// Copyright 2021 Google LLC // // 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 "metric.hpp" #include "metricblob.pb.n.h" #include "util.hpp" #include #include #include #include #include #include #include #include namespace metric_blob { using phosphor::logging::entry; using phosphor::logging::log; using level = phosphor::logging::level; BmcHealthSnapshot::BmcHealthSnapshot() : done(false), stringId(0), ticksPerSec(0) {} template static constexpr auto pbEncodeStr = [](pb_ostream_t* stream, const pb_field_iter_t* field, void* const* arg) noexcept { static_assert(sizeof(*std::declval().data()) == sizeof(pb_byte_t)); const auto& s = *reinterpret_cast(*arg); return pb_encode_tag_for_field(stream, field) && pb_encode_string(stream, reinterpret_cast(s.data()), s.size()); }; template static pb_callback_t pbStrEncoder(const T& t) noexcept { return {{.encode = pbEncodeStr}, const_cast(&t)}; } template static constexpr auto pbEncodeSubs = [](pb_ostream_t* stream, const pb_field_iter_t* field, void* const* arg) noexcept { for (const auto& sub : *reinterpret_cast*>(*arg)) { if (!pb_encode_tag_for_field(stream, field) || !pb_encode_submessage(stream, fields, &sub)) { return false; } } return true; }; template static pb_callback_t pbSubsEncoder(const std::vector& t) { return {{.encode = pbEncodeSubs}, const_cast*>(&t)}; } struct ProcStatEntry { std::string cmdline; std::string tcomm; float utime; float stime; // Processes with the longest utime + stime are ranked first. // Tie breaking is done with cmdline then tcomm. bool operator<(const ProcStatEntry& other) const { const float negTime = -(utime + stime); const float negOtherTime = -(other.utime + other.stime); return std::tie(negTime, cmdline, tcomm) < std::tie(negOtherTime, other.cmdline, other.tcomm); } }; static bmcmetrics_metricproto_BmcProcStatMetric getProcStatMetric( BmcHealthSnapshot& obj, long ticksPerSec, std::vector& procs, bool& use) noexcept { if (ticksPerSec == 0) { return {}; } constexpr std::string_view procPath = "/proc/"; std::vector entries; for (const auto& procEntry : std::filesystem::directory_iterator(procPath)) { const std::string& path = procEntry.path(); int pid = -1; if (isNumericPath(path, pid)) { ProcStatEntry entry; try { entry.cmdline = getCmdLine(pid); TcommUtimeStime t = getTcommUtimeStime(pid, ticksPerSec); entry.tcomm = t.tcomm; entry.utime = t.utime; entry.stime = t.stime; entries.push_back(entry); } catch (const std::exception& e) { log("Could not obtain process stats"); } } } std::sort(entries.begin(), entries.end()); bool isOthers = false; ProcStatEntry others; others.cmdline = "(Others)"; others.utime = others.stime = 0; // Only show this many processes and aggregate all remaining ones into // "others" in order to keep the size of the snapshot reasonably small. // With 10 process stat entries and 10 FD count entries, the size of the // snapshot reaches around 1.5KiB. This is non-trivial, and we have to set // the collection interval long enough so as not to over-stress the IPMI // interface and the data collection service. The value of 10 is chosen // empirically, it might be subject to adjustments when the system is // launched later. constexpr int topN = 10; for (size_t i = 0; i < entries.size(); ++i) { if (i >= topN) { isOthers = true; } const ProcStatEntry& entry = entries[i]; if (isOthers) { others.utime += entry.utime; others.stime += entry.stime; } else { std::string fullCmdline = entry.cmdline; if (entry.tcomm.size() > 0) { fullCmdline += " "; fullCmdline += entry.tcomm; } procs.emplace_back( bmcmetrics_metricproto_BmcProcStatMetric_BmcProcStat{ .sidx_cmdline = obj.getStringID(fullCmdline), .utime = entry.utime, .stime = entry.stime, }); } } if (isOthers) { procs.emplace_back(bmcmetrics_metricproto_BmcProcStatMetric_BmcProcStat{ .sidx_cmdline = obj.getStringID(others.cmdline), .utime = others.utime, .stime = others.stime, }); } use = true; return bmcmetrics_metricproto_BmcProcStatMetric{ .stats = pbSubsEncoder< bmcmetrics_metricproto_BmcProcStatMetric_BmcProcStat_fields>(procs), }; } int