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/**
* Copyright © 2019 IBM 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 "repository.hpp"
#include <sys/stat.h>
#include <fstream>
#include <phosphor-logging/log.hpp>
#include <xyz/openbmc_project/Common/File/error.hpp>
namespace openpower
{
namespace pels
{
namespace fs = std::filesystem;
using namespace phosphor::logging;
namespace file_error = sdbusplus::xyz::openbmc_project::Common::File::Error;
constexpr size_t warningPercentage = 95;
/**
* @brief Returns the amount of space the file uses on disk.
*
* This is different than just the regular size of the file.
*
* @param[in] file - The file to get the size of
*
* @return size_t The disk space the file uses
*/
size_t getFileDiskSize(const std::filesystem::path& file)
{
constexpr size_t statBlockSize = 512;
struct stat statData;
auto rc = stat(file.c_str(), &statData);
if (rc != 0)
{
auto e = errno;
std::string msg = "call to stat() failed on " + file.native() +
" with errno " + std::to_string(e);
log<level::ERR>(msg.c_str());
abort();
}
return statData.st_blocks * statBlockSize;
}
Repository::Repository(const std::filesystem::path& basePath, size_t repoSize,
size_t maxNumPELs) :
_logPath(basePath / "logs"),
_maxRepoSize(repoSize), _maxNumPELs(maxNumPELs)
{
if (!fs::exists(_logPath))
{
fs::create_directories(_logPath);
}
restore();
}
void Repository::restore()
{
for (auto& dirEntry : fs::directory_iterator(_logPath))
{
try
{
if (!fs::is_regular_file(dirEntry.path()))
{
continue;
}
std::ifstream file{dirEntry.path()};
std::vector<uint8_t> data{std::istreambuf_iterator<char>(file),
std::istreambuf_iterator<char>()};
file.close();
PEL pel{data};
if (pel.valid())
{
// If the host hasn't acked it, reset the host state so
// it will get sent up again.
if (pel.hostTransmissionState() == TransmissionState::sent)
{
pel.setHostTransmissionState(TransmissionState::newPEL);
try
{
write(pel, dirEntry.path());
}
catch (std::exception& e)
{
log<level::ERR>(
"Failed to save PEL after updating host state",
entry("PELID=0x%X", pel.id()));
}
}
PELAttributes attributes{dirEntry.path(),
getFileDiskSize(dirEntry.path()),
pel.privateHeader().creatorID(),
pel.userHeader().severity(),
pel.userHeader().actionFlags(),
pel.hostTransmissionState(),
pel.hmcTransmissionState()};
using pelID = LogID::Pel;
using obmcID = LogID::Obmc;
_pelAttributes.emplace(
LogID(pelID(pel.id()), obmcID(pel.obmcLogID())),
attributes);
updateRepoStats(attributes, true);
}
else
{
log<level::ERR>(
"Found invalid PEL file while restoring. Removing.",
entry("FILENAME=%s", dirEntry.path().c_str()));
fs::remove(dirEntry.path());
}
}
catch (std::exception& e)
{
log<level::ERR>("Hit exception while restoring PEL File",
entry("FILENAME=%s", dirEntry.path().c_str()),
entry("ERROR=%s", e.what()));
}
}
}
std::string Repository::getPELFilename(uint32_t pelID, const BCDTime& time)
{
char name[50];
sprintf(name, "%.2X%.2X%.2X%.2X%.2X%.2X%.2X%.2X_%.8X", time.yearMSB,
time.yearLSB, time.month, time.day, time.hour, time.minutes,
time.seconds, time.hundredths, pelID);
return std::string{name};
}
void Repository::add(std::unique_ptr<PEL>& pel)
{
pel->setHostTransmissionState(TransmissionState::newPEL);
pel->setHMCTransmissionState(TransmissionState::newPEL);
auto path = _logPath / getPELFilename(pel->id(), pel->commitTime());
write(*(pel.get()), path);
PELAttributes attributes{path,
getFileDiskSize(path),
pel->privateHeader().creatorID(),
pel->userHeader().severity(),
pel->userHeader().actionFlags(),
pel->hostTransmissionState(),
pel->hmcTransmissionState()};
using pelID = LogID::Pel;
using obmcID = LogID::Obmc;
_pelAttributes.emplace(LogID(pelID(pel->id()), obmcID(pel->obmcLogID())),
attributes);
updateRepoStats(attributes, true);
processAddCallbacks(*pel);
}
void Repository::write(const PEL& pel, const fs::path& path)
{
std::ofstream file{path, std::ios::binary};
if (!file.good())
{
// If this fails, the filesystem is probably full so it isn't like
// we could successfully create yet another error log here.
