func (_ *SystemStats) Gather(acc telegraf.Accumulator) error {
loadavg, err := load.LoadAvg()
if err != nil {
return err
}
hostinfo, err := host.HostInfo()
if err != nil {
return err
}
users, err := host.Users()
if err != nil {
return err
}
fields := map[string]interface{}{
"load1": loadavg.Load1,
"load5": loadavg.Load5,
"load15": loadavg.Load15,
"uptime": hostinfo.Uptime,
"n_users": len(users),
"uptime_format": format_uptime(hostinfo.Uptime),
"n_cpus": runtime.NumCPU(),
}
acc.AddFields("system", fields, nil)
return nil
}
func loadAvg(ns []string) (*plugin.PluginMetricType, error) {
load, err := load.LoadAvg()
if err != nil {
return nil, err
}
switch joinNamespace(ns) {
case "/intel/psutil/load/load1":
return &plugin.PluginMetricType{
Namespace_: ns,
Data_: load.Load1,
}, nil
case "/intel/psutil/load/load5":
return &plugin.PluginMetricType{
Namespace_: ns,
Data_: load.Load5,
}, nil
case "/intel/psutil/load/load15":
return &plugin.PluginMetricType{
Namespace_: ns,
Data_: load.Load15,
}, nil
}
return nil, fmt.Errorf("Unknown error processing %v", ns)
}
func loadAvg() string {
l, err := load.LoadAvg()
if err != nil {
log.Println(err)
}
return fmt.Sprintf("%5s %5s %5s", humanize.Ftoa(l.Load1), humanize.Ftoa(l.Load5), humanize.Ftoa(l.Load15))
}
func startNode(masterHost, name string) {
var sock mangos.Socket
var err error
var msg []byte
masterUrl := url.URL{Scheme: "tcp", Host: masterHost}
ip := getPrivateIP()
// Try to get new "respondent" socket
if sock, err = respondent.NewSocket(); err != nil {
utils.Die("Can't get new respondent socket: %s", err.Error())
}
defer sock.Close()
sock.AddTransport(tcp.NewTransport())
// Connect to master
if err = sock.Dial(masterUrl.String()); err != nil {
utils.Die("Can't dial on respondent socket: %s", err.Error())
}
// Wait for a survey request and send responses
for {
if msg, err = sock.Recv(); err != nil {
utils.Die("Cannot recv: %s", err.Error())
}
fmt.Printf("Client(%s): Received \"%s\" survey request\n", name, string(msg))
var loadAvg *load.LoadAvgStat
if loadAvg, err = load.LoadAvg(); err != nil {
utils.Die("Cannot get load average: %s", err.Error())
}
var cpuInfo []cpu.CPUInfoStat
if cpuInfo, err = cpu.CPUInfo(); err != nil {
utils.Die("Cannot get CPU info: %s", err.Error())
}
fmt.Printf("CPU INFO len: %d\n", len(cpuInfo))
// Get the normalized CPU load
avg := loadAvg.Load1
cores := int32(0)
for _, info := range cpuInfo {
fmt.Printf("Inner Cores: %d\n", info.Cores)
cores += info.Cores
}
fmt.Printf("Load avg: %f\n", avg)
fmt.Printf("Cores: %d\n", cores)
avg = avg / float64(cores)
fmt.Printf("Client(%s): Sending survey response\n", name)
if err = sock.Send([]byte(fmt.Sprintf("%s,%f", ip, avg))); err != nil {
utils.Die("Cannot send: %s", err.Error())
}
}
}
func Load_f() (*LoadAvgStat_j, error) {
load, _ := load.LoadAvg()
timestamp := time.Now().Unix()
// fmt.Println(mem)
ret := &LoadAvgStat_j{
Load1: load.Load1,
Load5: load.Load5,
Load15: load.Load15,
Timestamp: timestamp,
}
return ret, nil
}
// LoadAverage - returns load avg
func LoadAverage() LoadStruct {
cores, _ := cpu.CPUCounts(true)
load, _ := load.LoadAvg()
l := LoadStruct{
Minute: load.Load1,
FiveMinutes: load.Load5,
FifteenMinutes: load.Load15,
Cores: cores,
}
return l
}
func (_ *SystemStats) Gather(acc plugins.Accumulator) error {
loadavg, err := load.LoadAvg()
if err != nil {
return err
}
hostinfo, err := host.HostInfo()
if err != nil {
return err
}
acc.Add("load1", loadavg.Load1, nil)
acc.Add("load5", loadavg.Load5, nil)
acc.Add("load15", loadavg.Load15, nil)
acc.Add("uptime", hostinfo.Uptime, nil)
acc.Add("uptime_format", format_uptime(hostinfo.Uptime), nil)
return nil
}
func (_ *SystemStats) Gather(acc inputs.Accumulator) error {
loadavg, err := load.LoadAvg()
if err != nil {
return err
}
hostinfo, err := host.HostInfo()
if err != nil {
