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smart.go
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smart.go
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package smart
import (
"bufio"
"fmt"
"os"
"os/exec"
"path"
"regexp"
"strconv"
"strings"
"sync"
"syscall"
"time"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/internal"
"github.com/influxdata/telegraf/plugins/inputs"
)
const intelVID = "0x8086"
var (
// Device Model: APPLE SSD SM256E
// Product: HUH721212AL5204
// Model Number: TS128GMTE850
modelInfo = regexp.MustCompile("^(Device Model|Product|Model Number):\\s+(.*)$")
// Serial Number: S0X5NZBC422720
serialInfo = regexp.MustCompile("(?i)^Serial Number:\\s+(.*)$")
// LU WWN Device Id: 5 002538 655584d30
wwnInfo = regexp.MustCompile("^LU WWN Device Id:\\s+(.*)$")
// User Capacity: 251,000,193,024 bytes [251 GB]
userCapacityInfo = regexp.MustCompile("^User Capacity:\\s+([0-9,]+)\\s+bytes.*$")
// SMART support is: Enabled
smartEnabledInfo = regexp.MustCompile("^SMART support is:\\s+(\\w+)$")
// SMART overall-health self-assessment test result: PASSED
// SMART Health Status: OK
// PASSED, FAILED, UNKNOWN
smartOverallHealth = regexp.MustCompile("^(SMART overall-health self-assessment test result|SMART Health Status):\\s+(\\w+).*$")
// sasNvmeAttr is a SAS or NVME SMART attribute
sasNvmeAttr = regexp.MustCompile(`^([^:]+):\s+(.+)$`)
// ID# ATTRIBUTE_NAME FLAGS VALUE WORST THRESH FAIL RAW_VALUE
// 1 Raw_Read_Error_Rate -O-RC- 200 200 000 - 0
// 5 Reallocated_Sector_Ct PO--CK 100 100 000 - 0
// 192 Power-Off_Retract_Count -O--C- 097 097 000 - 14716
attribute = regexp.MustCompile("^\\s*([0-9]+)\\s(\\S+)\\s+([-P][-O][-S][-R][-C][-K])\\s+([0-9]+)\\s+([0-9]+)\\s+([0-9-]+)\\s+([-\\w]+)\\s+([\\w\\+\\.]+).*$")
// Additional Smart Log for NVME device:nvme0 namespace-id:ffffffff
// key normalized raw
// program_fail_count : 100% 0
intelExpressionPattern = regexp.MustCompile(`^([\w\s]+):([\w\s]+)%(.+)`)
// vid : 0x8086
// sn : CFGT53260XSP8011P
nvmeIDCtrlExpressionPattern = regexp.MustCompile(`^([\w\s]+):([\s\w]+)`)
deviceFieldIds = map[string]string{
"1": "read_error_rate",
"7": "seek_error_rate",
"190": "temp_c",
"194": "temp_c",
"199": "udma_crc_errors",
}
// to obtain metrics from smartctl
sasNvmeAttributes = map[string]struct {
ID string
Name string
Parse func(fields, deviceFields map[string]interface{}, str string) error
}{
"Accumulated start-stop cycles": {
ID: "4",
Name: "Start_Stop_Count",
},
"Accumulated load-unload cycles": {
ID: "193",
Name: "Load_Cycle_Count",
},
"Current Drive Temperature": {
ID: "194",
Name: "Temperature_Celsius",
Parse: parseTemperature,
},
"Temperature": {
ID: "194",
Name: "Temperature_Celsius",
Parse: parseTemperature,
},
"Power Cycles": {
ID: "12",
Name: "Power_Cycle_Count",
},
"Power On Hours": {
ID: "9",
Name: "Power_On_Hours",
},
"Media and Data Integrity Errors": {
Name: "Media_and_Data_Integrity_Errors",
},
"Error Information Log Entries": {
Name: "Error_Information_Log_Entries",
},
"Critical Warning": {
Name: "Critical_Warning",
Parse: func(fields, _ map[string]interface{}, str string) error {
var value int64
if _, err := fmt.Sscanf(str, "0x%x", &value); err != nil {
return err
}
fields["raw_value"] = value
return nil
},
},
"Available Spare": {
Name: "Available_Spare",
Parse: parsePercentageInt,
},
"Available Spare Threshold": {
Name: "Available_Spare_Threshold",
Parse: parsePercentageInt,
},