auto e = errno;
fs::remove(path);
log<level::ERR>("Unable to open PEL file for writing",
entry("ERRNO=%d", e), entry("PATH=%s", path.c_str()));
throw file_error::Open();
}
auto data = pel.data();
file.write(reinterpret_cast<const char*>(data.data()), data.size());
if (file.fail())
{
// Same note as above about not being able to create an error log
// for this case even if we wanted.
auto e = errno;
file.close();
fs::remove(path);
log<level::ERR>("Unable to write PEL file", entry("ERRNO=%d", e),
entry("PATH=%s", path.c_str()));
throw file_error::Write();
}
}
std::optional<Repository::LogID> Repository::remove(const LogID& id)
{
std::optional<LogID> actualID;
auto pel = findPEL(id);
if (pel != _pelAttributes.end())
{
actualID = pel->first;
updateRepoStats(pel->second, false);
log<level::DEBUG>("Removing PEL from repository",
entry("PEL_ID=0x%X", pel->first.pelID.id),
entry("OBMC_LOG_ID=%d", pel->first.obmcID.id));
fs::remove(pel->second.path);
_pelAttributes.erase(pel);
processDeleteCallbacks(pel->first.pelID.id);
}
else
{
log<level::DEBUG>("Could not find PEL to remove",
entry("PEL_ID=0x%X", id.pelID.id),
entry("OBMC_LOG_ID=%d", id.obmcID.id));
}
return actualID;
}
std::optional<std::vector<uint8_t>> Repository::getPELData(const LogID& id)
{
auto pel = findPEL(id);
if (pel != _pelAttributes.end())
{
std::ifstream file{pel->second.path.c_str()};
if (!file.good())
{
auto e = errno;
log<level::ERR>("Unable to open PEL file", entry("ERRNO=%d", e),
entry("PATH=%s", pel->second.path.c_str()));
throw file_error::Open();
}
std::vector<uint8_t> data{std::istreambuf_iterator<char>(file),
std::istreambuf_iterator<char>()};
return data;
}
return std::nullopt;
}
std::optional<sdbusplus::message::unix_fd> Repository::getPELFD(const LogID& id)
{
auto pel = findPEL(id);
if (pel != _pelAttributes.end())
{
FILE* fp = fopen(pel->second.path.c_str(), "rb");
if (fp == nullptr)
{
auto e = errno;
log<level::ERR>("Unable to open PEL File", entry("ERRNO=%d", e),
entry("PATH=%s", pel->second.path.c_str()));
throw file_error::Open();
}
// Must leave the file open here. It will be closed by sdbusplus
// when it sends it back over D-Bus.
return fileno(fp);
}
return std::nullopt;
}
void Repository::for_each(ForEachFunc func) const
{
for (const auto& [id, attributes] : _pelAttributes)
{
std::ifstream file{attributes.path};
if (!file.good())
{
auto e = errno;
log<level::ERR>("Repository::for_each: Unable to open PEL file",
entry("ERRNO=%d", e),
entry("PATH=%s", attributes.path.c_str()));
continue;
}
std::vector<uint8_t> data{std::istreambuf_iterator<char>(file),
std::istreambuf_iterator<char>()};
file.close();
PEL pel{data};
try
{
if (func(pel))
{
break;
}
}
catch (std::exception& e)
{
log<level::ERR>("Repository::for_each function exception",
entry("ERROR=%s", e.what()));
}
}
}
void Repository::processAddCallbacks(const PEL& pel) const
{
for (auto& [name, func] : _addSubscriptions)
{
try
{
func(pel);
}
catch (std::exception& e)
{
log<level::ERR>("PEL Repository add callback exception",
entry("NAME=%s", name.c_str()),
entry("ERROR=%s", e.what()));
}
}
}
void Repository::processDeleteCallbacks(uint32_t id) const
{
for (auto& [name, func] : _deleteSubscriptions)
{
try
{
func(id);
}
catch (std::exception& e)
{
log<level::ERR>("PEL Repository delete callback exception",
entry("NAME=%s", name.c_str()),
entry("ERROR=%s", e.what()));
}
}
}
std::optional<std::reference_wrapper<const Repository::PELAttributes>>
Repository::getPELAttributes(const LogID& id) const
{
auto pel = findPEL(id);
if (pel != _pelAttributes.end())
{
return pel->second;
}
return std::nullopt;
}
void Repository::setPELHostTransState(uint32_t pelID, TransmissionState state)
{
LogID id{LogID::Pel{pelID}};
auto attr = std::find_if(_pelAttributes.begin(), _pelAttributes.end(),
[&id](const auto& a) { return a.first == id; });
if ((attr != _pelAttributes.end()) && (attr->second.hostState != state))
