package main
import (
"fmt"
"log"
"net/http"
"os"
"sort"
"strconv"
"strings"
"time"
"context"
"io"
"sync"
"bufio"
"github.com/gdamore/tcell/v2"
"github.com/pelletier/go-toml"
"github.com/prometheus/common/expfmt"
"github.com/rivo/tview"
"github.com/shirou/gopsutil/v3/cpu"
"github.com/shirou/gopsutil/v3/mem"
"github.com/shirou/gopsutil/v3/process"
)
var (
prometheusURL string
configFilePath string // Pfad der gefundenen Konfiguration
logFilePath string // Pfad der Logdatei aus der Konfiguration
metricsEnabled bool // Neue Variable für die Aktivierung von Metriken
bindIP string // Neue Variable für die gebundene IP-Adresse
)
func init() {
configPaths := []string{
"/etc/hmac-file-server/config.toml",
"../config.toml",
"./config.toml",
}
var config *toml.Tree
var err error
// Lade die config.toml aus den definierten Pfaden
for _, path := range configPaths {
config, err = toml.LoadFile(path)
if err == nil {
configFilePath = path
log.Printf("Using config file: %s", configFilePath)
break
}
}
if err != nil {
log.Fatalf("Error loading config file: %v\nPlease create a config.toml in one of the following locations:\n%v", err, configPaths)
}
// Metricsport auslesen
portValue := config.Get("server.metricsport")
if portValue == nil {
log.Println("Warning: 'server.metricsport' is missing in the configuration, using default port 9090")
portValue = int64(9090)
}
var port int64
switch v := portValue.(type) {
case int64:
port = v
case string:
parsedPort, err := strconv.ParseInt(v, 10, 64)
if err != nil {
log.Fatalf("Error parsing 'server.metricsport' as int64: %v", err)
}
port = parsedPort
default:
log.Fatalf("Error: 'server.metricsport' is not of type int64 or string, got %T", v)
}
// Lesen von 'metricsenabled' aus der Konfiguration
metricsEnabledValue := config.Get("server.metricsenabled")
if metricsEnabledValue == nil {
log.Println("Warning: 'server.metricsenabled' ist in der Konfiguration nicht gesetzt. Standardmäßig deaktiviert.")
metricsEnabled = false
} else {
var ok bool
metricsEnabled, ok = metricsEnabledValue.(bool)
if !ok {
log.Fatalf("Konfigurationsfehler: 'server.metricsenabled' sollte ein boolescher Wert sein, aber %T wurde gefunden.", metricsEnabledValue)
}
}
// Lesen von 'bind_ip' aus der Konfiguration
bindIPValue := config.Get("server.bind_ip")
if bindIPValue == nil {
log.Println("Warning: 'server.bind_ip' ist in der Konfiguration nicht gesetzt. Standardmäßig auf 'localhost' gesetzt.")