return err
}
fields := map[string]interface{}{
"load1": loadavg.Load1,
"load5": loadavg.Load5,
"load15": loadavg.Load15,
"uptime": hostinfo.Uptime,
"uptime_format": format_uptime(hostinfo.Uptime),
}
acc.AddFields("system", fields, nil)
return nil
}
func getStats() *hash {
var m, l *hash
if stat, err := mem.VirtualMemory(); err == nil {
m = &hash{
"total": bytesToKB(stat.Total),
"free": bytesToKB(stat.Free),
"buffers": bytesToKB(stat.Buffers),
"cached": bytesToKB(stat.Cached),
"free_total": bytesToKB(stat.Free + stat.Buffers + stat.Cached),
}
}
if stat, err := load.LoadAvg(); err == nil {
l = &hash{
"one": stat.Load1,
"five": stat.Load5,
"fifteen": stat.Load15,
}
}
return &hash{"mem": m, "load": l}
}
func main() {
header, _ := json.Marshal(Header{Version: 1})
fmt.Println(string(header))
fmt.Println("[")
go notifyd()
for {
if mode == "standard" {
line := make([]Block, 0)
// TIME block
t := time.Now()
const t_format = "2006-01-02 15:04:05"
time_block := Block{
Name: "time",
FullText: t.Format(t_format),
Color: GRAY,
}
// LOAD block
load, _ := load.LoadAvg()
load_block := Block{
Name: "load",
FullText: strconv.FormatFloat(load.Load1, 'f', 2, 64),
}
if load.Load1 > 2 {
load_block.Color = BAD
} else if load.Load1 > 1 {
load_block.Color = WARN
} else {
load_block.Color = OKAY
}
// NET block
net_blocks := make([]Block, 0)
interfaces, _ := net.NetInterfaces()
for _, iface := range interfaces {
if iface.Name == "lo" {
continue
}
text := iface.Addrs[0].Addr
net_blocks = append(net_blocks, Block{
Name: "iface",
FullText: text,
Instance: iface.Name,
Color: GRAY,
})
}
// HDD block
root_stat, _ := disk.DiskUsage("/")
home_stat, _ := disk.DiskUsage("/home")
data_stat, _ := disk.DiskUsage("/media/me/data")
root_block := Block{
Name: "hdd",
Instance: "root",
FullText: FormatGigabytes(root_stat.Free) + "GB",
}
if root_stat.Free > 5*1024*1024*1024 {
root_block.Color = OKAY
} else if root_stat.Free > 2.5*1024*1024*1024 {
root_block.Color = WARN
} else {
root_block.Color = BAD
}
home_block := Block{
Name: "hdd",
Instance: "root",
FullText: FormatGigabytes(home_stat.Free) + "GB",
}
if home_stat.Free > 20*1024*1024*1024 {
home_block.Color = OKAY
} else if home_stat.Free > 10*1024*1024*1024 {
home_block.Color = WARN
} else {
home_block.Color = BAD
}
data_block := Block{
Name: "hdd",
Instance: "data",
FullText: FormatGigabytes(data_stat.Free) + "GB",
}
if data_stat.Free > 30*1024*1024*1024 {
data_block.Color = OKAY
} else if data_stat.Free > 15*1024*1024*1024 {
data_block.Color = WARN
} else {
data_block.Color = BAD
}
/* // Headphones block
headphones := Block {
Name: "headphones",
FullText: "Headphones ",
}
if exec.Command("sh", "-c", "pacmd list-sinks | grep DR-BTN200").Run() == nil {
headphones.FullText += "connected";
headphones.Color = OKAY;
} else {
headphones.FullText += "disconnected";
headphones.Color = BAD;
} */
nowplaying := Block{
Name: "nowplaying",
}
nowplaying_text, _ := exec.Command("nowplaying").Output()
nowplaying.FullText = string(nowplaying_text)
line = append(line, nowplaying)
//line = append(line, headphones);
line = append(line, root_block)
line = append(line, home_block)
line = append(line, data_block)
/*for _, block := range net_blocks {
line = append(line, block)
}*/
line = append(line, load_block)
line = append(line, time_block)
PrintLine(line)
time.Sleep(time.Second * 1)
} else if mode == "animation" {
text := anim_text[0:anim_frame]
anim_frame++
PrintLine([]Block{Block{Name: "anim", FullText: text, Instance: strconv.Itoa(anim_frame)}})
if anim_frame > len(anim_text) {
mode = "standard"
anim_frame = 0
time.Sleep(time.Second * 3)
} else {
time.Sleep(time.Millisecond * time.Duration(math.Max(35, float64(40-len(anim_text)))))
}
}
}
}
func (st *Stat) stat(t string) string {
checkErr := func(err error) string {
return "系统酱正在食用作死药丸中..."