"Percentage Used": {
Name: "Percentage_Used",
Parse: parsePercentageInt,
},
"Data Units Read": {
Name: "Data_Units_Read",
Parse: parseDataUnits,
},
"Data Units Written": {
Name: "Data_Units_Written",
Parse: parseDataUnits,
},
"Host Read Commands": {
Name: "Host_Read_Commands",
Parse: parseCommaSeparatedInt,
},
"Host Write Commands": {
Name: "Host_Write_Commands",
Parse: parseCommaSeparatedInt,
},
"Controller Busy Time": {
Name: "Controller_Busy_Time",
Parse: parseCommaSeparatedInt,
},
"Unsafe Shutdowns": {
Name: "Unsafe_Shutdowns",
Parse: parseCommaSeparatedInt,
},
"Warning Comp. Temperature Time": {
Name: "Warning_Temperature_Time",
Parse: parseCommaSeparatedInt,
},
"Critical Comp. Temperature Time": {
Name: "Critical_Temperature_Time",
Parse: parseCommaSeparatedInt,
},
"Thermal Temp. 1 Transition Count": {
Name: "Thermal_Management_T1_Trans_Count",
Parse: parseCommaSeparatedInt,
},
"Thermal Temp. 2 Transition Count": {
Name: "Thermal_Management_T2_Trans_Count",
Parse: parseCommaSeparatedInt,
},
"Thermal Temp. 1 Total Time": {
Name: "Thermal_Management_T1_Total_Time",
Parse: parseCommaSeparatedInt,
},
"Thermal Temp. 2 Total Time": {
Name: "Thermal_Management_T2_Total_Time",
Parse: parseCommaSeparatedInt,
},
"Temperature Sensor 1": {
Name: "Temperature_Sensor_1",
Parse: parseTemperatureSensor,
},
"Temperature Sensor 2": {
Name: "Temperature_Sensor_2",
Parse: parseTemperatureSensor,
},
"Temperature Sensor 3": {
Name: "Temperature_Sensor_3",
Parse: parseTemperatureSensor,
},
"Temperature Sensor 4": {
Name: "Temperature_Sensor_4",
Parse: parseTemperatureSensor,
},
"Temperature Sensor 5": {
Name: "Temperature_Sensor_5",
Parse: parseTemperatureSensor,
},
"Temperature Sensor 6": {
Name: "Temperature_Sensor_6",
Parse: parseTemperatureSensor,
},
"Temperature Sensor 7": {
Name: "Temperature_Sensor_7",
Parse: parseTemperatureSensor,
},
"Temperature Sensor 8": {
Name: "Temperature_Sensor_8",
Parse: parseTemperatureSensor,
},
}
// to obtain Intel specific metrics from nvme-cli
intelAttributes = map[string]struct {
ID string
Name string
Parse func(acc telegraf.Accumulator, fields map[string]interface{}, tags map[string]string, str string) error
}{
"program_fail_count": {
Name: "Program_Fail_Count",
},
"erase_fail_count": {
Name: "Erase_Fail_Count",
},
"end_to_end_error_detection_count": {
Name: "End_To_End_Error_Detection_Count",
},
"crc_error_count": {
Name: "Crc_Error_Count",
},
"retry_buffer_overflow_count": {
Name: "Retry_Buffer_Overflow_Count",
},
"wear_leveling": {
Name: "Wear_Leveling",
Parse: parseWearLeveling,
},
"timed_workload_media_wear": {
Name: "Timed_Workload_Media_Wear",
Parse: parseTimedWorkload,
},
"timed_workload_host_reads": {
Name: "Timed_Workload_Host_Reads",
Parse: parseTimedWorkload,
},
"timed_workload_timer": {
Name: "Timed_Workload_Timer",
Parse: func(acc telegraf.Accumulator, fields map[string]interface{}, tags map[string]string, str string) error {
return parseCommaSeparatedIntWithAccumulator(acc, fields, tags, strings.TrimSuffix(str, " min"))
},
},
"thermal_throttle_status": {
Name: "Thermal_Throttle_Status",
Parse: parseThermalThrottle,
},
"pll_lock_loss_count": {
Name: "Pll_Lock_Loss_Count",
},
"nand_bytes_written": {
Name: "Nand_Bytes_Written",
Parse: parseBytesWritten,
},
"host_bytes_written": {
Name: "Host_Bytes_Written",
Parse: parseBytesWritten,
},
}
)
// Smart plugin reads metrics from storage devices supporting S.M.A.R.T.