bindIP = "localhost"
} else {
var ok bool
bindIP, ok = bindIPValue.(string)
if !ok {
log.Fatalf("Konfigurationsfehler: 'server.bind_ip' sollte ein String sein, aber %T wurde gefunden.", bindIPValue)
}
}
// Konstruktion der prometheusURL basierend auf 'bind_ip' und 'metricsport'
prometheusURL = fmt.Sprintf("http://%s:%d/metrics", bindIP, port)
log.Printf("Metrics URL gesetzt auf: %s", prometheusURL)
// Log-Datei auslesen über server.logfile
logFileValue := config.Get("server.logfile")
if logFileValue == nil {
log.Println("Warning: 'server.logfile' is missing, using default '/var/log/hmac-file-server.log'")
logFilePath = "/var/log/hmac-file-server.log"
} else {
lf, ok := logFileValue.(string)
if !ok {
log.Fatalf("Error: 'server.logfile' is not of type string, got %T", logFileValue)
}
logFilePath = lf
}
}
// Thresholds for color coding
const (
HighUsage = 80.0
MediumUsage = 50.0
)
// ProcessInfo holds information about a process
type ProcessInfo struct {
PID int32
Name string
CPUPercent float64
MemPercent float32
CommandLine string
Uptime string // Neues Feld für die Uptime
Status string // Neues Feld für den Status
ErrorCount int // Neues Feld für die Anzahl der Fehler
TotalRequests int64 // Neues Feld für die Gesamtanzahl der Anfragen
ActiveConnections int // Neues Feld für aktive Verbindungen
AverageResponseTime float64 // Neues Feld für die durchschnittliche Antwortzeit in Millisekunden
}
// Function to fetch and parse Prometheus metrics
func fetchMetrics() (map[string]float64, error) {
resp, err := http.Get(prometheusURL)
if err != nil {
return nil, fmt.Errorf("failed to fetch metrics: %w", err)
}
defer resp.Body.Close()
parser := &expfmt.TextParser{}
metricFamilies, err := parser.TextToMetricFamilies(resp.Body)
if err != nil {
return nil, fmt.Errorf("failed to parse metrics: %w", err)
}
metrics := make(map[string]float64)
for name, mf := range metricFamilies {
// Filter the metrics you're interested in
if strings.HasPrefix(name, "hmac_file_server_") ||
name == "memory_usage_bytes" ||
name == "cpu_usage_percent" ||
name == "active_connections_total" ||
name == "goroutines_count" ||
name == "total_requests" ||
name == "average_response_time_ms" {
for _, m := range mf.GetMetric() {
var value float64
if m.GetGauge() != nil {
value = m.GetGauge().GetValue()
} else if m.GetCounter() != nil {
value = m.GetCounter().GetValue()
} else if m.GetUntyped() != nil {
value = m.GetUntyped().GetValue()
} else {
// If the metric type is not handled, skip it
continue
}
// Handle metrics with labels
if len(m.GetLabel()) > 0 {
labels := make([]string, 0)
for _, label := range m.GetLabel() {
labels = append(labels, fmt.Sprintf("%s=\"%s\"", label.GetName(), label.GetValue()))
}
metricKey := fmt.Sprintf("%s{%s}", name, strings.Join(labels, ","))
metrics[metricKey] = value
} else {
metrics[name] = value
}
}
}
}
return metrics, nil
}
// Function to fetch system data
func fetchSystemData() (float64, float64, int, error) {
v, err := mem.VirtualMemory()
if err != nil {
return 0, 0, 0, fmt.Errorf("failed to fetch memory data: %w", err)
}
c, err := cpu.Percent(0, false)
if err != nil {
return 0, 0, 0, fmt.Errorf("failed to fetch CPU data: %w", err)
}
cores, err := cpu.Counts(true)
if err != nil {
return 0, 0, 0, fmt.Errorf("failed to fetch CPU cores: %w", err)
}
cpuUsage := 0.0
if len(c) > 0 {
