/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */ #include "base/perfdatavalue.hpp" #include "base/perfdatavalue-ti.cpp" #include "base/convert.hpp" #include "base/exception.hpp" #include "base/logger.hpp" #include "base/function.hpp" #include #include #include #include #include #include using namespace icinga; REGISTER_TYPE(PerfdataValue); REGISTER_FUNCTION(System, parse_performance_data, PerfdataValue::Parse, "perfdata"); struct UoM { double Factor; const char* Out; }; typedef std::unordered_map UoMs; typedef std::unordered_multimap DupUoMs; static const UoMs l_CsUoMs (([]() -> UoMs { DupUoMs uoms ({ // Misc: { "", { 1, "" } }, { "%", { 1, "percent" } }, { "c", { 1, "" } }, { "C", { 1, "degrees-celsius" } } }); { // Data (rate): struct { const char* Char; int Power; } prefixes[] = { { "k", 1 }, { "K", 1 }, { "m", 2 }, { "M", 2 }, { "g", 3 }, { "G", 3 }, { "t", 4 }, { "T", 4 }, { "p", 5 }, { "P", 5 }, { "e", 6 }, { "E", 6 }, { "z", 7 }, { "Z", 7 }, { "y", 8 }, { "Y", 8 } }; struct { const char* Char; double Factor; } siIecs[] = { { "", 1000 }, { "i", 1024 }, { "I", 1024 } }; struct { const char *In, *Out; } bases[] = { { "b", "bits" }, { "B", "bytes" } }; for (auto base : bases) { uoms.emplace(base.In, UoM{1, base.Out}); } for (auto prefix : prefixes) { for (auto siIec : siIecs) { auto factor (pow(siIec.Factor, prefix.Power)); for (auto base : bases) { uoms.emplace( std::string(prefix.Char) + siIec.Char + base.In, UoM{factor, base.Out} ); } } } } { // Energy: struct { const char* Char; int Power; } prefixes[] = { { "n", -3 }, { "N", -3 }, { "u", -2 }, { "U", -2 }, { "m", -1 }, { "", 0 }, { "k", 1 }, { "K", 1 }, { "M", 2 }, { "g", 3 }, { "G", 3 }, { "t", 4 }, { "T", 4 }, { "p", 5 }, { "P", 5 }, { "e", 6 }, { "E", 6 }, { "z", 7 }, { "Z", 7 }, { "y", 8 }, { "Y", 8 } }; { struct { const char* Ins[2]; const char* Out; } bases[] = { { { "a", "A" }, "amperes" }, { { "o", "O" }, "ohms" }, { { "v", "V" }, "volts" }, { { "w", "W" }, "watts" } }; for (auto prefix : prefixes) { auto factor (pow(1000.0, prefix.Power)); for (auto base : bases) { for (auto b : base.Ins) { uoms.emplace(std::string(prefix.Char) + b, UoM{factor, base.Out}); } } } } struct { const char* Char; double Factor; } suffixes[] = { { "s", 1 }, { "S", 1 }, { "m", 60 }, { "M", 60 }, { "h", 60 * 60 }, { "H", 60 * 60 } }; struct { const char* Ins[2]; double Factor; const char* Out; } bases[] = { { { "a", "A" }, 1, "ampere-seconds" }, { { "w", "W" }, 60 * 60, "watt-hours" } }; for (auto prefix : prefixes) { auto factor (pow(1000.0, prefix.Power)); for (auto suffix : suffixes) { auto timeFactor (factor * suffix.Factor); for (auto& base : bases) { auto baseFactor (timeFactor / base.Factor); for (auto b : base.Ins) { uoms.emplace( std::string(prefix.Char) + b + suffix.Char, UoM{baseFactor, base.Out} ); } } } } } UoMs uniqUoms; for (auto& uom : uoms) { if (!uniqUoms.emplace(uom).second) { throw std::logic_error("Duplicate case-sensitive UoM detected: " + uom.first); } } return std::move(uniqUoms); })()); static const UoMs l_CiUoMs (([]() -> UoMs { DupUoMs uoms ({ // Time: { "ns", { 1.0 / 1000 / 1000 / 1000, "seconds" } }, { "us", { 1.0 / 1000 / 1000, "seconds" } }, { "ms", { 1.0 / 1000, "seconds" } }, { "s", { 1, "seconds" } }, { "m", { 60, "seconds" } }, { "h", { 60 * 60, "seconds" } }, { "d", { 60 * 60 * 24, "seconds" } }, // Mass: { "ng", { 1.0 / 1000 / 1000 / 1000, "grams" } }, { "ug", { 1.0 / 1000 / 1000, "grams" } }, { "mg", { 1.0 / 1000, "grams" } }, { "g", { 1, "grams" } }, { "kg", { 1000, "grams" } }, { "t", { 1000 * 1000, "grams" } }, // Volume: { "ml", { 1.0 / 1000, "liters" } }, { "l", { 1, "liters" } }, { "hl", { 100, "liters" } }, // Misc: { "packets", { 1, "packets" } }, { "lm", { 1, "lumens" } }, { "dbm", { 1, "decibel-milliwatts" } }, { "f", { 1, "degrees-fahrenheit" } }, { "k", { 1, "degrees-kelvin" } } }); UoMs uniqUoms; for (auto& uom : uoms) { if (!uniqUoms.emplace(uom).second) { throw std::logic_error("Duplicate case-insensitive UoM detected: " + uom.first); } } for (auto& uom : l_CsUoMs) { auto input (uom.first); boost::algorithm::to_lower(input); auto pos (uoms.find(input)); if (pos != uoms.end()) { throw std::logic_error("Duplicate case-sensitive/case-insensitive UoM detected: " + pos->first); } } return std::move(uniqUoms); })()); PerfdataValue::PerfdataValue(const