{
PELUpdateFunc func = [state](PEL& pel) {
pel.setHostTransmissionState(state);
};
try
{
updatePEL(attr->second.path, func);
attr->second.hostState = state;
}
catch (std::exception& e)
{
log<level::ERR>("Unable to update PEL host transmission state",
entry("PATH=%s", attr->second.path.c_str()),
entry("ERROR=%s", e.what()));
}
}
}
void Repository::setPELHMCTransState(uint32_t pelID, TransmissionState state)
{
LogID id{LogID::Pel{pelID}};
auto attr = std::find_if(_pelAttributes.begin(), _pelAttributes.end(),
[&id](const auto& a) { return a.first == id; });
if ((attr != _pelAttributes.end()) && (attr->second.hmcState != state))
{
PELUpdateFunc func = [state](PEL& pel) {
pel.setHMCTransmissionState(state);
};
try
{
updatePEL(attr->second.path, func);
attr->second.hmcState = state;
}
catch (std::exception& e)
{
log<level::ERR>("Unable to update PEL HMC transmission state",
entry("PATH=%s", attr->second.path.c_str()),
entry("ERROR=%s", e.what()));
}
}
}
void Repository::updatePEL(const fs::path& path, PELUpdateFunc updateFunc)
{
std::ifstream file{path};
std::vector<uint8_t> data{std::istreambuf_iterator<char>(file),
std::istreambuf_iterator<char>()};
file.close();
PEL pel{data};
if (pel.valid())
{
updateFunc(pel);
write(pel, path);
}
else
{
throw std::runtime_error(
"Unable to read a valid PEL when trying to update it");
}
}
bool Repository::isServiceableSev(const PELAttributes& pel)
{
auto sevType = static_cast<SeverityType>(pel.severity & 0xF0);
auto sevPVEntry =
pel_values::findByValue(pel.severity, pel_values::severityValues);
std::string sevName = std::get<pel_values::registryNamePos>(*sevPVEntry);
bool check1 = (sevType == SeverityType::predictive) ||
(sevType == SeverityType::unrecoverable) ||
(sevType == SeverityType::critical);
bool check2 = ((sevType == SeverityType::recovered) ||
(sevName == "symptom_recovered")) &&
!pel.actionFlags.test(hiddenFlagBit);
bool check3 = (sevName == "symptom_predictive") ||
(sevName == "symptom_unrecoverable") ||
(sevName == "symptom_critical");
return check1 || check2 || check3;
}
void Repository::updateRepoStats(const PELAttributes& pel, bool pelAdded)
{
auto isServiceable = Repository::isServiceableSev(pel);
auto bmcPEL = CreatorID::openBMC == static_cast<CreatorID>(pel.creator);
auto adjustSize = [pelAdded, &pel](auto& runningSize) {
if (pelAdded)
{
runningSize += pel.sizeOnDisk;
}
else
{
runningSize = std::max(static_cast<int64_t>(runningSize) -
static_cast<int64_t>(pel.sizeOnDisk),
static_cast<int64_t>(0));
}
};
adjustSize(_sizes.total);
if (bmcPEL)
{
adjustSize(_sizes.bmc);
if (isServiceable)
{
adjustSize(_sizes.bmcServiceable);
}
else
{
adjustSize(_sizes.bmcInfo);
}
}
else
{
adjustSize(_sizes.nonBMC);
if (isServiceable)
{
adjustSize(_sizes.nonBMCServiceable);
}
else
{
adjustSize(_sizes.nonBMCInfo);
}
}
}
bool Repository::sizeWarning() const
{
return (_sizes.total > (_maxRepoSize * warningPercentage / 100)) ||
(_pelAttributes.size() > _maxNumPELs);
}
std::vector<Repository::AttributesReference>
Repository::getAllPELAttributes(SortOrder order) const
{
std::vector<Repository::AttributesReference> attributes;
std::for_each(
_pelAttributes.begin(), _pelAttributes.end(),
[&attributes](auto& pelEntry) { attributes.push_back(pelEntry); });
std::sort(attributes.begin(), attributes.end(),
[order](const auto& left, const auto& right) {
if (order == SortOrder::ascending)
{
return left.get().second.path < right.get().second.path;
}
return left.get().second.path > right.get().second.path;
});
return attributes;
}
std::vector<uint32_t> Repository::prune()
{
std::vector<uint32_t> obmcLogIDs;
std::string msg = "Pruning PEL repository that takes up " +
std::to_string(_sizes.total) + " bytes and has " +
std::to_string(_pelAttributes.size()) + " PELs";
log<level::INFO>(msg.c_str());
// Set up the 5 functions to check if the PEL category
// is still over its limits.