}
switch t {
case "free":
m, err := mem.VirtualMemory()
checkErr(err)
s, err := mem.SwapMemory()
checkErr(err)
mem := new(runtime.MemStats)
runtime.ReadMemStats(mem)
return fmt.Sprintf(
"全局:\n"+
"Total: %s Free: %s\nUsed: %s %s%%\nCache: %s\n"+
"Swap:\nTotal: %s Free: %s\n Used: %s %s%%\n"+
"群组娘:\n"+
"Allocated: %s\nTotal Allocated: %s\nSystem: %s\n",
helper.HumanByte(m.Total, m.Free, m.Used, m.UsedPercent, m.Cached,
s.Total, s.Free, s.Used, s.UsedPercent,
mem.Alloc, mem.TotalAlloc, mem.Sys)...,
)
case "df":
fs, err := disk.DiskPartitions(false)
checkErr(err)
var buf bytes.Buffer
for k := range fs {
du, err := disk.DiskUsage(fs[k].Mountpoint)
switch {
case err != nil, du.UsedPercent == 0, du.Free == 0:
continue
}
f := fmt.Sprintf("Mountpoint: %s Type: %s \n"+
"Total: %s Free: %s \nUsed: %s %s%%\n",
helper.HumanByte(fs[k].Mountpoint, fs[k].Fstype,
du.Total, du.Free, du.Used, du.UsedPercent)...,
)
buf.WriteString(f)
}
return buf.String()
case "os":
h, err := host.HostInfo()
checkErr(err)
uptime := time.Duration(time.Now().Unix()-int64(h.Uptime)) * time.Second
l, err := load.LoadAvg()
checkErr(err)
c, err := cpu.CPUPercent(time.Second*3, false)
checkErr(err)
return fmt.Sprintf(
"OSRelease: %s\nHostName: %s\nUptime: %s\nLoadAvg: %.2f %.2f %.2f\n"+
"Goroutine: %d\nCPU: %.2f%%",
h.Platform, h.Hostname, uptime.String(), l.Load1, l.Load5, l.Load15,
runtime.NumGoroutine(), c[0],
)
case "redis":
info := conf.Redis.Info().Val()
if info != "" {
infos := strings.Split(info, "\r\n")
infoMap := make(map[string]string)
for k := range infos {
line := strings.Split(infos[k], ":")
if len(line) > 1 {
infoMap[line[0]] = line[1]
}
}
DBSize := conf.Redis.DbSize().Val()
return fmt.Sprintf("Redis Version: %s\nOS: %s\nUsed Memory: %s\n"+
"Used Memory Peak: %s\nDB Size: %d\n",
infoMap["redis_version"], infoMap["os"], infoMap["used_memory_human"],
infoMap["used_memory_peak_human"], DBSize)
}
return ""
default:
return "欢迎来到未知领域(ゝ∀・)"
}
}
func main() {
httpPort := os.Getenv("PORT")
if len(httpPort) == 0 {
httpPort = "8080"
}
r := gin.Default()
// Limit all requests to 10 per second
//limitHandler := tollbooth_gin.LimitHandler(tollbooth.NewLimiter(600, 60*time.Second))
limitHandler := func(c *gin.Context) {
c.Next()
}
persistEvents()
r.Use(staticHandler)
r.Use(corsHandler)
r.Use(func(c *gin.Context) {
start := time.Now()
c.Next()
end := time.Now()
latency := end.Sub(start)
mutex.Lock()
if _, ok := db["incr:request"]; !ok {
db["incr:request"] = incr.NewEvent()
}
db["incr:request"].Add(incr.Time(time.Now().Unix()), incr.Value(latency), "")
mutex.Unlock()
})
go func() {
for _ = range time.Tick(time.Second) {
mutex.Lock()
if _, ok := db["incr:goalloc"]; !ok {
db["incr:goalloc"] = incr.NewEvent()
db["incr:memused"] = incr.NewEvent()
db["incr:load:1"] = incr.NewEvent()
db["incr:load:5"] = incr.NewEvent()
db["incr:load:15"] = incr.NewEvent()
}
now := incr.Time(time.Now().Unix())
var memstats runtime.MemStats
runtime.ReadMemStats(&memstats)
db["incr:goalloc"].Add(now, incr.Value(memstats.Alloc), "")
if vmem, err := mem.VirtualMemory(); err == nil {
db["incr:memused"].Add(now, incr.Value(vmem.Used), "")
}
if load, err := load.LoadAvg(); err == nil {
db["incr:load:1"].Add(now, incr.Value(load.Load1), "")
db["incr:load:5"].Add(now, incr.Value(load.Load5), "")
db["incr:load:15"].Add(now, incr.Value(load.Load15), "")
}
mutex.Unlock()
}
}()
r.Any("/:name/:value", limitHandler, func(c *gin.Context) {
name := c.Params.ByName("name")
value, _ := strconv.ParseFloat(c.Params.ByName("value"), 64)
sender := ""
if c, err := c.Request.Cookie("sender"); err == nil {
sender = c.Value
}
mutex.Lock()
defer mutex.Unlock()
if _, ok := db[name]; !ok {
// TODO: Limit requests to 10 per day
db[name] = incr.NewEvent()
}
if date := c.Request.Header.Get("Date"); date != "" {
if d, err := time.Parse(http.TimeFormat, date); err == nil {
if diff := d.Sub(time.Now()); math.Abs(diff.Hours()) < 24 {
db[name].Add(incr.Time(d.Unix()), incr.Value(value), sender)
return
}
}
}
db[name].Add(incr.Time(time.Now().Unix()), incr.Value(value), sender)
if c.Request.Method == "GET" {
c.Data(200, "image/gif", minimalGIF)
}
})
r.GET("/:name", limitHandler, func(c *gin.Context) {
mutex.RLock()
defer mutex.RUnlock()
e, ok := db[c.Params.ByName("name")]
if !ok {
e = incr.NewEvent()
