fru; // Write-back
// start a timer, if no further data is sent to check to see if it is
// valid
writeTimer->start(std::chrono::duration_cast<std::chrono::microseconds>(
std::chrono::seconds(writeTimeoutSeconds)));
countWritten = 0;
}
return ipmi::responseSuccess(countWritten);
}
/** @brief implements the get FRU inventory area info command
* @param fruDeviceId - FRU Device ID
*
* @returns IPMI completion code plus response data
* - inventorySize - Number of possible allocation units
* - accessType - Allocation unit size in bytes.
*/
ipmi::RspType<uint16_t, // inventorySize
uint8_t> // accessType
ipmiStorageGetFruInvAreaInfo(ipmi::Context::ptr ctx, uint8_t fruDeviceId)
{
if (fruDeviceId == 0xFF)
{
return ipmi::responseInvalidFieldRequest();
}
auto [ret, fru] = getFru(ctx, fruDeviceId);
if (ret != ipmi::ccSuccess)
{
return ipmi::response(ret);
}
constexpr uint8_t accessType =
static_cast<uint8_t>(GetFRUAreaAccessType::byte);
return ipmi::responseSuccess(fru.size(), accessType);
}
ipmi_ret_t getFruSdrCount(ipmi::Context::ptr, size_t& count)
{
count = deviceHashes.size();
return IPMI_CC_OK;
}
ipmi_ret_t getFruSdrs(ipmi::Context::ptr ctx, size_t index,
get_sdr::SensorDataFruRecord& resp)
{
if (deviceHashes.size() < index)
{
return IPMI_CC_INVALID_FIELD_REQUEST;
}
auto device = deviceHashes.begin() + index;
uint8_t& bus = device->second.first;
uint8_t& address = device->second.second;
boost::container::flat_map<std::string, Value>* fruData = nullptr;
auto fru =
std::find_if(frus.begin(), frus.end(),
[bus, address, &fruData](ManagedEntry& entry) {
auto findFruDevice =
entry.second.find("xyz.openbmc_project.FruDevice");
if (findFruDevice == entry.second.end())
{
return false;
}
fruData = &(findFruDevice->second);
auto findBus = findFruDevice->second.find("BUS");
auto findAddress =
findFruDevice->second.find("ADDRESS");
if (findBus == findFruDevice->second.end() ||
findAddress == findFruDevice->second.end())
{
return false;
}
if (std::get<uint32_t>(findBus->second) != bus)
{
return false;
}
if (std::get<uint32_t>(findAddress->second) != address)
{
return false;
}
return true;
});
if (fru == frus.end())
{
return IPMI_CC_RESPONSE_ERROR;
}
std::string name;
#ifdef USING_ENTITY_MANAGER_DECORATORS
boost::container::flat_map<std::string, Value>* entityData = nullptr;
// todo: this should really use caching, this is a very inefficient lookup
boost::system::error_code ec;
ManagedObjectType entities = ctx->bus->yield_method_call<ManagedObjectType>(
ctx->yield, ec, entityManagerServiceName,
"/xyz/openbmc_project/inventory", "org.freedesktop.DBus.ObjectManager",
"GetManagedObjects");
if (ec)
{
phosphor::logging::log<phosphor::logging::level::ERR>(
"GetMangagedObjects for ipmiStorageGetFruInvAreaInfo failed",
phosphor::logging::entry("ERROR=%s", ec.message().c_str()));
return ipmi::ccResponseError;
}
auto entity = std::find_if(
entities.begin(), entities.end(),
[bus, address, &entityData, &name](ManagedEntry& entry) {
auto findFruDevice = entry.second.find(
"xyz.openbmc_project.Inventory.Decorator.I2CDevice");
if (findFruDevice == entry.second.end())
{
return false;
}
// Integer fields added via Entity-Manager json are uint64_ts by
// default.