type Smart struct {
Path string `toml:"path"` //deprecated - to keep backward compatibility
PathSmartctl string `toml:"path_smartctl"`
PathNVMe string `toml:"path_nvme"`
Nocheck string `toml:"nocheck"`
EnableExtensions []string `toml:"enable_extensions"`
Attributes bool `toml:"attributes"`
Excludes []string `toml:"excludes"`
Devices []string `toml:"devices"`
UseSudo bool `toml:"use_sudo"`
Timeout internal.Duration `toml:"timeout"`
Log telegraf.Logger `toml:"-"`
}
type nvmeDevice struct {
name string
vendorID string
model string
serialNumber string
}
var sampleConfig = `
## Optionally specify the path to the smartctl executable
# path_smartctl = "/usr/bin/smartctl"
## Optionally specify the path to the nvme-cli executable
# path_nvme = "/usr/bin/nvme"
## Optionally specify if vendor specific attributes should be propagated for NVMe disk case
## ["auto-on"] - automatically find and enable additional vendor specific disk info
## ["vendor1", "vendor2", ...] - e.g. "Intel" enable additional Intel specific disk info
# enable_extensions = ["auto-on"]
## On most platforms used cli utilities requires root access.
## Setting 'use_sudo' to true will make use of sudo to run smartctl or nvme-cli.
## Sudo must be configured to allow the telegraf user to run smartctl or nvme-cli
## without a password.
# use_sudo = false
## Skip checking disks in this power mode. Defaults to
## "standby" to not wake up disks that have stopped rotating.
## See --nocheck in the man pages for smartctl.
## smartctl version 5.41 and 5.42 have faulty detection of
## power mode and might require changing this value to
## "never" depending on your disks.
# nocheck = "standby"
## Gather all returned S.M.A.R.T. attribute metrics and the detailed
## information from each drive into the 'smart_attribute' measurement.
# attributes = false
## Optionally specify devices to exclude from reporting if disks auto-discovery is performed.
# excludes = [ "/dev/pass6" ]
## Optionally specify devices and device type, if unset
## a scan (smartctl --scan and smartctl --scan -d nvme) for S.M.A.R.T. devices will be done
## and all found will be included except for the excluded in excludes.
# devices = [ "/dev/ada0 -d atacam", "/dev/nvme0"]
## Timeout for the cli command to complete.
# timeout = "30s"
`
func newSmart() *Smart {
return &Smart{
Timeout: internal.Duration{Duration: time.Second * 30},
}
}
// SampleConfig returns sample configuration for this plugin.
func (m *Smart) SampleConfig() string {
return sampleConfig
}
// Description returns the plugin description.
func (m *Smart) Description() string {
return "Read metrics from storage devices supporting S.M.A.R.T."