cpuUsage = c[0]
}
return v.UsedPercent, cpuUsage, cores, nil
}
// Funktion zum Abrufen der Prozessliste mit paralleler Verarbeitung
func fetchProcessList() ([]ProcessInfo, error) {
processes, err := process.Processes()
if err != nil {
return nil, fmt.Errorf("failed to fetch processes: %w", err)
}
var processList []ProcessInfo
var mu sync.Mutex
var wg sync.WaitGroup
// Begrenzung der gleichzeitigen Goroutinen auf 10
sem := make(chan struct{}, 10)
for _, p := range processes {
wg.Add(1)
sem <- struct{}{} // Eintritt in semaphor
go func(p *process.Process) {
defer wg.Done()
defer func() { <-sem }() // Austritt aus semaphor
cpuPercent, err := p.CPUPercent()
if err != nil {
return
}
memPercent, err := p.MemoryPercent()
if err != nil {
return
}
name, err := p.Name()
if err != nil {
return
}
cmdline, err := p.Cmdline()
if err != nil {
cmdline = ""
}
info := ProcessInfo{
PID: p.Pid,
Name: name,
CPUPercent: cpuPercent,
MemPercent: memPercent,
CommandLine: cmdline,
}
mu.Lock()
processList = append(processList, info)
mu.Unlock()
}(p)
}
wg.Wait()
return processList, nil
}
// Function to fetch detailed information about hmac-file-server
func fetchHmacFileServerInfo() (*ProcessInfo, error) {
processes, err := process.Processes()
if err != nil {
return nil, fmt.Errorf("failed to fetch processes: %w", err)
}
for _, p := range processes {
name, err := p.Name()
if err != nil {
continue
}
if name == "hmac-file-server" {
cpuPercent, err := p.CPUPercent()
if err != nil {
cpuPercent = 0.0
}
memPercent, err := p.MemoryPercent()
if err != nil {
memPercent = 0.0
}
cmdline, err := p.Cmdline()
if err != nil {
cmdline = ""
}
createTime, err := p.CreateTime()
if err != nil {
return nil, fmt.Errorf("failed to get process start time: %w", err)
}
uptime := time.Since(time.Unix(0, createTime*int64(time.Millisecond)))
status := "Running" // Standardstatus
// Überprüfung, ob der Prozess aktiv ist
isRunning, err := p.IsRunning()
if err != nil || !isRunning {
status = "Stopped"
}
errorCount, err := countHmacErrors()
if err != nil {
errorCount = 0
}
metrics, err := fetchMetrics()
if err != nil {
return nil, fmt.Errorf("failed to fetch metrics: %w", err)
}
totalRequests, ok := metrics["total_requests"]
if !ok {
totalRequests = 0
}
activeConnections, ok := metrics["active_connections_total"]
if !ok {
activeConnections = 0
}
averageResponseTime, ok := metrics["average_response_time_ms"]
if !ok {
averageResponseTime = 0.0
}
return &ProcessInfo{
PID: p.Pid,
Name: name,
CPUPercent: cpuPercent,
MemPercent: memPercent,
CommandLine: cmdline,
Uptime: uptime.String(),
Status: status,
ErrorCount: errorCount,
TotalRequests: int64(totalRequests),
ActiveConnections: int(activeConnections),
AverageResponseTime: averageResponseTime,
}, nil
}
}
return nil, fmt.Errorf("hmac-file-server process not found")
}
// Neue Funktion zur Zählung der Fehler in den Logs
func countHmacErrors() (int, error) {
logFilePath := "/var/log/hmac-file-server.log" // Pfad zur Logdatei
file, err := os.Open(logFilePath)
if err != nil {
return 0, err
}
defer file.Close()
scanner := bufio.NewScanner(file)
errorCount := 0
for scanner.Scan() {
line := scanner.Text()
if strings.Contains(line, "level=error") {
errorCount++
}
}
if err := scanner.Err(); err != nil {
return 0, err
}
return errorCount, nil
}
// Funktion zur Aktualisierung der UI mit paralleler Datenbeschaffung