// BMC informational PELs should only take up 15%
IsOverLimitFunc overBMCInfoLimit = [this]() {
return _sizes.bmcInfo > _maxRepoSize * 15 / 100;
};
// BMC non informational PELs should only take up 30%
IsOverLimitFunc overBMCNonInfoLimit = [this]() {
return _sizes.bmcServiceable > _maxRepoSize * 30 / 100;
};
// Non BMC informational PELs should only take up 15%
IsOverLimitFunc overNonBMCInfoLimit = [this]() {
return _sizes.nonBMCInfo > _maxRepoSize * 15 / 100;
};
// Non BMC non informational PELs should only take up 15%
IsOverLimitFunc overNonBMCNonInfoLimit = [this]() {
return _sizes.nonBMCServiceable > _maxRepoSize * 30 / 100;
};
// Bring the total number of PELs down to 80% of the max
IsOverLimitFunc tooManyPELsLimit = [this]() {
return _pelAttributes.size() > _maxNumPELs * 80 / 100;
};
// Set up the functions to determine which category a PEL is in.
// TODO: Return false in these functions if a PEL caused a guard record.
// A BMC informational PEL
IsPELTypeFunc isBMCInfo = [](const PELAttributes& pel) {
return (CreatorID::openBMC == static_cast<CreatorID>(pel.creator)) &&
!Repository::isServiceableSev(pel);
};
// A BMC non informational PEL
IsPELTypeFunc isBMCNonInfo = [](const PELAttributes& pel) {
return (CreatorID::openBMC == static_cast<CreatorID>(pel.creator)) &&
Repository::isServiceableSev(pel);
};
// A non BMC informational PEL
IsPELTypeFunc isNonBMCInfo = [](const PELAttributes& pel) {
return (CreatorID::openBMC != static_cast<CreatorID>(pel.creator)) &&
!Repository::isServiceableSev(pel);
};
// A non BMC non informational PEL
IsPELTypeFunc isNonBMCNonInfo = [](const PELAttributes& pel) {
return (CreatorID::openBMC != static_cast<CreatorID>(pel.creator)) &&
Repository::isServiceableSev(pel);
};
// When counting PELs, count every PEL
IsPELTypeFunc isAnyPEL = [](const PELAttributes& pel) { return true; };
// Check all 4 categories, which will result in at most 90%
// usage (15 + 30 + 15 + 30).
removePELs(overBMCInfoLimit, isBMCInfo, obmcLogIDs);
removePELs(overBMCNonInfoLimit, isBMCNonInfo, obmcLogIDs);
removePELs(overNonBMCInfoLimit, isNonBMCInfo, obmcLogIDs);
removePELs(overNonBMCNonInfoLimit, isNonBMCNonInfo, obmcLogIDs);
// After the above pruning check if there are still too many PELs,
// which can happen depending on PEL sizes.
if (_pelAttributes.size() > _maxNumPELs)
{
removePELs(tooManyPELsLimit, isAnyPEL, obmcLogIDs);
}
if (!obmcLogIDs.empty())
{
std::string msg = "Number of PELs removed to save space: " +
std::to_string(obmcLogIDs.size());
log<level::INFO>(msg.c_str());
}
return obmcLogIDs;
}
void Repository::removePELs(IsOverLimitFunc& isOverLimit,
IsPELTypeFunc& isPELType,
std::vector<uint32_t>& removedBMCLogIDs)
{
if (!isOverLimit())
{
return;
}
auto attributes = getAllPELAttributes(SortOrder::ascending);
// Make 4 passes on the PELs, stopping as soon as isOverLimit
// returns false.
// Pass 1: only delete HMC acked PELs
// Pass 2: only delete OS acked PELs
// Pass 3: only delete PHYP sent PELs
// Pass 4: delete all PELs
static const std::vector<std::function<bool(const PELAttributes& pel)>>
stateChecks{[](const auto& pel) {
return pel.hmcState == TransmissionState::acked;
},
[](const auto& pel) {
return pel.hostState == TransmissionState::acked;
},
[](const auto& pel) {
return pel.hostState == TransmissionState::sent;
},
[](const auto& pel) { return true; }};
for (const auto& stateCheck : stateChecks)
{
for (auto it = attributes.begin(); it != attributes.end();)
{
const auto& pel = it->get();
if (isPELType(pel.second) && stateCheck(pel.second))
{
auto removedID = pel.first.obmcID.id;
remove(pel.first);
removedBMCLogIDs.push_back(removedID);
attributes.erase(it);
if (!isOverLimit())
{
break;
}
}
else
{
++it;
}
}
if (!isOverLimit())
{
break;
}
}
}
} // namespace pels
} // namespace openpower