}
// Init performs one time setup of the plugin and returns an error if the configuration is invalid.
func (m *Smart) Init() error {
//if deprecated `path` (to smartctl binary) is provided in config and `path_smartctl` override does not exist
if len(m.Path) > 0 && len(m.PathSmartctl) == 0 {
m.PathSmartctl = m.Path
}
//if `path_smartctl` is not provided in config, try to find smartctl binary in PATH
if len(m.PathSmartctl) == 0 {
m.PathSmartctl, _ = exec.LookPath("smartctl")
}
//if `path_nvme` is not provided in config, try to find nvme binary in PATH
if len(m.PathNVMe) == 0 {
m.PathNVMe, _ = exec.LookPath("nvme")
}
err := validatePath(m.PathSmartctl)
if err != nil {
m.PathSmartctl = ""
//without smartctl, plugin will not be able to gather basic metrics
return fmt.Errorf("smartctl not found: verify that smartctl is installed and it is in your PATH (or specified in config): %s", err.Error())
}
err = validatePath(m.PathNVMe)
if err != nil {
m.PathNVMe = ""
//without nvme, plugin will not be able to gather vendor specific attributes (but it can work without it)
m.Log.Warnf("nvme not found: verify that nvme is installed and it is in your PATH (or specified in config) to gather vendor specific attributes: %s", err.Error())
}
return nil
}
// Gather takes in an accumulator and adds the metrics that the SMART tools gather.
func (m *Smart) Gather(acc telegraf.Accumulator) error {
var err error
var scannedNVMeDevices []string
var scannedNonNVMeDevices []string
devicesFromConfig := m.Devices
isNVMe := len(m.PathNVMe) != 0
isVendorExtension := len(m.EnableExtensions) != 0
if len(m.Devices) != 0 {
m.getAttributes(acc, devicesFromConfig)
// if nvme-cli is present, vendor specific attributes can be gathered
if isVendorExtension && isNVMe {
scannedNVMeDevices, _, err = m.scanAllDevices(true)
if err != nil {
return err
}
NVMeDevices := distinguishNVMeDevices(devicesFromConfig, scannedNVMeDevices)
m.getVendorNVMeAttributes(acc, NVMeDevices)
}
return nil
}
scannedNVMeDevices, scannedNonNVMeDevices, err = m.scanAllDevices(false)
if err != nil {
return err
}
var devicesFromScan []string
devicesFromScan = append(devicesFromScan, scannedNVMeDevices...)
devicesFromScan = append(devicesFromScan, scannedNonNVMeDevices...)
m.getAttributes(acc, devicesFromScan)
if isVendorExtension && isNVMe {
m.getVendorNVMeAttributes(acc, scannedNVMeDevices)
}
return nil
}
func (m *Smart) scanAllDevices(ignoreExcludes bool) ([]string, []string, error) {
// this will return all devices (including NVMe devices) for smartctl version >= 7.0
// for older versions this will return non NVMe devices
devices, err := m.scanDevices(ignoreExcludes, "--scan")
if err != nil {
return nil, nil, err
}
// this will return only NVMe devices
NVMeDevices, err := m.scanDevices(ignoreExcludes, "--scan", "--device=nvme")
if err != nil {
return nil, nil, err
}
// to handle all versions of smartctl this will return only non NVMe devices
nonNVMeDevices := difference(devices, NVMeDevices)
return NVMeDevices, nonNVMeDevices, nil
}
func distinguishNVMeDevices(userDevices []string, availableNVMeDevices []string) []string {
var NVMeDevices []string
for _, userDevice := range userDevices {
for _, NVMeDevice := range availableNVMeDevices {
// double check. E.g. in case when nvme0 is equal nvme0n1, will check if "nvme0" part is present.
if strings.Contains(NVMeDevice, userDevice) || strings.Contains(userDevice, NVMeDevice) {
NVMeDevices = append(NVMeDevices, userDevice)
}
}
}
return NVMeDevices
}
// Scan for S.M.A.R.T. devices from smartctl
func (m *Smart) scanDevices(ignoreExcludes bool, scanArgs ...string) ([]string, error) {
out, err := runCmd(m.Timeout, m.UseSudo, m.PathSmartctl, scanArgs...)