getFdCount(int pid) { const std::string& fdPath = "/proc/" + std::to_string(pid) + "/fd"; return std::distance(std::filesystem::directory_iterator(fdPath), std::filesystem::directory_iterator{}); } struct FdStatEntry { int fdCount; std::string cmdline; std::string tcomm; // Processes with the largest fdCount goes first. // Tie-breaking using cmdline then tcomm. bool operator<(const FdStatEntry& other) const { const int negFdCount = -fdCount; const int negOtherFdCount = -other.fdCount; return std::tie(negFdCount, cmdline, tcomm) < std::tie(negOtherFdCount, other.cmdline, other.tcomm); } }; static bmcmetrics_metricproto_BmcFdStatMetric getFdStatMetric( BmcHealthSnapshot& obj, long ticksPerSec, std::vector& fds, bool& use) noexcept { if (ticksPerSec == 0) { return {}; } // Sort by fd count, no tie-breaking std::vector entries; const std::string_view procPath = "/proc/"; for (const auto& procEntry : std::filesystem::directory_iterator(procPath)) { const std::string& path = procEntry.path(); int pid = 0; FdStatEntry entry; if (isNumericPath(path, pid)) { try { entry.fdCount = getFdCount(pid); TcommUtimeStime t = getTcommUtimeStime(pid, ticksPerSec); entry.cmdline = getCmdLine(pid); entry.tcomm = t.tcomm; entries.push_back(entry); } catch (const std::exception& e) { log("Could not get file descriptor stats"); } } } std::sort(entries.begin(), entries.end()); bool isOthers = false; // Only report the detailed fd count and cmdline for the top 10 entries, // and collapse all others into "others". constexpr int topN = 10; FdStatEntry others; others.cmdline = "(Others)"; others.fdCount = 0; for (size_t i = 0; i < entries.size(); ++i) { if (i >= topN) { isOthers = true; } const FdStatEntry& entry = entries[i]; if (isOthers) { others.fdCount += entry.fdCount; } else { std::string fullCmdline = entry.cmdline; if (entry.tcomm.size() > 0) { fullCmdline += " "; fullCmdline += entry.tcomm; } fds.emplace_back(bmcmetrics_metricproto_BmcFdStatMetric_BmcFdStat{ .sidx_cmdline = obj.getStringID(fullCmdline), .fd_count = entry.fdCount, }); } } if (isOthers) { fds.emplace_back(bmcmetrics_metricproto_BmcFdStatMetric_BmcFdStat{ .sidx_cmdline = obj.getStringID(others.cmdline), .fd_count = others.fdCount, }); } use = true; return bmcmetrics_metricproto_BmcFdStatMetric{ .stats = pbSubsEncoder< bmcmetrics_metricproto_BmcFdStatMetric_BmcFdStat_fields>(fds), }; } static bmcmetrics_metricproto_BmcECCMetric getECCMetric(bool& use) noexcept { EccCounts eccCounts; use = getECCErrorCounts(eccCounts); if (!use) { return {}; } return bmcmetrics_metricproto_BmcECCMetric{ .correctable_error_count = eccCounts.correctableErrCount, .uncorrectable_error_count = eccCounts.uncorrectableErrCount, }; } static bmcmetrics_metricproto_BmcMemoryMetric getMemMetric() noexcept { bmcmetrics_metricproto_BmcMemoryMetric ret = {}; auto data = readFileThenGrepIntoString("/proc/meminfo"); int value; if (parseMeminfoValue(data, "MemAvailable:", value)) { ret.mem_available = value; } if (parseMeminfoValue(data, "Slab:", value)) { ret.slab = value; } if (parseMeminfoValue(data, "KernelStack:", value)) { ret.kernel_stack = value; } return ret; } static bmcmetrics_metricproto_BmcUptimeMetric getUptimeMetric(bool& use) noexcept { bmcmetrics_metricproto_BmcUptimeMetric ret = {}; double uptime = 0; { auto data = readFileThenGrepIntoString("/proc/uptime"); double idleProcessTime = 0; if (!parseProcUptime(data, uptime, idleProcessTime)) { log("Error parsing /proc/uptime"); return ret; } ret.uptime = uptime; ret.idle_process_time = idleProcessTime; } BootTimesMonotonic btm; if (!getBootTimesMonotonic(btm)) { log("Could not get boot time"); return ret; } if (btm.firmwareTime == 0 && btm.powerOnSecCounterTime != 0) { ret.firmware_boot_time_sec = static_cast(btm.powerOnSecCounterTime) - uptime; } else { ret.firmware_boot_time_sec = static_cast(btm.firmwareTime - btm.loaderTime) / 1e6; } ret.loader_boot_time_sec = static_cast(btm.loaderTime) / 1e6; if (btm.initrdTime != 0) { ret.kernel_boot_time_sec = static_cast(btm.initrdTime) / 1e6; ret.initrd_boot_time_sec = static_cast(btm.userspaceTime - btm.initrdTime) / 1e6; ret.userspace_boot_time_sec = static_cast(btm.finishTime - btm.userspaceTime) / 1e6; } else { ret.kernel_boot_time_sec = static_cast(btm.userspaceTime) / 1e6; ret.initrd_boot_time_sec = 0; ret.userspace_boot_time_sec = static_cast(btm.finishTime - btm.userspaceTime) / 1e6; } use = true; return ret; } static bmcmetrics_metricproto_BmcDiskSpaceMetric getStorageMetric(bool& use) noexcept { bmcmetrics_metricproto_BmcDiskSpaceMetric ret = {}; struct statvfs rwFiData, tmpFiData; if (statvfs("/", &rwFiData) < 0) { log("Could not call statvfs"); } else { ret.rwfs_kib_available = (rwFiData.f_bsize * rwFiData.f_bfree) / 1024; use = true; } if (statvfs("/tmp", &tmpFiData) < 0) { log("Could not call statvfs"); } else { ret.tmpfs_kib_available = (tmpFiData.f_bsize * tmpFiData.f_bfree) / 1024; use = true; } return ret; } void BmcHealthSnapshot::doWork() { // The next metrics require a sane ticks_per_sec value, typically 100 on // the BMC. In the very rare circumstance when it's 0, exit early and return // a partially complete snapshot (no process). ticksPerSec = getTicksPerSec(); static constexpr auto stcb = [](pb_ostream_t* stream, const pb_field_t* field, void* const* arg) noexcept { auto& self = *reinterpret_cast(*arg); std::vector strs(self.stringTable.size()); for (const auto& [str, i] : self.stringTable) { strs[i] = str; } for (auto& str : strs) { bmcmetrics_metricproto_BmcStringTable_StringEntry msg = { .value = pbStrEncoder(str), }; if (!pb_encode_tag_for_field(stream, field) || !pb_encode_submessage( stream, bmcmetrics_metricproto_BmcStringTable_StringEntry_fields, &msg)) { return false; } } return true; }; std::vector procs; std::vector fds; bmcmetrics_metricproto_BmcMetricSnapshot snapshot = { .has_string_table = true, .string_table = { .entries = {{.encode = stcb}, this}, }, .has_memory_metric = true, .memory_metric = getMemMetric(), .has_uptime_metric = false, .uptime_metric = getUptimeMetric(snapshot.has_uptime_metric), .has_storage_space_metric = false, .storage_space_metric = getStorageMetric(snapshot.has_storage_space_metric), .has_procstat_metric = false, .procstat_metric = getProcStatMetric(*this, ticksPerSec, procs, snapshot.has_procstat_metric), .has_fdstat_metric = false, .fdstat_metric = getFdStatMetric(*this, ticksPerSec, fds, snapshot.has_fdstat_metric), .has_ecc_metric = false, .ecc_metric = getECCMetric(snapshot.has_ecc_metric), }; pb_ostream_t nost = {}; if (!pb_encode(&nost, bmcmetrics_metricproto_BmcMetricSnapshot_fields, &snapshot)) { auto msg = std::format("Getting pb size: {}", PB_GET_ERROR(&nost)); log(msg.c_str()); return; } pbDump.resize(nost.bytes_written); auto ost = pb_ostream_from_buffer( reinterpret_cast(pbDump.data()), pbDump.size()); if (!pb_encode(&ost, bmcmetrics_metricproto_BmcMetricSnapshot_fields, &snapshot)) { auto msg = std::format("Writing pb msg: {}", PB_GET_ERROR(&ost)); log(msg.c_str()); return; } done = true; } // BmcBlobSessionStat (9) but passing meta as reference instead of pointer, // since the metadata must not be null at this point. bool BmcHealthSnapshot::stat(blobs::BlobMeta& meta) { if (!done) { // Bits 8~15 are blob-specific state flags. // For this blob, bit 8 is set when metric collection is still in // progress. meta.blobState |= (1 << 8); } else { meta.blobState = 0; meta.blobState = blobs::StateFlags::open_read; meta.size = pbDump.size(); } return true; } std::string_view BmcHealthSnapshot::read(uint32_t offset, uint32_t requestedSize) { uint32_t size = static_cast(pbDump.size()); if (offset >= size) { return {}; } return std::string_view(pbDump.data() + offset, std::min(requestedSize, size - offset)); } int BmcHealthSnapshot::getStringID(const std::string_view s) { int ret = 0; auto itr = stringTable.find(s.data()); if (itr == stringTable.end()) { stringTable[s.data()] = stringId; ret = stringId; ++stringId; } else { ret = itr->second; } return ret; } } // namespace metric_blob