auto findBus = findFruDevice->second.find("Bus");
auto findAddress = findFruDevice->second.find("Address");
if (findBus == findFruDevice->second.end() ||
findAddress == findFruDevice->second.end())
{
return false;
}
if ((std::get<uint64_t>(findBus->second) != bus) ||
(std::get<uint64_t>(findAddress->second) != address))
{
return false;
}
auto fruName = findFruDevice->second.find("Name");
if (fruName != findFruDevice->second.end())
{
name = std::get<std::string>(fruName->second);
}
// At this point we found the device entry and should return
// true.
auto findIpmiDevice = entry.second.find(
"xyz.openbmc_project.Inventory.Decorator.Ipmi");
if (findIpmiDevice != entry.second.end())
{
entityData = &(findIpmiDevice->second);
}
return true;
});
if (entity == entities.end())
{
if constexpr (DEBUG)
{
std::fprintf(stderr, "Ipmi or FruDevice Decorator interface "
"not found for Fru\n");
}
}
#endif
if (name.empty())
{
name = "UNKNOWN";
}
if (name.size() > maxFruSdrNameSize)
{
name = name.substr(0, maxFruSdrNameSize);
}
size_t sizeDiff = maxFruSdrNameSize - name.size();
resp.header.record_id_lsb = 0x0; // calling code is to implement these
resp.header.record_id_msb = 0x0;
resp.header.sdr_version = ipmiSdrVersion;
resp.header.record_type = get_sdr::SENSOR_DATA_FRU_RECORD;
resp.header.record_length = sizeof(resp.body) + sizeof(resp.key) - sizeDiff;
resp.key.deviceAddress = 0x20;
resp.key.fruID = device->first;
resp.key.accessLun = 0x80; // logical / physical fru device
resp.key.channelNumber = 0x0;
resp.body.reserved = 0x0;
resp.body.deviceType = 0x10;
resp.body.deviceTypeModifier = 0x0;
uint8_t entityID = 0;
uint8_t entityInstance = 0x1;
#ifdef USING_ENTITY_MANAGER_DECORATORS
if (entityData)
{
auto entityIdProperty = entityData->find("EntityId");
auto entityInstanceProperty = entityData->find("EntityInstance");
if (entityIdProperty != entityData->end())
{
entityID = static_cast<uint8_t>(
std::get<uint64_t>(entityIdProperty->second));
}
if (entityInstanceProperty != entityData->end())
{
entityInstance = static_cast<uint8_t>(
std::get<uint64_t>(entityInstanceProperty->second));
}
}
#endif
resp.body.entityID = entityID;
resp.body.entityInstance = entityInstance;
resp.body.oem = 0x0;
resp.body.deviceIDLen = name.size();
name.copy(resp.body.deviceID, name.size());
return IPMI_CC_OK;
}
static bool getSELLogFiles(std::vector<std::filesystem::path>& selLogFiles)
{
// Loop through the directory looking for ipmi_sel log files
for (const std::filesystem::directory_entry& dirEnt :
std::filesystem::directory_iterator(
dynamic_sensors::ipmi::sel::selLogDir))
{
std::string filename = dirEnt.path().filename();
if (boost::starts_with(filename,
dynamic_sensors::ipmi::sel::selLogFilename))
{
// If we find an ipmi_sel log file, save the path
selLogFiles.emplace_back(dynamic_sensors::ipmi::sel::selLogDir /
filename);
}
}
// As the log files rotate, they are appended with a ".#" that is higher for
// the older logs. Since we don't expect more than 10 log files, we
// can just sort the list to get them in order from newest to oldest
std::sort(selLogFiles.begin(), selLogFiles.end());
return !selLogFiles.empty();
}
static int countSELEntries()
{
// Get the list of ipmi_sel log files
std::vector<std::filesystem::path> selLogFiles;
if (!getSELLogFiles(selLogFiles))
{
return 0;
}
int numSELEntries = 0;
// Loop through each log file and count the number of logs