if err != nil {
return []string{}, fmt.Errorf("failed to run command '%s %s': %s - %s", m.PathSmartctl, scanArgs, err, string(out))
}
var devices []string
for _, line := range strings.Split(string(out), "\n") {
dev := strings.Split(line, " ")
if len(dev) <= 1 {
continue
}
if !ignoreExcludes {
if !excludedDev(m.Excludes, strings.TrimSpace(dev[0])) {
devices = append(devices, strings.TrimSpace(dev[0]))
}
} else {
devices = append(devices, strings.TrimSpace(dev[0]))
}
}
return devices, nil
}
// Wrap with sudo
var runCmd = func(timeout internal.Duration, sudo bool, command string, args ...string) ([]byte, error) {
cmd := exec.Command(command, args...)
if sudo {
cmd = exec.Command("sudo", append([]string{"-n", command}, args...)...)
}
return internal.CombinedOutputTimeout(cmd, timeout.Duration)
}
func excludedDev(excludes []string, deviceLine string) bool {
device := strings.Split(deviceLine, " ")
if len(device) != 0 {
for _, exclude := range excludes {
if device[0] == exclude {
return true
}
}
}
return false
}
// Get info and attributes for each S.M.A.R.T. device
func (m *Smart) getAttributes(acc telegraf.Accumulator, devices []string) {
var wg sync.WaitGroup
wg.Add(len(devices))
for _, device := range devices {
go gatherDisk(acc, m.Timeout, m.UseSudo, m.Attributes, m.PathSmartctl, m.Nocheck, device, &wg)
}
wg.Wait()
}
func (m *Smart) getVendorNVMeAttributes(acc telegraf.Accumulator, devices []string) {
NVMeDevices := getDeviceInfoForNVMeDisks(acc, devices, m.PathNVMe, m.Timeout, m.UseSudo)
var wg sync.WaitGroup
for _, device := range NVMeDevices {
if contains(m.EnableExtensions, "auto-on") {
switch device.vendorID {
case intelVID:
wg.Add(1)
go gatherIntelNVMeDisk(acc, m.Timeout, m.UseSudo, m.PathNVMe, device, &wg)
}
} else if contains(m.EnableExtensions, "Intel") && device.vendorID == intelVID {
wg.Add(1)
go gatherIntelNVMeDisk(acc, m.Timeout, m.UseSudo, m.PathNVMe, device, &wg)
}
}
wg.Wait()
}
func getDeviceInfoForNVMeDisks(acc telegraf.Accumulator, devices []string, nvme string, timeout internal.Duration, useSudo bool) []nvmeDevice {
var NVMeDevices []nvmeDevice
for _, device := range devices {
vid, sn, mn, err := gatherNVMeDeviceInfo(nvme, device, timeout, useSudo)
if err != nil {
acc.AddError(fmt.Errorf("cannot find device info for %s device", device))
continue
}
newDevice := nvmeDevice{
name: device,
vendorID: vid,
model: mn,
serialNumber: sn,
}
NVMeDevices = append(NVMeDevices, newDevice)
}
return NVMeDevices
}
func gatherNVMeDeviceInfo(nvme, device string, timeout internal.Duration, useSudo bool) (string, string, string, error) {
args := []string{"id-ctrl"}
args = append(args, strings.Split(device, " ")...)
out, err := runCmd(timeout, useSudo, nvme, args...)
if err != nil {
return "", "", "", err
}
outStr := string(out)
vid, sn, mn, err := findNVMeDeviceInfo(outStr)
return vid, sn, mn, err
}
func findNVMeDeviceInfo(output string) (string, string, string, error) {
scanner := bufio.NewScanner(strings.NewReader(output))
var vid, sn, mn string
for scanner.Scan() {
line := scanner.Text()
if matches := nvmeIDCtrlExpressionPattern.FindStringSubmatch(line); len(matches) > 2 {
matches[1] = strings.TrimSpace(matches[1])
matches[2] = strings.TrimSpace(matches[2])
if matches[1] == "vid" {
if _, err := fmt.Sscanf(matches[2], "%s", &vid); err != nil {
return "", "", "", err
}
}
if matches[1] == "sn" {
sn = matches[2]
}
if matches[1] == "mn" {
mn = matches[2]
}
}
}
return vid, sn, mn, nil
}
func gatherIntelNVMeDisk(acc telegraf.Accumulator, timeout internal.Duration, usesudo bool, nvme string, device nvmeDevice, wg *sync.WaitGroup) {
defer wg.Done()
args := []string{"intel", "smart-log-add"}
args = append(args, strings.Split(device.name, " ")...)