}
if c.Request.URL.Query().Get("live") != "" {
c.JSON(200, e.Data(incr.LiveDuration))
} else if c.Request.URL.Query().Get("hourly") != "" {
c.JSON(200, e.Data(incr.HourlyDuration))
} else if c.Request.URL.Query().Get("daily") != "" {
c.JSON(200, e.Data(incr.DailyDuration))
} else if c.Request.URL.Query().Get("weekly") != "" {
c.JSON(200, e.Data(incr.WeeklyDuration))
} else {
c.JSON(200, e.Data(0))
}
})
r.Run(":" + httpPort)
}
func (o *LoadMetric) Value() (float64, error) {
l, e := load.LoadAvg()
return l.Load1, e
}
func main() {
c := config{
URL: "http://localhost:8086",
Database: "test",
Interval: 5 * time.Minute,
}
opts.New(&c).Name("sysflux").Version(VERSION).Parse()
//validate config
u, err := url.Parse(c.URL)
if err != nil {
log.Fatal("Invalid URL")
}
host, port, err := net.SplitHostPort(u.Host)
if err != nil {
log.Fatal("Invalid host and port")
}
if u.Path == "" {
u.Path = "/write"
}
v := url.Values{}
v.Set("db", c.Database)
u.RawQuery = v.Encode()
tags := ""
if c.Tags != "" {
tags = "," + c.Tags
}
//good to go
log.Printf("Using InfluxDB endpoint: %s", u)
success := false
lock := sync.Mutex{}
entries := []string{}
send := func() error {
body := strings.NewReader(strings.Join(entries, "\n"))
if c.DNS != "" {
//lookup host every POST
ips, err := lookup(host, c.DNS)
if err != nil {
return fmt.Errorf("Lookup failed: %s", err)
}
u.Host = ips[0] + ":" + port
}
resp, err := http.Post(u.String(), "application/x-www-form-urlencoded", body)
if err != nil {
return fmt.Errorf("HTTP POST failed: %s", err)
}
defer resp.Body.Close()
if resp.StatusCode != http.StatusNoContent {
msg, err := ioutil.ReadAll(resp.Body)
if err != nil {
return fmt.Errorf("Response download failed: %s", err)
}
return fmt.Errorf("Response: %d => %s", resp.StatusCode, msg)
}
//show first success
if !success {
log.Printf("Success")
success = true
}
//clear once recieved!
entries = nil
return nil
}
report := func() {
t := time.Now().UnixNano()
if l, err := load.LoadAvg(); err == nil {
entries = append(entries, fmt.Sprintf("cpu_load_short%s value=%f %d", tags, l.Load1*100, t))
entries = append(entries, fmt.Sprintf("cpu_load_medium%s value=%f %d", tags, l.Load5*100, t))
entries = append(entries, fmt.Sprintf("cpu_load_long%s value=%f %d", tags, l.Load15*100, t))
}
if v, err := mem.VirtualMemory(); err == nil {
entries = append(entries, fmt.Sprintf("mem_usage%s value=%f %d", tags, v.UsedPercent, t))
}
if len(entries) > MAX_QUEUED {
entries = entries[len(entries)-MAX_QUEUED:]
}
}
//send loop
go func() {
b := backoff.Backoff{}
for {
wait := time.Second
lock.Lock()
if len(entries) > 0 {
if err := send(); err == nil {
b.Reset()
} else {
log.Println(err)
wait = b.Duration()
}
}
lock.Unlock()
time.Sleep(wait)
}
}()
//report loop
for {
lock.Lock()
report()
lock.Unlock()
time.Sleep(c.Interval)
}
}
)
var root = hateoas.NewResource(
hateoas.Path("/"),
hateoas.AddLink("cpus", cpuRsc),
hateoas.AddLink("load", loadRsc),
hateoas.AddLink("processes", procRsc),
hateoas.HEAD(mohttp.EmptyBodyHandler),
)
var cpuRsc = hateoas.NewResource(
hateoas.Path("/cpus"),
hateoas.GET(mohttp.DataHandlerFunc(func(c context.Context) (interface{}, error) {
return cpu.CPUInfo()
})),
)
var loadRsc = hateoas.NewResource(
hateoas.Path("/load"),
hateoas.GET(mohttp.DataHandlerFunc(func(c context.Context) (interface{}, error) {
return load.LoadAvg()
})),
)
var procRsc = hateoas.NewResource(
hateoas.Path("/processes"),
hateoas.GET(mohttp.DataHandlerFunc(func(c context.Context) (interface{}, error) {
return process.Pids()
})),
)
func main() {
flag.Usage = func() {
fmt.Println(usage)
}
flag.Parse()
for {
// Docker client remote API
endpoint := "unix:///var/run/docker.sock"
dockerClient, _ := docker.NewClient(endpoint)
// Configuration file settings using key-value
viper.SetConfigName("plural")
if *configFlag != "" {
viper.AddConfigPath(*configFlag)
} else {
viper.AddConfigPath("/opt/plural/conf")
}
viperReadConfig := viper.ReadInConfig()
// Default settings if no config file is supplied
viper.SetDefault("elastic_host", "localhost")
viper.SetDefault("elastic_port", "9200")
viper.SetDefault("environment", "dev")
viper.SetDefault("interval", "300")
viper.SetDefault("username", "undef")
viper.SetDefault("password", "undef")
viper.SetDefault("overwrite", "undef")