for (const std::filesystem::path& file : selLogFiles)
{
std::ifstream logStream(file);
if (!logStream.is_open())
{
continue;
}
std::string line;
while (std::getline(logStream, line))
{
numSELEntries++;
}
}
return numSELEntries;
}
static bool findSELEntry(const int recordID,
const std::vector<std::filesystem::path>& selLogFiles,
std::string& entry)
{
// Record ID is the first entry field following the timestamp. It is
// preceded by a space and followed by a comma
std::string search = " " + std::to_string(recordID) + ",";
// Loop through the ipmi_sel log entries
for (const std::filesystem::path& file : selLogFiles)
{
std::ifstream logStream(file);
if (!logStream.is_open())
{
continue;
}
while (std::getline(logStream, entry))
{
// Check if the record ID matches
if (entry.find(search) != std::string::npos)
{
return true;
}
}
}
return false;
}
static uint16_t
getNextRecordID(const uint16_t recordID,
const std::vector<std::filesystem::path>& selLogFiles)
{
uint16_t nextRecordID = recordID + 1;
std::string entry;
if (findSELEntry(nextRecordID, selLogFiles, entry))
{
return nextRecordID;
}
else
{
return ipmi::sel::lastEntry;
}
}
static int fromHexStr(const std::string& hexStr, std::vector<uint8_t>& data)
{
for (unsigned int i = 0; i < hexStr.size(); i += 2)
{
try
{
data.push_back(static_cast<uint8_t>(
std::stoul(hexStr.substr(i, 2), nullptr, 16)));
}
catch (const std::invalid_argument& e)
{
phosphor::logging::log<phosphor::logging::level::ERR>(e.what());
return -1;
}
catch (const std::out_of_range& e)
{
phosphor::logging::log<phosphor::logging::level::ERR>(e.what());
return -1;
}
}
return 0;
}
ipmi::RspType<uint8_t, // SEL version
uint16_t, // SEL entry count
uint16_t, // free space
uint32_t, // last add timestamp
uint32_t, // last erase timestamp
uint8_t> // operation support
ipmiStorageGetSELInfo()
{
constexpr uint8_t selVersion = ipmi::sel::selVersion;
uint16_t entries = countSELEntries();
uint32_t addTimeStamp = dynamic_sensors::ipmi::sel::getFileTimestamp(
dynamic_sensors::ipmi::sel::selLogDir /
dynamic_sensors::ipmi::sel::selLogFilename);
uint32_t eraseTimeStamp = dynamic_sensors::ipmi::sel::erase_time::get();
constexpr uint8_t operationSupport =
dynamic_sensors::ipmi::sel::selOperationSupport;
constexpr uint16_t freeSpace =
0xffff; // Spec indicates that more than 64kB is free
return ipmi::responseSuccess(selVersion, entries, freeSpace, addTimeStamp,
eraseTimeStamp, operationSupport);
}
using systemEventType = std::tuple<
uint32_t, // Timestamp
uint16_t, // Generator ID
uint8_t, // EvM Rev
uint8_t, // Sensor Type
uint8_t, // Sensor Number
uint7_t, // Event Type
bool, // Event Direction
std::array<uint8_t, dynamic_sensors::ipmi::sel::systemEventSize>>; // Event
// Data
using oemTsEventType = std::tuple<
uint32_t, // Timestamp
std::array<uint8_t, dynamic_sensors::ipmi::sel::oemTsEventSize>>; // Event
// Data
using oemEventType =
std::array<uint8_t, dynamic_sensors::ipmi::sel::oemEventSize>; // Event Data
ipmi::RspType<uint16_t, // Next Record ID
uint16_t, // Record ID
uint8_t, // Record Type
std::variant<systemEventType, oemTsEventType,
oemEventType>> // Record Content
ipmiStorageGetSELEntry(uint16_t reservationID, uint16_t targetID,
uint8_t offset, uint8_t size)
{
// Only support getting the entire SEL record. If a partial size or non-zero
// offset is requested, return an error
if (offset != 0 || size != ipmi::sel::entireRecord)
{