out, e := runCmd(timeout, usesudo, nvme, args...)
outStr := string(out)
_, er := exitStatus(e)
if er != nil {
acc.AddError(fmt.Errorf("failed to run command '%s %s': %s - %s", nvme, strings.Join(args, " "), e, outStr))
return
}
scanner := bufio.NewScanner(strings.NewReader(outStr))
for scanner.Scan() {
line := scanner.Text()
tags := map[string]string{}
fields := make(map[string]interface{})
tags["device"] = path.Base(device.name)
tags["model"] = device.model
tags["serial_no"] = device.serialNumber
if matches := intelExpressionPattern.FindStringSubmatch(line); len(matches) > 3 {
matches[1] = strings.TrimSpace(matches[1])
matches[3] = strings.TrimSpace(matches[3])
if attr, ok := intelAttributes[matches[1]]; ok {
tags["name"] = attr.Name
if attr.ID != "" {
tags["id"] = attr.ID
}
parse := parseCommaSeparatedIntWithAccumulator
if attr.Parse != nil {
parse = attr.Parse
}
if err := parse(acc, fields, tags, matches[3]); err != nil {
continue
}
}
}
}
}
func gatherDisk(acc telegraf.Accumulator, timeout internal.Duration, usesudo, collectAttributes bool, smartctl, nocheck, device string, wg *sync.WaitGroup) {
defer wg.Done()
// smartctl 5.41 & 5.42 have are broken regarding handling of --nocheck/-n
args := []string{"--info", "--health", "--attributes", "--tolerance=verypermissive", "-n", nocheck, "--format=brief"}
args = append(args, strings.Split(device, " ")...)
out, e := runCmd(timeout, usesudo, smartctl, args...)
outStr := string(out)
// Ignore all exit statuses except if it is a command line parse error
exitStatus, er := exitStatus(e)
if er != nil {
acc.AddError(fmt.Errorf("failed to run command '%s %s': %s - %s", smartctl, strings.Join(args, " "), e, outStr))
return
}
deviceTags := map[string]string{}
deviceNode := strings.Split(device, " ")[0]
deviceTags["device"] = path.Base(deviceNode)
deviceFields := make(map[string]interface{})
deviceFields["exit_status"] = exitStatus
scanner := bufio.NewScanner(strings.NewReader(outStr))
for scanner.Scan() {
line := scanner.Text()
model := modelInfo.FindStringSubmatch(line)
if len(model) > 2 {
deviceTags["model"] = model[2]
}
serial := serialInfo.FindStringSubmatch(line)
if len(serial) > 1 {
deviceTags["serial_no"] = serial[1]
}
wwn := wwnInfo.FindStringSubmatch(line)
if len(wwn) > 1 {
deviceTags["wwn"] = strings.Replace(wwn[1], " ", "", -1)
}
capacity := userCapacityInfo.FindStringSubmatch(line)
if len(capacity) > 1 {
deviceTags["capacity"] = strings.Replace(capacity[1], ",", "", -1)
}
enabled := smartEnabledInfo.FindStringSubmatch(line)
if len(enabled) > 1 {
deviceTags["enabled"] = enabled[1]
}
health := smartOverallHealth.FindStringSubmatch(line)
if len(health) > 2 {
deviceFields["health_ok"] = health[2] == "PASSED" || health[2] == "OK"
}
tags := map[string]string{}
fields := make(map[string]interface{})
if collectAttributes {
keys := [...]string{"device", "model", "serial_no", "wwn", "capacity", "enabled"}
for _, key := range keys {
if value, ok := deviceTags[key]; ok {
tags[key] = value
}
}
}
attr := attribute.FindStringSubmatch(line)
if len(attr) > 1 {
// attribute has been found, add it only if collectAttributes is true
if collectAttributes {
tags["id"] = attr[1]
tags["name"] = attr[2]
tags["flags"] = attr[3]
fields["exit_status"] = exitStatus
if i, err := strconv.ParseInt(attr[4], 10, 64); err == nil {
fields["value"] = i
}
if i, err := strconv.ParseInt(attr[5], 10, 64); err == nil {
fields["worst"] = i
}
if i, err := strconv.ParseInt(attr[6], 10, 64); err == nil {
fields["threshold"] = i
}
tags["fail"] = attr[7]
if val, err := parseRawValue(attr[8]); err == nil {
fields["raw_value"] = val
}
acc.AddFields("smart_attribute", fields, tags)
}
// If the attribute matches on the one in deviceFieldIds
// save the raw value to a field.
