package main import ( "bytes" "crypto/rand" "encoding/csv" "encoding/hex" "fmt" "math" "os" "os/exec" "path" "path/filepath" "regexp" "strconv" "strings" "syscall" "time" "github.com/prometheus/client_golang/prometheus" "github.com/prometheus/common/log" ) const ( namespace = "ipmi" targetLocal = "" ) var ( ipmiDCMICurrentPowerRegex = regexp.MustCompile(`^Current Power\s*:\s*(?P[0-9.]*)\s*Watts.*`) ipmiChassisPowerRegex = regexp.MustCompile(`^System Power\s*:\s(?P.*)`) ipmiSELEntriesRegex = regexp.MustCompile(`^Number of log entries\s*:\s(?P[0-9.]*)`) ipmiSELFreeSpaceRegex = regexp.MustCompile(`^Free space remaining\s*:\s(?P[0-9.]*)\s*bytes.*`) bmcInfoFirmwareRevisionRegex = regexp.MustCompile(`^Firmware Revision\s*:\s*(?P[0-9.]*).*`) bmcInfoManufacturerIDRegex = regexp.MustCompile(`^Manufacturer ID\s*:\s*(?P.*)`) ) type collector struct { target string module string config *SafeConfig } type sensorData struct { ID int64 Name string Type string State string Value float64 Unit string Event string } type ipmiTarget struct { host string config IPMIConfig } var ( sensorStateDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "sensor", "state"), "Indicates the severity of the state reported by an IPMI sensor (0=nominal, 1=warning, 2=critical).", []string{"id", "name", "type"}, nil, ) sensorValueDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "sensor", "value"), "Generic data read from an IPMI sensor of unknown type, relying on labels for context.", []string{"id", "name", "type"}, nil, ) fanSpeedDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "fan_speed", "rpm"), "Fan speed in rotations per minute.", []string{"id", "name"}, nil, ) fanSpeedStateDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "fan_speed", "state"), "Reported state of a fan speed sensor (0=nominal, 1=warning, 2=critical).", []string{"id", "name"}, nil, ) temperatureDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "temperature", "celsius"), "Temperature reading in degree Celsius.", []string{"id", "name"}, nil, ) temperatureStateDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "temperature", "state"), "Reported state of a temperature sensor (0=nominal, 1=warning, 2=critical).", []string{"id", "name"}, nil, ) voltageDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "voltage", "volts"), "Voltage reading in Volts.", []string{"id", "name"}, nil, ) voltageStateDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "voltage", "state"), "Reported state of a voltage sensor (0=nominal, 1=warning, 2=critical).", []string{"id", "name"}, nil, ) currentDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "current", "amperes"), "Current reading in Amperes.", []string{"id", "name"}, nil, ) currentStateDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "current", "state"), "Reported state of a current sensor (0=nominal, 1=warning, 2=critical).", []string{"id", "name"}, nil, ) powerDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "power", "watts"), "Power reading in Watts.", []string{"id", "name"}, nil, ) powerStateDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "power", "state"), "Reported state of a power sensor (0=nominal, 1=warning, 2=critical).", []string{"id", "name"}, nil, ) powerConsumption = prometheus.NewDesc( prometheus.BuildFQName(namespace, "dcmi", "power_consumption_watts"), "Current power consumption in Watts.", []string{}, nil, ) chassisPowerState = prometheus.NewDesc( prometheus.BuildFQName(namespace, "chassis", "power_state"), "Current power state (1=on, 0=off).", []string{}, nil, ) bmcInfo = prometheus.NewDesc( prometheus.BuildFQName(namespace, "bmc", "info"), "Constant metric with value '1' providing details about the BMC.", []string{"firmware_revision", "manufacturer_id"}, nil, ) selEntriesCountDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "sel", "logs_count"), "Current number of log entries in the