return ipmi::responseRetBytesUnavailable();
}
// Check the reservation ID if one is provided or required (only if the
// offset is non-zero)
if (reservationID != 0 || offset != 0)
{
if (!checkSELReservation(reservationID))
{
return ipmi::responseInvalidReservationId();
}
}
// Get the ipmi_sel log files
std::vector<std::filesystem::path> selLogFiles;
if (!getSELLogFiles(selLogFiles))
{
return ipmi::responseSensorInvalid();
}
std::string targetEntry;
if (targetID == ipmi::sel::firstEntry)
{
// The first entry will be at the top of the oldest log file
std::ifstream logStream(selLogFiles.back());
if (!logStream.is_open())
{
return ipmi::responseUnspecifiedError();
}
if (!std::getline(logStream, targetEntry))
{
return ipmi::responseUnspecifiedError();
}
}
else if (targetID == ipmi::sel::lastEntry)
{
// The last entry will be at the bottom of the newest log file
std::ifstream logStream(selLogFiles.front());
if (!logStream.is_open())
{
return ipmi::responseUnspecifiedError();
}
std::string line;
while (std::getline(logStream, line))
{
targetEntry = line;
}
}
else
{
if (!findSELEntry(targetID, selLogFiles, targetEntry))
{
return ipmi::responseSensorInvalid();
}
}
// The format of the ipmi_sel message is "<Timestamp>
// <ID>,<Type>,<EventData>,[<Generator ID>,<Path>,<Direction>]".
// First get the Timestamp
size_t space = targetEntry.find_first_of(" ");
if (space == std::string::npos)
{
return ipmi::responseUnspecifiedError();
}
std::string entryTimestamp = targetEntry.substr(0, space);
// Then get the log contents
size_t entryStart = targetEntry.find_first_not_of(" ", space);
if (entryStart == std::string::npos)
{
return ipmi::responseUnspecifiedError();
}
std::string_view entry(targetEntry);
entry.remove_prefix(entryStart);
// Use split to separate the entry into its fields
std::vector<std::string> targetEntryFields;
boost::split(targetEntryFields, entry, boost::is_any_of(","),
boost::token_compress_on);
if (targetEntryFields.size() < 3)
{
return ipmi::responseUnspecifiedError();
}
std::string& recordIDStr = targetEntryFields[0];
std::string& recordTypeStr = targetEntryFields[1];
std::string& eventDataStr = targetEntryFields[2];
uint16_t recordID;
uint8_t recordType;
try
{
recordID = std::stoul(recordIDStr);
recordType = std::stoul(recordTypeStr, nullptr, 16);
}
catch (const std::invalid_argument&)
{
return ipmi::responseUnspecifiedError();
}
uint16_t nextRecordID = getNextRecordID(recordID, selLogFiles);
std::vector<uint8_t> eventDataBytes;
if (fromHexStr(eventDataStr, eventDataBytes) < 0)
{
return ipmi::responseUnspecifiedError();
}
if (recordType == dynamic_sensors::ipmi::sel::systemEvent)
{
// Get the timestamp
std::tm timeStruct = {};
std::istringstream entryStream(entryTimestamp);
uint32_t timestamp = ipmi::sel::invalidTimeStamp;
if (entryStream >> std::get_time(&timeStruct, "%Y-%m-%dT%H:%M:%S"))
{
timestamp = std::mktime(&timeStruct);
}
// Set the event message revision
uint8_t evmRev = dynamic_sensors::ipmi::sel::eventMsgRev;
uint16_t generatorID = 0;
uint8_t sensorType = 0;
uint16_t sensorAndLun = 0;
uint8_t sensorNum = 0xFF;
uint7_t eventType = 0;
bool eventDir = 0;
// System type events should have six fields
if (targetEntryFields.size() >= 6)
{
std::string& generatorIDStr = targetEntryFields[3];
std::string& sensorPath = targetEntryFields[4];
std::string& eventDirStr = targetEntryFields[5];
// Get the generator ID
try
{