func updateUI(ctx context.Context, app *tview.Application, pages *tview.Pages, sysPage, hmacPage tview.Primitive) {
ticker := time.NewTicker(2 * time.Second)
defer ticker.Stop()
// Einführung von Channels für verschiedene Daten
systemDataCh := make(chan struct {
memUsage float64
cpuUsage float64
cores int
err error
})
var metricsCh chan struct {
metrics map[string]float64
err error
}
if metricsEnabled {
metricsCh = make(chan struct {
metrics map[string]float64
err error
})
}
processListCh := make(chan struct {
processes []ProcessInfo
err error
})
hmacInfoCh := make(chan struct {
info *ProcessInfo
metrics map[string]float64
err error
})
// Goroutine zur Datenbeschaffung
go func() {
for {
select {
case <-ctx.Done():
close(systemDataCh)
if metricsEnabled {
close(metricsCh)
}
close(processListCh)
close(hmacInfoCh)
return
case <-ticker.C:
// Systemdaten abrufen asynchron
go func() {
memUsage, cpuUsage, cores, err := fetchSystemData()
systemDataCh <- struct {
memUsage float64
cpuUsage float64
cores int
err error
}{memUsage, cpuUsage, cores, err}
}()
if metricsEnabled {
// Metriken abrufen asynchron
go func() {
metrics, err := fetchMetrics()
metricsCh <- struct {
metrics map[string]float64
err error
}{metrics, err}
}()
}
// Prozessliste abrufen asynchron
go func() {
processes, err := fetchProcessList()
processListCh <- struct {
processes []ProcessInfo
err error
}{processes, err}
}()
// hmac-file-server Informationen abrufen asynchron
go func() {
hmacInfo, err := fetchHmacFileServerInfo()
var metrics map[string]float64
if metricsEnabled {
metrics, err = fetchMetrics()
}
hmacInfoCh <- struct {
info *ProcessInfo
metrics map[string]float64
err error
}{hmacInfo, metrics, err}
}()
}
}
}()
for {
select {
case <-ctx.Done():
return
case data, ok := <-systemDataCh:
if !ok {
systemDataCh = nil
continue
}
if data.err != nil {
log.Printf("Fehler beim Abrufen der Systemdaten: %v\n", data.err)
continue
}
// UI aktualisieren mit Systemdaten
app.QueueUpdateDraw(func() {
if currentPage, _ := pages.GetFrontPage(); currentPage == "system" {
sysFlex := sysPage.(*tview.Flex)
sysTable := sysFlex.GetItem(0).(*tview.Table)
updateSystemTable(sysTable, data.memUsage, data.cpuUsage, data.cores)
}
})
case data, ok := <-metricsCh:
if !ok {
metricsCh = nil
continue
}
if data.err != nil {
log.Printf("Fehler beim Abrufen der Metriken: %v\n", data.err)
continue
}
// UI aktualisieren mit Metriken
app.QueueUpdateDraw(func() {
if currentPage, _ := pages.GetFrontPage(); currentPage == "system" {
sysFlex := sysPage.(*tview.Flex)
metricsTable := sysFlex.GetItem(1).(*tview.Table)
updateMetricsTable(metricsTable, data.metrics)
}
})
case data, ok := <-processListCh:
if !ok {
processListCh = nil
continue
}
if data.err != nil {
log.Printf("Fehler beim Abrufen der Prozessliste: %v\n", data.err)
continue
}
// UI aktualisieren mit Prozessliste
app.QueueUpdateDraw(func() {
if currentPage, _ := pages.GetFrontPage(); currentPage == "system" {
sysFlex := sysPage.(*tview.Flex)
processTable := sysFlex.GetItem(2).(*tview.Table)
updateProcessTable(processTable, data.processes)
}
})
case data, ok := <-hmacInfoCh:
if !ok {
hmacInfoCh = nil
continue
}
if data.err != nil {
log.Printf("Fehler beim Abrufen der hmac-file-server Informationen: %v\n", data.err)
continue
}
// UI aktualisieren mit hmac-file-server Informationen