if field, ok := deviceFieldIds[attr[1]]; ok {
if val, err := parseRawValue(attr[8]); err == nil {
deviceFields[field] = val
}
}
} else {
// what was found is not a vendor attribute
if matches := sasNvmeAttr.FindStringSubmatch(line); len(matches) > 2 {
if attr, ok := sasNvmeAttributes[matches[1]]; ok {
tags["name"] = attr.Name
if attr.ID != "" {
tags["id"] = attr.ID
}
parse := parseCommaSeparatedInt
if attr.Parse != nil {
parse = attr.Parse
}
if err := parse(fields, deviceFields, matches[2]); err != nil {
continue
}
// if the field is classified as an attribute, only add it
// if collectAttributes is true
if collectAttributes {
acc.AddFields("smart_attribute", fields, tags)
}
}
}
}
}
acc.AddFields("smart_device", deviceFields, deviceTags)
}
// Command line parse errors are denoted by the exit code having the 0 bit set.
// All other errors are drive/communication errors and should be ignored.
func exitStatus(err error) (int, error) {
if exiterr, ok := err.(*exec.ExitError); ok {
if status, ok := exiterr.Sys().(syscall.WaitStatus); ok {
return status.ExitStatus(), nil
}
}
return 0, err
}
func contains(args []string, element string) bool {
for _, arg := range args {
if arg == element {
return true
}
}
return false
}
func difference(a, b []string) []string {
mb := make(map[string]struct{}, len(b))
for _, x := range b {
mb[x] = struct{}{}
}
var diff []string
for _, x := range a {
if _, found := mb[x]; !found {
diff = append(diff, x)
}
}
return diff
}
func parseRawValue(rawVal string) (int64, error) {
// Integer
if i, err := strconv.ParseInt(rawVal, 10, 64); err == nil {
return i, nil
}
// Duration: 65h+33m+09.259s
unit := regexp.MustCompile("^(.*)([hms])$")
parts := strings.Split(rawVal, "+")
if len(parts) == 0 {
return 0, fmt.Errorf("couldn't parse RAW_VALUE '%s'", rawVal)
}
duration := int64(0)
for _, part := range parts {
timePart := unit.FindStringSubmatch(part)
if len(timePart) == 0 {
continue
}
switch timePart[2] {
case "h":
duration += parseInt(timePart[1]) * int64(3600)
case "m":
duration += parseInt(timePart[1]) * int64(60)
case "s":
// drop fractions of seconds
duration += parseInt(strings.Split(timePart[1], ".")[0])
default:
// Unknown, ignore
}
}
return duration, nil
}
func parseBytesWritten(acc telegraf.Accumulator, fields map[string]interface{}, tags map[string]string, str string) error {
var value int64
if _, err := fmt.Sscanf(str, "sectors: %d", &value); err != nil {
return err
}
fields["raw_value"] = value
acc.AddFields("smart_attribute", fields, tags)
return nil
}
func parseThermalThrottle(acc telegraf.Accumulator, fields map[string]interface{}, tags map[string]string, str string) error {
var percentage float64
var count int64
if _, err := fmt.Sscanf(str, "%f%%, cnt: %d", &percentage, &count); err != nil {
return err
}
fields["raw_value"] = percentage
tags["name"] = "Thermal_Throttle_Status_Prc"
acc.AddFields("smart_attribute", fields, tags)
fields["raw_value"] = count