elastic_host := viper.GetString("elastic_host")
elastic_port := viper.GetString("elastic_port")
environment := viper.GetString("environment")
interval := viper.GetInt("interval")
username := viper.GetString("username")
password := viper.GetString("password")
overwrite := viper.GetString("overwrite")
transport := http.Transport{
Dial: dialTimeout,
}
client := http.Client{
Transport: &transport,
}
cpuCounts, _ := cpu.CPUCounts(true)
v, _ := mem.VirtualMemory()
k, _ := disk.DiskUsage("/")
h, _ := host.HostInfo()
l, _ := load.LoadAvg()
memusedprctConv := strconv.FormatFloat(v.UsedPercent, 'f', 6, 64)
memusedprct := strings.Split(memusedprctConv, ".")[0]
memfree := humanize.Bytes(v.Free)
memtotal := humanize.Bytes(v.Total)
diskusedprctConv := strconv.FormatFloat(k.UsedPercent, 'f', 6, 64)
diskusedprct := strings.Split(diskusedprctConv, ".")[0]
diskfree := humanize.Bytes(k.Free)
disktotal := humanize.Bytes(k.Total)
timeN := time.Now()
dateStamp := fmt.Sprintf("%d-%02d-%02dT%02d:%02d:%02d", timeN.Year(), timeN.Month(), timeN.Day(), timeN.Hour(), timeN.Minute(), timeN.Second())
loadoneConv := strconv.FormatFloat(l.Load1, 'f', 6, 64)
loadone := strings.Split(loadoneConv, ".")[0]
loadfifteenConv := strconv.FormatFloat(l.Load15, 'f', 6, 64)
loadfifteen := strings.Split(loadfifteenConv, ".")[0]
loadfiveConv := strconv.FormatFloat(l.Load5, 'f', 6, 64)
loadfive := strings.Split(loadfiveConv, ".")[0]
ipaddress, err := networkip.ExternalIP()
if err != nil {
fmt.Println(err.Error())
}
// UNIX system commands
dnsfile := exec.Command("ls", "/etc/resolv.conf")
dnsfileout, err := dnsfile.Output()
dnsgrep := exec.Command("grep", "nameserver", "/etc/resolv.conf")
dnsawk := exec.Command("awk", "{print$2}")
dnsgrepOut, err := dnsgrep.StdoutPipe()
dnsgrep.Start()
dnsawk.Stdin = dnsgrepOut
dnsOut, err := dnsawk.Output()
dnsstring := string(dnsOut)
dnsoutputSlice := strings.Split(dnsstring, "\n")
dnsjs, _ := json.Marshal(dnsoutputSlice)
wbin := exec.Command("ls", "/usr/bin/w")
wbinout, err := wbin.Output()
wh := exec.Command("w", "-h")
whawk := exec.Command("awk", "{print$1\"-\"$2}")
whOut, err := wh.StdoutPipe()
wh.Start()
whawk.Stdin = whOut
wOut, err := whawk.Output()
whstring := string(wOut)
whoutputSlice := strings.Split(whstring, "\n")
whjs, _ := json.Marshal(whoutputSlice)
passfile := exec.Command("ls", "/etc/passwd")
passfileout, err := passfile.Output()
passgrep := exec.Command("grep", "-v", "^#", "/etc/passwd")
passgrepOut, err := passgrep.Output()
passstring := string(passgrepOut)
passoutputSlice := strings.Split(passstring, "\n")
passjs, _ := json.Marshal(passoutputSlice)
auditctlbin := exec.Command("ls", "/sbin/auditctl")
auditctlbinout, err := auditctlbin.Output()
auditctl := exec.Command("auditctl", "-l")
auditctlOut, err := auditctl.Output()
auditctlstring := string(auditctlOut)
auditctloutputSlice := strings.Split(auditctlstring, "\n")
auditctljs, _ := json.Marshal(auditctloutputSlice)
rpmbin := exec.Command("ls", "/bin/rpm")
rpmbinout, err := rpmbin.Output()
rpmqa := exec.Command("rpm", "-qa")
rpmsort := exec.Command("sort")
rpmqaOut, err := rpmqa.StdoutPipe()
rpmqa.Start()
rpmsort.Stdin = rpmqaOut
rpmOut, err := rpmsort.Output()
rpmstring := string(rpmOut)
rpmoutputSlice := strings.Split(rpmstring, "\n")
rpmjs, _ := json.Marshal(rpmoutputSlice)
dpkgbin := exec.Command("ls", "/usr/bin/dpkg")
dpkgbinout, err := dpkgbin.Output()
dpkg := exec.Command("dpkg", "-l")
dpkgawk := exec.Command("awk", "/^[a-z]/{print$2\"-\"$3}")
dpkglOut, err := dpkg.StdoutPipe()
dpkg.Start()
dpkgawk.Stdin = dpkglOut
dpkgOut, err := dpkgawk.Output()
dpkgstring := string(dpkgOut)
dpkgoutputSlice := strings.Split(dpkgstring, "\n")
dpkgjs, _ := json.Marshal(dpkgoutputSlice)
iptablesbin := exec.Command("ls", "/sbin/iptables")
iptablesbinout, err := iptablesbin.Output()
iptablesl := exec.Command("iptables", "-L")
iptablesgrep := exec.Command("grep", "-v", "^Chain\\|target\\|^$")
iptableslOut, err := iptablesl.StdoutPipe()
iptablesl.Start()
iptablesgrep.Stdin = iptableslOut
iptablesOut, err := iptablesgrep.Output()
iptablesstring := string(iptablesOut)
iptablesoutputSlice := strings.Split(iptablesstring, "\n")
iptablesjs, _ := json.Marshal(iptablesoutputSlice)
dockerbin := exec.Command("which", "docker")
dockerbinout, err := dockerbin.Output()