app.QueueUpdateDraw(func() {
if currentPage, _ := pages.GetFrontPage(); currentPage == "hmac" && data.info != nil {
hmacFlex := hmacPage.(*tview.Flex)
hmacTable := hmacFlex.GetItem(0).(*tview.Table)
updateHmacTable(hmacTable, data.info, data.metrics)
}
})
}
// Abbruchbedingung, wenn alle Channels geschlossen sind
if systemDataCh == nil && (!metricsEnabled || metricsCh == nil) && processListCh == nil && hmacInfoCh == nil {
break
}
}
}
// Helper function to update system data table
func updateSystemTable(sysTable *tview.Table, memUsage, cpuUsage float64, cores int) {
sysTable.Clear()
sysTable.SetCell(0, 0, tview.NewTableCell("Metric").SetAttributes(tcell.AttrBold))
sysTable.SetCell(0, 1, tview.NewTableCell("Value").SetAttributes(tcell.AttrBold))
// CPU Usage Row
cpuUsageCell := tview.NewTableCell(fmt.Sprintf("%.2f%%", cpuUsage))
if cpuUsage > HighUsage {
cpuUsageCell.SetTextColor(tcell.ColorRed)
} else if cpuUsage > MediumUsage {
cpuUsageCell.SetTextColor(tcell.ColorYellow)
} else {
cpuUsageCell.SetTextColor(tcell.ColorGreen)
}
sysTable.SetCell(1, 0, tview.NewTableCell("CPU Usage"))
sysTable.SetCell(1, 1, cpuUsageCell)
// Memory Usage Row
memUsageCell := tview.NewTableCell(fmt.Sprintf("%.2f%%", memUsage))
if memUsage > HighUsage {
memUsageCell.SetTextColor(tcell.ColorRed)
} else if memUsage > MediumUsage {
memUsageCell.SetTextColor(tcell.ColorYellow)
} else {
memUsageCell.SetTextColor(tcell.ColorGreen)
}
sysTable.SetCell(2, 0, tview.NewTableCell("Memory Usage"))
sysTable.SetCell(2, 1, memUsageCell)
// CPU Cores Row
sysTable.SetCell(3, 0, tview.NewTableCell("CPU Cores"))
sysTable.SetCell(3, 1, tview.NewTableCell(fmt.Sprintf("%d", cores)))
}
// Helper function to update metrics table
func updateMetricsTable(metricsTable *tview.Table, metrics map[string]float64) {
metricsTable.Clear()
metricsTable.SetCell(0, 0, tview.NewTableCell("Metric").SetAttributes(tcell.AttrBold))
metricsTable.SetCell(0, 1, tview.NewTableCell("Value").SetAttributes(tcell.AttrBold))
row := 1
for key, value := range metrics {
metricsTable.SetCell(row, 0, tview.NewTableCell(key))
metricsTable.SetCell(row, 1, tview.NewTableCell(fmt.Sprintf("%.2f", value)))
row++
}
}
// Helper function to update process table
func updateProcessTable(processTable *tview.Table, processes []ProcessInfo) {
processTable.Clear()
processTable.SetCell(0, 0, tview.NewTableCell("PID").SetAttributes(tcell.AttrBold))
processTable.SetCell(0, 1, tview.NewTableCell("Name").SetAttributes(tcell.AttrBold))
processTable.SetCell(0, 2, tview.NewTableCell("CPU%").SetAttributes(tcell.AttrBold))
processTable.SetCell(0, 3, tview.NewTableCell("Mem%").SetAttributes(tcell.AttrBold))
processTable.SetCell(0, 4, tview.NewTableCell("Command").SetAttributes(tcell.AttrBold))
// Sort processes by CPU usage
sort.Slice(processes, func(i, j int) bool {
return processes[i].CPUPercent > processes[j].CPUPercent
})
// Limit to top 20 processes
maxRows := 20
if len(processes) < maxRows {
maxRows = len(processes)
}
for i := 0; i < maxRows; i++ {
p := processes[i]
processTable.SetCell(i+1, 0, tview.NewTableCell(fmt.Sprintf("%d", p.PID)))
processTable.SetCell(i+1, 1, tview.NewTableCell(p.Name))
processTable.SetCell(i+1, 2, tview.NewTableCell(fmt.Sprintf("%.2f", p.CPUPercent)))
processTable.SetCell(i+1, 3, tview.NewTableCell(fmt.Sprintf("%.2f", p.MemPercent)))