tags["name"] = "Thermal_Throttle_Status_Cnt"
acc.AddFields("smart_attribute", fields, tags)
return nil
}
func parseWearLeveling(acc telegraf.Accumulator, fields map[string]interface{}, tags map[string]string, str string) error {
var min, max, avg int64
if _, err := fmt.Sscanf(str, "min: %d, max: %d, avg: %d", &min, &max, &avg); err != nil {
return err
}
values := []int64{min, max, avg}
for i, submetricName := range []string{"Min", "Max", "Avg"} {
fields["raw_value"] = values[i]
tags["name"] = fmt.Sprintf("Wear_Leveling_%s", submetricName)
acc.AddFields("smart_attribute", fields, tags)
}
return nil
}
func parseTimedWorkload(acc telegraf.Accumulator, fields map[string]interface{}, tags map[string]string, str string) error {
var value float64
if _, err := fmt.Sscanf(str, "%f", &value); err != nil {
return err
}
fields["raw_value"] = value
acc.AddFields("smart_attribute", fields, tags)
return nil
}
func parseInt(str string) int64 {
if i, err := strconv.ParseInt(str, 10, 64); err == nil {
return i
}
return 0
}
func parseCommaSeparatedInt(fields, _ map[string]interface{}, str string) error {
str = strings.Join(strings.Fields(str), "")
i, err := strconv.ParseInt(strings.Replace(str, ",", "", -1), 10, 64)
if err != nil {
return err
}
fields["raw_value"] = i
return nil
}
func parsePercentageInt(fields, deviceFields map[string]interface{}, str string) error {
return parseCommaSeparatedInt(fields, deviceFields, strings.TrimSuffix(str, "%"))
}
func parseDataUnits(fields, deviceFields map[string]interface{}, str string) error {
units := strings.Fields(str)[0]
return parseCommaSeparatedInt(fields, deviceFields, units)
}
func parseCommaSeparatedIntWithAccumulator(acc telegraf.Accumulator, fields map[string]interface{}, tags map[string]string, str string) error {
i, err := strconv.ParseInt(strings.Replace(str, ",", "", -1), 10, 64)
if err != nil {
return err
}
fields["raw_value"] = i
acc.AddFields("smart_attribute", fields, tags)
return nil
}
func parseTemperature(fields, deviceFields map[string]interface{}, str string) error {
var temp int64
if _, err := fmt.Sscanf(str, "%d C", &temp); err != nil {
return err
}
fields["raw_value"] = temp
deviceFields["temp_c"] = temp
return nil
}
func parseTemperatureSensor(fields, _ map[string]interface{}, str string) error {
var temp int64
if _, err := fmt.Sscanf(str, "%d C", &temp); err != nil {
return err
}
fields["raw_value"] = temp
return nil
}
func validatePath(path string) error {
pathInfo, err := os.Stat(path)
if os.IsNotExist(err) {
return fmt.Errorf("provided path does not exist: [%s]", path)
}
if mode := pathInfo.Mode(); !mode.IsRegular() {
return fmt.Errorf("provided path does not point to a regular file: [%s]", path)
}
return nil
}
func init() {
// Set LC_NUMERIC to uniform numeric output from cli tools
_ = os.Setenv("LC_NUMERIC", "en_US.UTF-8")
inputs.Add("smart", func() telegraf.Input {
m := newSmart()
m.Nocheck = "standby"
return m
})
}