pipbin := exec.Command("which", "pip")
pipbinout, err := pipbin.Output()
pipfree := exec.Command("pip", "freeze")
pipsort := exec.Command("sort")
pipfreeOut, err := pipfree.StdoutPipe()
pipfree.Start()
pipsort.Stdin = pipfreeOut
pipOut, err := pipsort.Output()
pipstring := string(pipOut)
pipreplace := strings.Replace(pipstring, "==", "-", -1)
pipoutSlice := strings.Split(pipreplace, "\n")
pipjs, _ := json.Marshal(pipoutSlice)
gembin := exec.Command("which", "gem")
gembinout, err := gembin.Output()
gemlist := exec.Command("gem", "list")
gemgrep := exec.Command("grep", "^[a-zA-Z]")
gemlistOut, err := gemlist.StdoutPipe()
gemlist.Start()
gemgrep.Stdin = gemlistOut
gemOut, err := gemgrep.Output()
gemstring := string(gemOut)
gemreplace := strings.Replace(gemstring, " (", "-", -1)
gemreplace2 := strings.Replace(gemreplace, ")", "", -1)
gemoutSlice := strings.Split(gemreplace2, "\n")
gemjs, _ := json.Marshal(gemoutSlice)
iproutebin := exec.Command("ls", "/sbin/ip")
iproutebinout, err := iproutebin.Output()
iproute := exec.Command("ip", "route")
iprouteOut, err := iproute.Output()
iproutestring := string(iprouteOut)
iprouteoutputSlice := strings.Split(iproutestring, "\n")
iproutejs, _ := json.Marshal(iprouteoutputSlice)
kernelver := exec.Command("uname", "-r")
kernelverout, err := kernelver.Output()
kernelverstring := string(kernelverout)
timezone := exec.Command("date", "+%Z")
timezoneout, err := timezone.Output()
timezonestring := string(timezoneout)
hostname := exec.Command("hostname", "-f")
hostcut := exec.Command("cut", "-d.", "-f", "2-")
hostnameOut, err := hostname.StdoutPipe()
hostname.Start()
hostcut.Stdin = hostnameOut
domainname, err := hostcut.Output()
domainstring := string(domainname)
if err != nil {
fmt.Println(err.Error())
}
// ElasticSearch endpoint
elastic_url := "http://" + elastic_host + ":" + elastic_port + "/" + environment + "/" + h.Hostname
// JSON file name
if *outputFlag != "" {
if string(*outputFlag)[:len(string(*outputFlag))-1] != "/" {
*outputFlag += "/"
}
}
filename := *outputFlag + h.Hostname + ".json"
// Create JSON file
f, err := os.Create(filename)
if err != nil {
fmt.Println(err.Error())
return
}
n, err := io.WriteString(f, "{")
if err != nil {
fmt.Println(n, err)
return
}
if string(auditctlbinout) != "" {
audit_rules := `
"audit_rules": %s,`
auditctlLine := fmt.Sprintf(audit_rules, string(auditctljs))
auditctlReplace := strings.Replace(auditctlLine, ",\"\"]", "]", -1)
writeAuditctl, err := io.WriteString(f, auditctlReplace)
if err != nil {
fmt.Println(writeAuditctl, err)
return
}
}
top := `
"cpu_count": "%v",
"diskfree": "%v",
"disktotal": "%v",
"diskused": "%v",`
topLine := fmt.Sprintf(top, cpuCounts, diskfree, disktotal, diskusedprct)
writeTop, err := io.WriteString(f, topLine)
if err != nil {
fmt.Println(writeTop, err)
return
}
if string(dnsfileout) != "" {
dns_nameserver := `
"dns_nameserver": %s,`
dnsLine := fmt.Sprintf(dns_nameserver, string(dnsjs))
dnsReplace := strings.Replace(dnsLine, ",\"\"]", "]", -1)
writeDns, err := io.WriteString(f, dnsReplace)
if err != nil {
fmt.Println(writeDns, err)
return
}
}
if string(dockerbinout) != "" {
dockerRaw := `
"docker": %s,`
containers, _ := dockerClient.ListContainers(docker.ListContainersOptions{All: false})
dockerString := `[`
for _, container := range containers {
portsRaw := `%v`
portsString := fmt.Sprintf(portsRaw, container.Ports)
portsReplace := strings.Replace(portsString, "{", "", -1)
portsReplace2 := strings.Replace(portsReplace, "}", "", -1)
portsReplace3 := strings.Replace(portsReplace2, "[", "'", -1)
portsReplace4 := strings.Replace(portsReplace3, "]", "'", -1)
containerString := `"%v, %v, %v",`
dockerString += fmt.Sprintf(containerString, container.Image, container.Command, portsReplace4)
}
dockerString += `""]`
dockerLine := fmt.Sprintf(dockerRaw, dockerString)
dockerReplace := strings.Replace(dockerLine, ",\"\"]", "]", -1)
writeDocker, err := io.WriteString(f, dockerReplace)
if err != nil {
fmt.Println(writeDocker, err)
return
}
}
domain := `
"domain": "%s",`
domainLine := fmt.Sprintf(domain, strings.TrimSpace(domainstring))
writeDomain, err := io.WriteString(f, domainLine)
if err != nil {
fmt.Println(writeDomain, err)
return
}
// Local AWS meta-data