generatorID = std::stoul(generatorIDStr, nullptr, 16);
}
catch (const std::invalid_argument&)
{
std::cerr << "Invalid Generator ID\n";
}
// Get the sensor type, sensor number, and event type for the sensor
sensorType = getSensorTypeFromPath(sensorPath);
sensorAndLun = getSensorNumberFromPath(sensorPath);
sensorNum = static_cast<uint8_t>(sensorAndLun);
if ((generatorID & 0x0001) == 0)
{
// IPMB Address
generatorID |= sensorAndLun & 0x0300;
}
else
{
// system software
generatorID |= sensorAndLun >> 8;
}
eventType = getSensorEventTypeFromPath(sensorPath);
// Get the event direction
try
{
eventDir = std::stoul(eventDirStr) ? 0 : 1;
}
catch (const std::invalid_argument&)
{
std::cerr << "Invalid Event Direction\n";
}
}
// Only keep the eventData bytes that fit in the record
std::array<uint8_t, dynamic_sensors::ipmi::sel::systemEventSize>
eventData{};
std::copy_n(eventDataBytes.begin(),
std::min(eventDataBytes.size(), eventData.size()),
eventData.begin());
return ipmi::responseSuccess(
nextRecordID, recordID, recordType,
systemEventType{timestamp, generatorID, evmRev, sensorType,
sensorNum, eventType, eventDir, eventData});
}
return ipmi::responseUnspecifiedError();
}
/*
Unused arguments
uint16_t recordID, uint8_t recordType, uint32_t timestamp,
uint16_t generatorID, uint8_t evmRev, uint8_t sensorType, uint8_t sensorNum,
uint8_t eventType, uint8_t eventData1, uint8_t eventData2,
uint8_t eventData3
*/
ipmi::RspType<uint16_t> ipmiStorageAddSELEntry(uint16_t, uint8_t, uint32_t,
uint16_t, uint8_t, uint8_t,
uint8_t, uint8_t, uint8_t,
uint8_t, uint8_t)
{
// Per the IPMI spec, need to cancel any reservation when a SEL entry is
// added
cancelSELReservation();
uint16_t responseID = 0xFFFF;
return ipmi::responseSuccess(responseID);
}
ipmi::RspType<uint8_t> ipmiStorageClearSEL(ipmi::Context::ptr ctx,
uint16_t reservationID,
const std::array<uint8_t, 3>& clr,
uint8_t eraseOperation)
{
if (!checkSELReservation(reservationID))
{
return ipmi::responseInvalidReservationId();
}
static constexpr std::array<uint8_t, 3> clrExpected = {'C', 'L', 'R'};
if (clr != clrExpected)
{
return ipmi::responseInvalidFieldRequest();
}
// Erasure status cannot be fetched, so always return erasure status as
// `erase completed`.
if (eraseOperation == ipmi::sel::getEraseStatus)
{
return ipmi::responseSuccess(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();
#ifndef FEATURE_SEL_LOGGER_CLEARS_SEL
// Save the erase time
dynamic_sensors::ipmi::sel::erase_time::save();
// Clear the SEL by deleting the log files
std::vector<std::filesystem::path> selLogFiles;
if (getSELLogFiles(selLogFiles))
{
for (const std::filesystem::path& file : selLogFiles)
{
std::error_code ec;
std::filesystem::remove(file, ec);
}
}
// Reload rsyslog so it knows to start new log files
boost::system::error_code ec;
ctx->bus->yield_method_call<>(ctx->yield, ec, "org.freedesktop.systemd1",
"/org/freedesktop/systemd1",
"org.freedesktop.systemd1.Manager",
"ReloadUnit", "rsyslog.service", "replace");
if (ec)
{
std::cerr << "error in reload rsyslog: " << ec << std::endl;
return ipmi::responseUnspecifiedError();
}
#else
boost::system::error_code ec;
ctx->bus->yield_method_call<>(ctx->yield, ec, selLoggerServiceName,
"/xyz/openbmc_project/Logging/IPMI",
"xyz.openbmc_project.Logging.IPMI", "Clear");
if (ec)
{
std::cerr << "error in clear SEL: " << ec << std::endl;
return ipmi::responseUnspecifiedError();
}
// Save the erase time