processTable.SetCell(i+1, 4, tview.NewTableCell(p.CommandLine))
}
}
// Helper function to update hmac-table
func updateHmacTable(hmacTable *tview.Table, hmacInfo *ProcessInfo, metrics map[string]float64) {
hmacTable.Clear()
hmacTable.SetCell(0, 0, tview.NewTableCell("Property").SetAttributes(tcell.AttrBold))
hmacTable.SetCell(0, 1, tview.NewTableCell("Value").SetAttributes(tcell.AttrBold))
// Process information
hmacTable.SetCell(1, 0, tview.NewTableCell("PID"))
hmacTable.SetCell(1, 1, tview.NewTableCell(fmt.Sprintf("%d", hmacInfo.PID)))
hmacTable.SetCell(2, 0, tview.NewTableCell("CPU%"))
hmacTable.SetCell(2, 1, tview.NewTableCell(fmt.Sprintf("%.2f", hmacInfo.CPUPercent)))
hmacTable.SetCell(3, 0, tview.NewTableCell("Mem%"))
hmacTable.SetCell(3, 1, tview.NewTableCell(fmt.Sprintf("%.2f", hmacInfo.MemPercent)))
hmacTable.SetCell(4, 0, tview.NewTableCell("Command"))
hmacTable.SetCell(4, 1, tview.NewTableCell(hmacInfo.CommandLine))
hmacTable.SetCell(5, 0, tview.NewTableCell("Uptime"))
hmacTable.SetCell(5, 1, tview.NewTableCell(hmacInfo.Uptime)) // Neue Zeile für Uptime
hmacTable.SetCell(6, 0, tview.NewTableCell("Status"))
hmacTable.SetCell(6, 1, tview.NewTableCell(hmacInfo.Status)) // Neue Zeile für Status
hmacTable.SetCell(7, 0, tview.NewTableCell("Error Count"))
hmacTable.SetCell(7, 1, tview.NewTableCell(fmt.Sprintf("%d", hmacInfo.ErrorCount))) // Neue Zeile für Error Count
hmacTable.SetCell(8, 0, tview.NewTableCell("Total Requests"))
hmacTable.SetCell(8, 1, tview.NewTableCell(fmt.Sprintf("%d", hmacInfo.TotalRequests))) // Neue Zeile für Total Requests
hmacTable.SetCell(9, 0, tview.NewTableCell("Active Connections"))
hmacTable.SetCell(9, 1, tview.NewTableCell(fmt.Sprintf("%d", hmacInfo.ActiveConnections))) // Neue Zeile für Active Connections
hmacTable.SetCell(10, 0, tview.NewTableCell("Avg. Response Time (ms)"))
hmacTable.SetCell(10, 1, tview.NewTableCell(fmt.Sprintf("%.2f", hmacInfo.AverageResponseTime))) // Neue Zeile für Average Response Time
// Metrics related to hmac-file-server
row := 12
hmacTable.SetCell(row, 0, tview.NewTableCell("Metric").SetAttributes(tcell.AttrBold))
hmacTable.SetCell(row, 1, tview.NewTableCell("Value").SetAttributes(tcell.AttrBold))
row++
for key, value := range metrics {
if strings.Contains(key, "hmac_file_server_") {
hmacTable.SetCell(row, 0, tview.NewTableCell(key))
hmacTable.SetCell(row, 1, tview.NewTableCell(fmt.Sprintf("%.2f", value)))
row++
}
}
}
func createSystemPage() tview.Primitive {
// Create system data table
sysTable := tview.NewTable().SetBorders(false)
sysTable.SetTitle(" [::b]System Data ").SetBorder(true)
// Create Prometheus metrics table
metricsTable := tview.NewTable().SetBorders(false)
metricsTable.SetTitle(" [::b]Prometheus Metrics ").SetBorder(true)
// Create process list table
processTable := tview.NewTable().SetBorders(false)
processTable.SetTitle(" [::b]Process List ").SetBorder(true)
// Create a flex layout to hold the tables
sysFlex := tview.NewFlex().
SetDirection(tview.FlexRow).
AddItem(sysTable, 7, 0, false).
AddItem(metricsTable, 0, 1, false).
AddItem(processTable, 0, 2, false)
return sysFlex
}
func createHmacPage() tview.Primitive {
hmacTable := tview.NewTable().SetBorders(false)
hmacTable.SetTitle(" [::b]hmac-file-server Details ").SetBorder(true)
hmacFlex := tview.NewFlex().
SetDirection(tview.FlexRow).