awsResponse, err := client.Get("http://169.254.169.254/latest/")
if awsResponse != nil && awsResponse.Status == string("200 OK") {
amiid, err := http.Get("http://169.254.169.254/latest/meta-data/ami-id")
defer amiid.Body.Close()
amiidOut, err := ioutil.ReadAll(amiid.Body)
instanceid, err := http.Get("http://169.254.169.254/latest/meta-data/instance-id")
defer instanceid.Body.Close()
instanceidOut, err := ioutil.ReadAll(instanceid.Body)
instancetype, err := http.Get("http://169.254.169.254/latest/meta-data/instance-type")
defer instancetype.Body.Close()
instancetypeOut, err := ioutil.ReadAll(instancetype.Body)
availabilityzone, err := http.Get("http://169.254.169.254/latest/meta-data/placement/availability-zone")
defer availabilityzone.Body.Close()
availabilityzoneOut, err := ioutil.ReadAll(availabilityzone.Body)
securitygroups, err := http.Get("http://169.254.169.254/latest/meta-data/security-groups")
defer securitygroups.Body.Close()
securitygroupsOut, err := ioutil.ReadAll(securitygroups.Body)
profile, err := http.Get("http://169.254.169.254/latest/meta-data/profile")
defer profile.Body.Close()
profileOut, err := ioutil.ReadAll(profile.Body)
publicip, err := http.Get("http://169.254.169.254/latest/meta-data/public-ipv4")
defer publicip.Body.Close()
publicipOut, err := ioutil.ReadAll(publicip.Body)
if err != nil {
fmt.Println(err.Error())
return
}
aws := `
"ec2_ami_id": "%s",
"ec2_availability_zone": "%s",
"ec2_instance_id": "%s",
"ec2_instance_type": "%s",
"ec2_profile": "%s",
"ec2_public_ip4": "%s",
"ec2_security_groups": "%s",`
awsLine := fmt.Sprintf(aws, amiidOut, availabilityzoneOut, instanceidOut, instancetypeOut, profileOut, publicipOut, securitygroupsOut)
writeAWS, err := io.WriteString(f, awsLine)
if err != nil {
fmt.Println(writeAWS, err)
return
}
}
environmentOut := `
"environment": "%s",`
envLine := fmt.Sprintf(environmentOut, environment)
writeEnv, err := io.WriteString(f, envLine)
if err != nil {
fmt.Println(writeEnv, err)
return
}
if string(gembinout) != "" {
gem := `
"gem": %s,`
gemLine := fmt.Sprintf(gem, string(gemjs))
gemReplace := strings.Replace(gemLine, ",\"\"]", "]", -1)
writeGem, err := io.WriteString(f, gemReplace)
if err != nil {
fmt.Println(writeGem, err)
return
}
}
if string(iptablesbinout) != "" {
iptables := `
"iptables": %s,`
iptablesLine := fmt.Sprintf(iptables, string(iptablesjs))
iptablesReplace := strings.Replace(iptablesLine, ",\"\"]", "]", -1)
writeIptables, err := io.WriteString(f, iptablesReplace)
if err != nil {
fmt.Println(writeIptables, err)
return
}
}
if string(iproutebinout) != "" {
ip_route := `
"ip_route": %s,`
iprouteLine := fmt.Sprintf(ip_route, string(iproutejs))
iprouteReplace := strings.Replace(iprouteLine, ",\"\"]", "]", -1)
writeIproute, err := io.WriteString(f, iprouteReplace)
if err != nil {
fmt.Println(writeIproute, err)
return
}
}
bottom := `
"hostname": "%s",
"ipaddress": "%s",
"kernelversion": "%s",
"lastrun": "%s",
"load15": "%v",
"load1": "%v",
"load5": "%v",
"memoryfree": "%v",
"memorytotal": "%v",
"memoryused": "%v",
"os": "%v",`
bottomLine := fmt.Sprintf(bottom, h.Hostname, ipaddress, strings.TrimSpace(kernelverstring), dateStamp, loadfifteen, loadone, loadfive, memfree, memtotal, memusedprct, h.OS)
writeBottom, err := io.WriteString(f, bottomLine)
if err != nil {
fmt.Println(writeBottom, err)
return
}
if string(rpmbinout) != "" {
packages := `
"packages": %s,`
rpmLine := fmt.Sprintf(packages, string(rpmjs))
rpmReplace := strings.Replace(rpmLine, ",\"\"]", "]", -1)
writeRpm, err := io.WriteString(f, rpmReplace)
if err != nil {
fmt.Println(writeRpm, err)
return
}
}
if string(dpkgbinout) != "" {
packages := `
"packages": %s,`
dpkgLine := fmt.Sprintf(packages, string(dpkgjs))
writeDpkg, err := io.WriteString(f, dpkgLine)
if err != nil {
fmt.Println(writeDpkg, err)
return
}
}
if string(pipbinout) != "" {
pip := `
"pip": %s,`
pipLine := fmt.Sprintf(pip, string(pipjs))
pipReplace := strings.Replace(pipLine, ",\"\"]", "]", -1)
writePip, err := io.WriteString(f, pipReplace)
if err != nil {
fmt.Println(writePip, err)
return
}
}
gonetstat4 := GOnetstat.Tcp()
tcp4String := `[`
for _, nettcp := range gonetstat4 {
if nettcp.State == "LISTEN" {
ip_port := fmt.Sprintf("%v:%v", nettcp.Ip, nettcp.Port)
pid_program := fmt.Sprintf("%v", nettcp.Exe)
ippidString := `"%v %v",`