dynamic_sensors::ipmi::sel::erase_time::save();
#endif
return ipmi::responseSuccess(ipmi::sel::eraseComplete);
}
ipmi::RspType<uint32_t> ipmiStorageGetSELTime()
{
struct timespec selTime = {};
if (clock_gettime(CLOCK_REALTIME, &selTime) < 0)
{
return ipmi::responseUnspecifiedError();
}
return ipmi::responseSuccess(selTime.tv_sec);
}
ipmi::RspType<> ipmiStorageSetSELTime(uint32_t)
{
// Set SEL Time is not supported
return ipmi::responseInvalidCommand();
}
std::vector<uint8_t>
getType8SDRs(ipmi::sensor::EntityInfoMap::const_iterator& entity,
uint16_t recordId)
{
std::vector<uint8_t> resp;
get_sdr::SensorDataEntityRecord data{};
/* Header */
get_sdr::header::set_record_id(recordId, &(data.header));
// Based on IPMI Spec v2.0 rev 1.1
data.header.sdr_version = SDR_VERSION;
data.header.record_type = 0x08;
data.header.record_length = sizeof(data.key) + sizeof(data.body);
/* Key */
data.key.containerEntityId = entity->second.containerEntityId;
data.key.containerEntityInstance = entity->second.containerEntityInstance;
get_sdr::key::set_flags(entity->second.isList, entity->second.isLinked,
&(data.key));
data.key.entityId1 = entity->second.containedEntities[0].first;
data.key.entityInstance1 = entity->second.containedEntities[0].second;
/* Body */
data.body.entityId2 = entity->second.containedEntities[1].first;
data.body.entityInstance2 = entity->second.containedEntities[1].second;
data.body.entityId3 = entity->second.containedEntities[2].first;
data.body.entityInstance3 = entity->second.containedEntities[2].second;
data.body.entityId4 = entity->second.containedEntities[3].first;
data.body.entityInstance4 = entity->second.containedEntities[3].second;
resp.insert(resp.end(), (uint8_t*)&data, ((uint8_t*)&data) + sizeof(data));
return resp;
}
std::vector<uint8_t> getType12SDRs(uint16_t index, uint16_t recordId)
{
std::vector<uint8_t> resp;
if (index == 0)
{
std::string bmcName = "Basbrd Mgmt Ctlr";
Type12Record bmc(recordId, 0x20, 0, 0, 0xbf, 0x2e, 1, 0, bmcName);
uint8_t* bmcPtr = reinterpret_cast<uint8_t*>(&bmc);
resp.insert(resp.end(), bmcPtr, bmcPtr + sizeof(Type12Record));
}
else if (index == 1)
{
std::string meName = "Mgmt Engine";
Type12Record me(recordId, 0x2c, 6, 0x24, 0x21, 0x2e, 2, 0, meName);
uint8_t* mePtr = reinterpret_cast<uint8_t*>(&me);
resp.insert(resp.end(), mePtr, mePtr + sizeof(Type12Record));
}
else
{
throw std::runtime_error("getType12SDRs:: Illegal index " +
std::to_string(index));
}
return resp;
}
void registerStorageFunctions()
{
createTimers();
startMatch();
// <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::User,
ipmiStorageReadFruData);
// <WRITE FRU Data>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdWriteFruData,
ipmi::Privilege::Operator, ipmiStorageWriteFruData);
// <Get SEL Info>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdGetSelInfo, ipmi::Privilege::User,
ipmiStorageGetSELInfo);
// <Get SEL Entry>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdGetSelEntry, ipmi::Privilege::User,
ipmiStorageGetSELEntry);
// <Add SEL Entry>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdAddSelEntry,
ipmi::Privilege::Operator, ipmiStorageAddSELEntry);
// <Clear SEL>
ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage,
ipmi::storage::cmdClearSel, ipmi::Privilege::Operator,
ipmiStorageClearSEL);
// <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);
}
} // namespace storage
} // namespace ipmi