SEL.", []string{}, nil, ) selFreeSpaceDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "sel", "free_space_bytes"), "Current free space remaining for new SEL entries.", []string{}, nil, ) upDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "", "up"), "'1' if a scrape of the IPMI device was successful, '0' otherwise.", []string{"collector"}, nil, ) durationDesc = prometheus.NewDesc( prometheus.BuildFQName(namespace, "scrape_duration", "seconds"), "Returns how long the scrape took to complete in seconds.", nil, nil, ) ) func pipeName() string { randBytes := make([]byte, 16) rand.Read(randBytes) return filepath.Join(os.TempDir(), "ipmi_exporter-"+hex.EncodeToString(randBytes)) } func freeipmiConfig(config IPMIConfig) string { var b strings.Builder if config.Driver != "" { fmt.Fprintf(&b, "driver-type %s\n", config.Driver) } if config.Privilege != "" { fmt.Fprintf(&b, "privilege-level %s\n", config.Privilege) } if config.User != "" { fmt.Fprintf(&b, "username %s\n", config.User) } if config.Password != "" { fmt.Fprintf(&b, "password %s\n", escapePassword(config.Password)) } if config.Timeout != 0 { fmt.Fprintf(&b, "session-timeout %d\n", config.Timeout) } if len(config.WorkaroundFlags) > 0 { fmt.Fprintf(&b, "workaround-flags") for _, flag := range config.WorkaroundFlags { fmt.Fprintf(&b, " %s", flag) } fmt.Fprintln(&b) } return b.String() } func freeipmiConfigPipe(config IPMIConfig) (string, error) { content := []byte(freeipmiConfig(config)) pipe := pipeName() err := syscall.Mkfifo(pipe, 0600) if err != nil { return "", err } go func(file string, data []byte) { f, err := os.OpenFile(file, os.O_WRONLY|os.O_CREATE|os.O_APPEND, os.ModeNamedPipe) if err != nil { log.Errorf("Error opening pipe: %s", err) } if _, err := f.Write(data); err != nil { log.Errorf("Error writing config to pipe: %s", err) } f.Close() }(pipe, content) return pipe, nil } func freeipmiOutput(cmd string, target ipmiTarget, arg ...string) ([]byte, error) { pipe, err := freeipmiConfigPipe(target.config) if err != nil { return nil, err } defer func() { if err := os.Remove(pipe); err != nil { log.Errorf("Error deleting named pipe: %s", err) } }() args := []string{"--config-file", pipe} if !targetIsLocal(target.host) { args = append(args, "-h", target.host) } fqcmd := path.Join(*executablesPath, cmd) args = append(args, arg...) log.Debugf("Executing %s %v", fqcmd, args) out, err := exec.Command(fqcmd, args...).CombinedOutput() if err != nil { log.Errorf("Error while calling %s for %s: %s", cmd, targetName(target.host), out) } return out, err } func ipmiMonitoringOutput(target ipmiTarget) ([]byte, error) { return freeipmiOutput("ipmimonitoring", target, "-Q", "--ignore-unrecognized-events", "--comma-separated-output", "--no-header-output", "--sdr-cache-recreate") } func ipmiDCMIOutput(target ipmiTarget) ([]byte, error) { return freeipmiOutput("ipmi-dcmi", target, "--get-system-power-statistics") } func bmcInfoOutput(target ipmiTarget) ([]byte, error) { return freeipmiOutput("bmc-info", target, "--get-device-id") } func ipmiChassisOutput(target ipmiTarget) ([]byte, error) { return freeipmiOutput("ipmi-chassis", target, "--get-chassis-status") } func ipmiSELOutput(target ipmiTarget) ([]byte, error) { return freeipmiOutput("ipmi-sel", target, "--info") } func splitMonitoringOutput(impiOutput []byte, excludeSensorIds []int64) ([]sensorData, error) { var result []sensorData r := csv.NewReader(bytes.NewReader(impiOutput)) fields, err := r.ReadAll() if err != nil { return result, err } for _, line := range fields { var data sensorData data.ID, err = strconv.ParseInt(line[0], 10, 64) if err != nil { return result, err } if contains(excludeSensorIds, data.ID) { continue } data.Name = line[1] data.Type = line[2] data.State = line[3] value := line[4] if value != "N/A" { data.Value, err = strconv.ParseFloat(value, 64) if err != nil { return result, err } } else { data.Value = math.NaN() } data.Unit = line[5] data.Event = strings.Trim(line[6], "'") result = append(result, data) } return result, err } func getValue(ipmiOutput []byte, regex *regexp.Regexp) (string, error) { for _, line := range strings.Split(string(ipmiOutput), "\n") { match := regex.FindStringSubmatch(line) if match == nil { continue } for i, name := range regex.SubexpNames() { if name != "value" { continue } return match[i], nil } } return "", fmt.Errorf("Could not find value in output: %s", string(ipmiOutput)) } func getCurrentPowerConsumption(ipmiOutput []byte) (float64, error) { value, err := getValue(ipmiOutput, ipmiDCMICurrentPowerRegex) if err != nil { return -1, err } return strconv.ParseFloat(value, 64) } func getChassisPowerState(ipmiOutput []byte) (float64, error) { value, err := getValue(ipmiOutput, ipmiChassisPowerRegex) if err != nil { return -1, err } if value == "on" { return 1, err } return 0, err } func getBMCInfoFirmwareRevision(ipmiOutput []byte) (string, error) { return getValue(ipmiOutput, bmcInfoFirmwareRevisionRegex) } func getBMCInfoManufacturerID(ipmiOutput []byte) (string, error) { return getValue(ipmiOutput, bmcInfoManufacturerIDRegex) } func getSELInfoEntriesCount(ipmiOutput []byte) (float64, error) { value, err := getValue(ipmiOutput, ipmiSELEntriesRegex) if err != nil { return -1, err } return strconv.ParseFloat(value, 64) } func getSELInfoFreeSpace(ipmiOutput []byte) (float64, error) { value, err := getValue(ipmiOutput, ipmiSELFreeSpaceRegex) if err != nil { return -1, err } return strconv.ParseFloat(value, 64) } // Describe implements Prometheus.Collector. func (c collector) Describe(ch chan<- *prometheus.Desc) { ch <- sensorStateDesc ch <- sensorValueDesc ch <- fanSpeedDesc ch <- temperatureDesc ch <- powerConsumption ch <- bmcInfo ch <- selEntriesCountDesc ch <- selFreeSpaceDesc ch <- upDesc ch <- durationDesc } func collectTypedSensor(ch chan<- prometheus.Metric, desc, stateDesc *prometheus.Desc, state float64, data sensorData) { ch <- prometheus.MustNewConstMetric( desc, prometheus.GaugeValue, data.Value, strconv.FormatInt(data.ID, 10), data.Name, ) ch <- prometheus.MustNewConstMetric( stateDesc, prometheus.GaugeValue, state, strconv.FormatInt(data.ID, 10), data.Name, ) } func collectGenericSensor(ch chan<- prometheus.Metric, state float64, data sensorData) { ch <- prometheus.MustNewConstMetric( sensorValueDesc, prometheus.GaugeValue, data.Value, strconv.FormatInt(data.ID, 10), data.Name, data.Type, ) ch <- prometheus.MustNewConstMetric( sensorStateDesc, prometheus.GaugeValue, state, strconv.FormatInt(data.ID, 10), data.Name, data.Type, ) } func collectMonitoring(ch chan<- prometheus.Metric, target ipmiTarget) (int, error) { output, err := ipmiMonitoringOutput(target) if err != nil { log.Errorf("Failed to collect ipmimonitoring data from %s: %s", targetName(target.host), err) return 0, err } excludeIds := target.config.ExcludeSensorIDs results, err := splitMonitoringOutput(output, excludeIds) if err != nil { log.Errorf("Failed to parse ipmimonitoring data from %s: %s", targetName(target.host), err) return 0, err } for _, data := range results { var state float64 switch data.State { case "Nominal": state = 0 case "Warning": state = 1 case "Critical": state = 2 case "N/A": state = math.NaN() default: log.Errorf("Unknown sensor state: '%s'\n", data.State) state = math.NaN() } log.Debugf("Got values: %v\n", data) switch data.Unit { case "RPM": collectTypedSensor(ch, fanSpeedDesc, fanSpeedStateDesc, state, data) case "C": collectTypedSensor(ch, temperatureDesc, temperatureStateDesc, state, data) case "A": collectTypedSensor(ch, currentDesc, currentStateDesc, state, data) case "V": collectTypedSensor(ch, voltageDesc, voltageStateDesc, state, data) case "W": collectTypedSensor(ch, powerDesc, powerStateDesc, state, data) default: collectGenericSensor(ch, state, data) } } return 1, nil } func collectDCMI(ch chan<- prometheus.Metric, target ipmiTarget) (int, error) { output, err := ipmiDCMIOutput(target) if err != nil { log.Debugf("Failed to collect ipmi-dcmi data from %s: %s", targetName(target.host), err) return 0, err } currentPowerConsumption, err := getCurrentPowerConsumption(output) if err != nil { log.Errorf("Failed to parse ipmi-dcmi data from %s: %s", targetName(target.host), err) return 0, err } ch <- prometheus.MustNewConstMetric( powerConsumption, prometheus.GaugeValue, currentPowerConsumption, ) return 1, nil } func collectChassisState(ch chan<- prometheus.Metric, target ipmiTarget) (int, error) { output, err := ipmiChassisOutput(target) if err != nil { log.Debugf("Failed to collect ipmi-chassis data from %s: %s", targetName(target.host), err) return 0, err } currentChassisPowerState, err := getChassisPowerState(output) if err != nil { log.Errorf("Failed to parse ipmi-chassis data from %s: %s", targetName(target.host), err) return 0, err } ch <- prometheus.MustNewConstMetric( chassisPowerState, prometheus.GaugeValue, currentChassisPowerState, ) return 1, nil } func collectBmcInfo(ch chan<- prometheus.Metric, target ipmiTarget) (int, error) { output, err := bmcInfoOutput(target) if err != nil { log.Debugf("Failed to collect bmc-info data from %s: %s", targetName(target.host), err) return 0, err } firmwareRevision, err := getBMCInfoFirmwareRevision(output) if err != nil { log.Errorf("Failed to parse bmc-info data from %s: %s", targetName(target.host), err) return 0, err } manufacturerID, err := getBMCInfoManufacturerID(output) if err != nil { log.Errorf("Failed to parse bmc-info data from %s: %s", targetName(target.host), err) return 0, err } ch <- prometheus.MustNewConstMetric( bmcInfo, prometheus.GaugeValue, 1, firmwareRevision, manufacturerID, ) return 1, nil } func collectSELInfo(ch chan<- prometheus.Metric, target ipmiTarget) (int, error) { output, err := ipmiSELOutput(target) if err != nil { log.Debugf("Failed to collect ipmi-sel data from %s: %s", targetName(target.host), err) return 0, err } entriesCount, err := getSELInfoEntriesCount(output) if err != nil { log.Errorf("Failed to parse ipmi-sel data from %s: %s", targetName(target.host), err) return 0, err } freeSpace, err := getSELInfoFreeSpace(output) if err != nil { log.Errorf("Failed to parse ipmi-sel data from %s: %s", targetName(target.host), err) return 0, err } ch <- prometheus.MustNewConstMetric( selEntriesCountDesc, prometheus.GaugeValue, entriesCount, ) ch <- prometheus.MustNewConstMetric( selFreeSpaceDesc, prometheus.GaugeValue, freeSpace, ) return 1, nil } func markCollectorUp(ch chan<- prometheus.Metric, name string, up int) { ch <- prometheus.MustNewConstMetric( upDesc, prometheus.GaugeValue, float64(up), name, ) } // Collect implements Prometheus.Collector. func (c collector) Collect(ch chan<- prometheus.Metric) { start := time.Now() defer func() { duration := time.Since(start).Seconds() log.Debugf("Scrape of target %s took %f seconds.", targetName(c.target), duration) ch <- prometheus.MustNewConstMetric( durationDesc, prometheus.GaugeValue, duration, ) }() config := c.config.ConfigForTarget(c.target, c.module) target := ipmiTarget{ host: c.target, config: config, } for _, collector := range config.Collectors { var up int log.Debugf("Running collector: %s", collector) switch collector { case "ipmi": up, _ = collectMonitoring(ch, target) case "dcmi": up, _ = collectDCMI(ch, target) case "bmc": up, _ = collectBmcInfo(ch, target) case "chassis": up, _ = collectChassisState(ch, target) case "sel": up, _ = collectSELInfo(ch, target) } markCollectorUp(ch, collector, up) } } func contains(s []int64, elm int64) bool { for _, a := range s { if a == elm { return true } } return false } func escapePassword(password string) string { return strings.Replace(password, "#", "\\#", -1) } func targetName(target string) string { if targetIsLocal(target) { return "[local]" } return target } func targetIsLocal(target string) bool { return target == targetLocal }