tcp4String += fmt.Sprintf(ippidString, ip_port, pid_program)
}
}
tcp4String += `""]`
tcp4Replace := strings.Replace(tcp4String, ",\"\"]", "]", -1)
gonetstat6 := GOnetstat.Tcp6()
tcp6String := `[`
for _, nettcp := range gonetstat6 {
if nettcp.State == "LISTEN" {
ip_port := fmt.Sprintf("%v:%v", nettcp.Ip, nettcp.Port)
pid_program := fmt.Sprintf("%v", nettcp.Exe)
ippidString := `"%v %v",`
tcp6String += fmt.Sprintf(ippidString, ip_port, pid_program)
}
}
tcp6String += `""]`
tcp6Replace := strings.Replace(tcp6String, ",\"\"]", "]", -1)
beforeLast := `
"platform": "%v",
"platformfamily": "%v",
"platformverison": "%v",
"tcp4_listen": %v,
"tcp6_listen": %v,`
beforeLastLine := fmt.Sprintf(beforeLast, h.Platform, h.PlatformFamily, h.PlatformVersion, tcp4Replace, tcp6Replace)
writeBeforeLast, err := io.WriteString(f, beforeLastLine)
if err != nil {
fmt.Println(writeBeforeLast, err)
return
}
timezoneLast := `
"timezone": "%s",
"uptime": "%v",`
timezoneLastLine := fmt.Sprintf(timezoneLast, strings.TrimSpace(timezonestring), time.Duration(h.Uptime)*time.Second)
writeTimezoneLast, err := io.WriteString(f, timezoneLastLine)
if err != nil {
fmt.Println(writeTimezoneLast, err)
return
}
if string(passfileout) != "" {
users := `
"users": %s,`
usersLine := fmt.Sprintf(users, string(passjs))
usersReplace := strings.Replace(usersLine, ",\"\"]", "]", -1)
writeUsers, err := io.WriteString(f, usersReplace)
if err != nil {
fmt.Println(writeUsers, err)
return
}
}
if string(wbinout) != "" {
users_loggedin := `
"users_loggedin": %s,`
whLine := fmt.Sprintf(users_loggedin, string(whjs))
whReplace := strings.Replace(whLine, ",\"\"]", "]", -1)
writeWh, err := io.WriteString(f, whReplace)
if err != nil {
fmt.Println(writeWh, err)
return
}
}
last := `
"virtualizationrole": "%v",
"virtualizationsystem": "%v"
}`
lastLine := fmt.Sprintf(last, h.VirtualizationRole, h.VirtualizationSystem)
writeLast, err := io.WriteString(f, lastLine)
if err != nil {
fmt.Println(writeLast, err)
return
}
f.Close()
// Generate SHA256 SUM of JSON file
const filechunk = 8192
file, err := os.Open(filename)
if err != nil {
fmt.Println(err.Error())
return
}
defer file.Close()
info, _ := file.Stat()
filesize := info.Size()
blocks := uint64(math.Ceil(float64(filesize) / float64(filechunk)))
hash := sha256.New()
for i := uint64(0); i < blocks; i++ {
blocksize := int(math.Min(filechunk, float64(filesize-int64(i*filechunk))))
buf := make([]byte, blocksize)
file.Read(buf)
io.WriteString(hash, string(buf))
}
if viperReadConfig != nil {
fmt.Println(dateStamp, h.Hostname, "INFO no config file used, using default configuration")
}
fmt.Printf("%s %s INFO %s SHA256 checksum is %x\n", dateStamp, h.Hostname, file.Name(), hash.Sum(nil))
// Check to see if ElasticSearch server is up
elasticResponse, err := client.Get(elastic_url)
if elasticResponse != nil {
jsonStr, err := ioutil.ReadFile(filename)
if err != nil {
fmt.Println(err.Error())
return
}
fmt.Println(dateStamp, h.Hostname, "INFO elasticsearch endpoint:", elastic_url)
if overwrite == "enable" {
reqDelete, err := http.NewRequest("DELETE", elastic_url, nil)
if username != "undef" {
reqDelete.SetBasicAuth(username, password)
}
respDelete, err := http.DefaultClient.Do(reqDelete)
fmt.Println(dateStamp, h.Hostname, "DELETE elasticsearch type status:", respDelete.Status)
if err != nil {
fmt.Println(err.Error())
}
}
reqPost, err := http.NewRequest("POST", elastic_url, bytes.NewBuffer(jsonStr))
if password != "undef" {
reqPost.SetBasicAuth(username, password)
}
reqPost.Header.Set("Content-Type", "application/json")
clientReq := &http.Client{}
respPost, err := clientReq.Do(reqPost)
if err != nil {
fmt.Println(err.Error())
}
defer respPost.Body.Close()
fmt.Println(dateStamp, h.Hostname, "POST json elasticsearch type status:", respPost.Status)
postBody, _ := ioutil.ReadAll(respPost.Body)
fmt.Println(dateStamp, h.Hostname, "POST response body:", string(postBody))
} else {
fmt.Println(dateStamp, h.Hostname, "FAIL unable to connect to elasticeearch server:", "http://"+elastic_host+":"+elastic_port)
}
if !*daemonFlag {
break
}
// Sleep / interval time for daemon
time.Sleep(time.Duration(interval) * time.Second)
}
}
func cpuAvgInfo() (int, int) {
avg, _ := load.LoadAvg()
return int(avg.Load1 * 100), int(avg.Load5 * 100)
}