1

muy buenas.

Contexto: Actualmente estoy intentando desarrollar un escáner de puertos usando Golang, que solamente diga si dichos puertos están abiertos o cerrados.

Problema: A pesar de que compila y se ejecuta, muy rara vez muestra de verdad todos los puertos abiertos. Por ejemplo, al escanear los 1000 primeros del dominio google.com, no siempre reporta el 80 o el 443. En cambio, al usar una herramienta externa como nmap sí que los cataloga como abiertos.

Código:

Escáner de un solo puerto:

func pingTCP(host string, port int, timeout time.Duration, retries int) bool {
    try := 0                                 // current try
    status := false                          // open port flag
    addr := fmt.Sprintf("%s:%d", host, port) // format address
    for try < retries && !status {
        conn, err := net.DialTimeout("tcp", addr, timeout) // connect to given addres with a timeout
        if err == nil {
            conn.Close()  // close the open connection
            status = true // port is open
        } else {
            logger.Put(err.Error())
        }
        try++
    }
    return status
}

Escáner de múltiples puertos usando concurrencia:

func pingTCPRange(host string, ports []int, timeout time.Duration, threads int, retries int) map[int]bool {
    results := map[int]bool{}
    // concurrency: wait group
    wg := sync.WaitGroup{}
    wg.Add(len(ports))
    // concurrency: locks
    mlock := sync.Mutex{}
    tlock := make(chan struct{}, threads)
    // concurrent ping

    for _, port := range ports {
        tlock <- struct{}{} // lock a thread
        // scan a port
        go func(port int) {
            defer wg.Done()
            status := pingTCP(host, port, timeout, retries)
            // concurrency: mutual exclusion
            mlock.Lock()
            // progress
            // logger.Progress("Checking %d", port)
            results[port] = status
            mlock.Unlock()
            <-tlock // unlock a thread
        }(port)
    }
    wg.Wait() // wait for all goroutines to finish

    return results
}

Este es el código del programa completo (es un paquete que forma parte de un programa superior):

// -----------------------------------------------------------------------------
// PACKAGE
// -----------------------------------------------------------------------------

package scanner

// -----------------------------------------------------------------------------
// IMPORTS
// -----------------------------------------------------------------------------

import (
    "errors"
    "flag"
    "fmt"
    "log"
    "net"
    "sort"
    "strconv"
    "strings"
    "sync"
    "time"

    "github.com/jedib0t/go-pretty/table"

    "github.com/cosasdepuma/elliot/pkg/app"
    "github.com/cosasdepuma/elliot/pkg/logger"
    "github.com/cosasdepuma/elliot/pkg/modules"
)

// -----------------------------------------------------------------------------
// SUBCOMMAND DEFINITION
// -----------------------------------------------------------------------------

// Nmap TODO
var Nmap = modules.Module{
    Flag: args,
    Run:  Run,
}

// -----------------------------------------------------------------------------
// ARGUMENTS
// -----------------------------------------------------------------------------

var (
    args    = flag.NewFlagSet("nmap", flag.ContinueOnError)
    host    = args.String("host", "127.0.0.1", "Host a escanear")
    port    = args.String("port", "1-1000", "Puertos a escanear")
    timeout = args.Duration("timeout", 1*time.Second, "Timeout")
    threads = args.Int("threads", 1000, "Number of threads")
    retries = args.Int("retries", 1, "Number of retries if a port is close")
)

// -----------------------------------------------------------------------------
// PUBLIC METHODS
// -----------------------------------------------------------------------------

// Run TODO
func Run(core *app.Core) {
    // Get the arguments
    flag.Parse()
    // Parse "port" argument
    ports, err := portSplitter(*port)
    if err != nil {
        log.Fatalf("[!] %s\n", err)
        return
    }
    // Resolve host
    ipaddr, err := net.ResolveIPAddr("", *host)
    if err != nil {
        log.Fatalf("[!] Bad host: %s", *host)
        return
    }
    ip := ipaddr.String()
    if *host != ip {
        *host = fmt.Sprintf("%s (%s)", *host, ip)
    }
    // Scan ports
    logger.Command("nmap", "Scanning %d port(s) from %s", len(ports), *host)
    maxThreads := len(ports) * *retries
    if maxThreads < *threads {
        logger.Warning("Optimizing the number of threads from %d to %d", *threads, maxThreads)
        *threads = maxThreads
    }
    result := pingTCPRange(ip, ports, *timeout, *threads, *retries)

    // Filter open ports
    openPorts := make([]int, 0)
    for port, open := range result {
        if open {
            openPorts = append(openPorts, port)
        }
    }

    // ! Beautify ports (just dev)

    t := table.NewWriter()
    t.SetStyle(table.StyleRounded)
    if len(openPorts) == 0 {
        t.AppendHeader(table.Row{"No open ports"})
    } else {
        sort.Ints(openPorts)
        t.AppendHeader(table.Row{"protocol", "port", "status"})
        for _, port := range openPorts {
            t.AppendRow(table.Row{"tcp", port, "open"})
        }
    }
    logger.Put("\n%s", t.Render())
}

// -----------------------------------------------------------------------------
// PRIVATE METHODS
// -----------------------------------------------------------------------------

// * Utilities

func portSplitter(raw string) ([]int, error) {
    portMap := map[int]struct{}{} // force ports to be unique

    // split ports
    blocks := strings.Split(raw, ",") // split blocks
    for _, block := range blocks {
        rang := strings.SplitN(block, "-", 2) // split ranges
        low, err := strconv.Atoi(rang[0])     // lower port
        if err != nil {
            return nil, errors.New("Bad port specification")
        }
        // append ports
        if len(rang) == 1 {
            portMap[low] = struct{}{} // single port
        } else {
            high, err := strconv.Atoi(rang[1]) // higher port
            if err != nil {
                return nil, errors.New("Bad port specification")
            }
            for port := low; port <= high; port++ {
                portMap[port] = struct{}{} // multiple ports
            }
        }
    }
    // retrieve ports
    ports := make([]int, 0, len(portMap))
    for port := range portMap {
        ports = append(ports, port)
    }
    return ports, nil
}

// * Workflow

func pingTCP(host string, port int, timeout time.Duration, retries int) bool {
    try := 0                                 // current try
    status := false                          // open port flag
    addr := fmt.Sprintf("%s:%d", host, port) // format address
    for try < retries && !status {
        conn, err := net.DialTimeout("tcp", addr, timeout) // connect to given addres with a timeout
        if err == nil {
            conn.Close()  // close the open connection
            status = true // port is open
        } else {
            logger.Put(err.Error())
        }
        try++
    }
    return status
}

func pingTCPRange(host string, ports []int, timeout time.Duration, threads int, retries int) map[int]bool {
    results := map[int]bool{}
    // concurrency: wait group
    wg := sync.WaitGroup{}
    wg.Add(len(ports))
    // concurrency: locks
    mlock := sync.Mutex{}
    tlock := make(chan struct{}, threads)
    // concurrent ping

    for _, port := range ports {
        tlock <- struct{}{} // lock a thread
        // scan a port
        go func(port int) {
            defer wg.Done()
            status := pingTCP(host, port, timeout, retries)
            // concurrency: mutual exclusion
            mlock.Lock()
            // progress
            // logger.Progress("Checking %d", port)
            results[port] = status
            mlock.Unlock()
            <-tlock // unlock a thread
        }(port)
    }
    wg.Wait() // wait for all goroutines to finish

    return results
}

Muchísimas gracias por todo de antemano

0

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