AddItem(hmacTable, 0, 1, false)
return hmacFlex
}
func createLogsPage(ctx context.Context, app *tview.Application, logFilePath string) tview.Primitive {
logsTextView := tview.NewTextView().
SetDynamicColors(true).
SetRegions(true).
SetWordWrap(true)
logsTextView.SetTitle(" [::b]Logs ").SetBorder(true)
const numLines = 100 // Number of lines to read from the end of the log file
// Read logs periodically
go func() {
for {
select {
case <-ctx.Done():
return
default:
content, err := readLastNLines(logFilePath, numLines)
if err != nil {
app.QueueUpdateDraw(func() {
logsTextView.SetText(fmt.Sprintf("[red]Error reading log file: %v[white]", err))
})
} else {
// Process the log content to add colors
lines := strings.Split(content, "\n")
var coloredLines []string
for _, line := range lines {
if strings.Contains(line, "level=info") {
coloredLines = append(coloredLines, "[green]"+line+"[white]")
} else if strings.Contains(line, "level=warn") {
coloredLines = append(coloredLines, "[yellow]"+line+"[white]")
} else if strings.Contains(line, "level=error") {
coloredLines = append(coloredLines, "[red]"+line+"[white]")
} else {
// Default color
coloredLines = append(coloredLines, line)
}
}
app.QueueUpdateDraw(func() {
logsTextView.SetText(strings.Join(coloredLines, "\n"))
})
}
time.Sleep(2 * time.Second) // Refresh interval for logs
}
}
}()
return logsTextView
}
// Optimized readLastNLines to handle large files efficiently
func readLastNLines(filePath string, n int) (string, error) {
file, err := os.Open(filePath)
if err != nil {
return "", err
}
defer file.Close()
const bufferSize = 1024
buffer := make([]byte, bufferSize)
var content []byte
var fileSize int64
fileInfo, err := file.Stat()
if err != nil {
return "", err
}
fileSize = fileInfo.Size()
var offset int64 = 0
for {
if fileSize-offset < bufferSize {
offset = fileSize
} else {
offset += bufferSize
}
_, err := file.Seek(-offset, io.SeekEnd)
if err != nil {
return "", err
}
bytesRead, err := file.Read(buffer)
if err != nil && err != io.EOF {
return "", err
}
content = append(buffer[:bytesRead], content...)
if bytesRead < bufferSize || len(strings.Split(string(content), "\n")) > n+1 {
break
}
if offset >= fileSize {
break
}
}
lines := strings.Split(string(content), "\n")
if len(lines) > n {
lines = lines[len(lines)-n:]
}
return strings.Join(lines, "\n"), nil
}
func main() {
app := tview.NewApplication()
// Create a cancellable context
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
// Create pages
pages := tview.NewPages()
// System page
sysPage := createSystemPage()
pages.AddPage("system", sysPage, true, true)
// hmac-file-server page
hmacPage := createHmacPage()
pages.AddPage("hmac", hmacPage, true, false)
// Logs page mit dem gelesenen logFilePath
logsPage := createLogsPage(ctx, app, logFilePath)
pages.AddPage("logs", logsPage, true, false)
// Add key binding to switch views and handle exit
app.SetInputCapture(func(event *tcell.EventKey) *tcell.EventKey {
if event.Key() == tcell.KeyRune {
switch event.Rune() {
case 'q', 'Q':
cancel()
app.Stop()
return nil
case 's', 'S':
// Switch to system page
pages.SwitchToPage("system")
case 'h', 'H':
// Switch to hmac-file-server page
pages.SwitchToPage("hmac")
case 'l', 'L':
// Switch to logs page
pages.SwitchToPage("logs")
}
}
return event
})
// Start the UI update loop in a separate goroutine
go updateUI(ctx, app, pages, sysPage, hmacPage)
// Set the root and run the application
if err := app.SetRoot(pages, true).EnableMouse(true).Run(); err != nil {
log.Fatalf("Error running application: %v", err)
log.Fatalf("Error running application: %v", err)
}
}