String& label, double value, bool counter, const String& unit, const Value& warn, const Value& crit, const Value& min, const Value& max) { SetLabel(label, true); SetValue(value, true); SetCounter(counter, true); SetUnit(unit, true); SetWarn(warn, true); SetCrit(crit, true); SetMin(min, true); SetMax(max, true); } PerfdataValue::Ptr PerfdataValue::Parse(const String& perfdata) { size_t eqp = perfdata.FindLastOf('='); if (eqp == String::NPos) BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid performance data value: " + perfdata)); String label = perfdata.SubStr(0, eqp); if (label.GetLength() > 2 && label[0] == '\'' && label[label.GetLength() - 1] == '\'') label = label.SubStr(1, label.GetLength() - 2); size_t spq = perfdata.FindFirstOf(' ', eqp); if (spq == String::NPos) spq = perfdata.GetLength(); String valueStr = perfdata.SubStr(eqp + 1, spq - eqp - 1); std::vector tokens = valueStr.Split(";"); if (valueStr.FindFirstOf(',') != String::NPos || tokens.empty()) { BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid performance data value: " + perfdata)); } // Find the position where to split value and unit. Possible values of tokens[0] include: // "1000", "1.0", "1.", "-.1", "+1", "1e10", "1GB", "1e10GB", "1e10EB", "1E10EB", "1.5GB", "1.GB", "+1.E-1EW" // Consider everything up to and including the last digit or decimal point as part of the value. size_t pos = tokens[0].FindLastOf("0123456789."); if (pos != String::NPos) { pos++; } double value = Convert::ToDouble(tokens[0].SubStr(0, pos)); bool counter = false; String unit; Value warn, crit, min, max; if (pos != String::NPos) unit = tokens[0].SubStr(pos, String::NPos); double base; { auto uom (l_CsUoMs.find(unit.GetData())); if (uom == l_CsUoMs.end()) { auto ciUnit (unit.ToLower()); auto uom (l_CiUoMs.find(ciUnit.GetData())); if (uom == l_CiUoMs.end()) { Log(LogDebug, "PerfdataValue") << "Invalid performance data unit: " << unit; unit = ""; base = 1.0; } else { unit = uom->second.Out; base = uom->second.Factor; } } else { unit = uom->second.Out; base = uom->second.Factor; } } if (unit == "c") { counter = true; } warn = ParseWarnCritMinMaxToken(tokens, 1, "warning"); crit = ParseWarnCritMinMaxToken(tokens, 2, "critical"); min = ParseWarnCritMinMaxToken(tokens, 3, "minimum"); max = ParseWarnCritMinMaxToken(tokens, 4, "maximum"); value = value * base; if (!warn.IsEmpty()) warn = warn * base; if (!crit.IsEmpty()) crit = crit * base; if (!min.IsEmpty()) min = min * base; if (!max.IsEmpty()) max = max * base; return new PerfdataValue(label, value, counter, unit, warn, crit, min, max); } static const std::unordered_map l_FormatUoMs ({ { "ampere-seconds", "As" }, { "amperes", "A" }, { "bits", "b" }, { "bytes", "B" }, { "decibel-milliwatts", "dBm" }, { "degrees-celsius", "C" }, { "degrees-fahrenheit", "F" }, { "degrees-kelvin", "K" }, { "grams", "g" }, { "liters", "l" }, { "lumens", "lm" }, { "ohms", "O" }, { "percent", "%" }, { "seconds", "s" }, { "volts", "V" }, { "watt-hours", "Wh" }, { "watts", "W" } }); String PerfdataValue::Format() const { std::ostringstream result; if (GetLabel().FindFirstOf(" ") != String::NPos) result << "'" << GetLabel() << "'"; else result << GetLabel(); result << "=" << Convert::ToString(GetValue()); String unit; if (GetCounter()) { unit = "c"; } else { auto myUnit (GetUnit()); auto uom (l_FormatUoMs.find(myUnit.GetData())); if (uom != l_FormatUoMs.end()) { unit = uom->second; } } result << unit; if (!GetWarn().IsEmpty()) { result << ";" << Convert::ToString(GetWarn()); if (!GetCrit().IsEmpty()) { result << ";" << Convert::ToString(GetCrit()); if (!GetMin().IsEmpty()) { result << ";" << Convert::ToString(GetMin()); if (!GetMax().IsEmpty()) { result << ";" << Convert::ToString(GetMax()); } } } } return result.str(); } Value PerfdataValue::ParseWarnCritMinMaxToken(const std::vector& tokens, std::vector::size_type index, const String& description) { if (tokens.size() > index && tokens[index] != "U" && tokens[index] != "" && tokens[index].FindFirstNotOf("+-0123456789.eE") == String::NPos) return Convert::ToDouble(tokens[index]); else { if (tokens.size() > index && tokens[index] != "") Log(LogDebug, "PerfdataValue") << "Ignoring unsupported perfdata " << description << " range, value: '" << tokens[index] << "'."; return Empty; } }