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Go

FTP through SSH Tunnel with Dynamic Port Forwarding

See more FTP Examples

Demonstrates how to start a background thread that runs a portable SSH tunnel w/ dynamic port forwarding that the foreground thread can be used for establishing FTP sessions through an SSH tunnel.

Note: Some developers may be accustomed to starting an stunnel.exe proxy from https://www.stunnel.org. The stunnel.exe is not necessary here. Chilkat's background thread fulfills the task of what the external stunnel.exe does. Therefore, your application is self-contained, meaning that it can run anywhere because the SSH tunnel proxy is built-in.

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Go
    success := false

    // This example assumes the Chilkat API to have been previously unlocked.
    // See Global Unlock Sample for sample code.

    success = false

    tunnel := chilkat.NewSshTunnel()

    sshHostname := "sftp.example.com"
    sshPort := 22

    // Connect to an SSH server and establish the SSH tunnel:
    success = tunnel.Connect(sshHostname,sshPort)
    if success != true {
        fmt.Println(tunnel.LastErrorText())
        tunnel.DisposeSshTunnel()
        return
    }

    // Authenticate with the SSH server via a login/password
    // or with a public key.  
    // This example demonstrates SSH password authentication.
    success = tunnel.AuthenticatePw("mySshLogin","mySshPassword")
    if success != true {
        fmt.Println(tunnel.LastErrorText())
        tunnel.DisposeSshTunnel()
        return
    }

    // Indicate that the background SSH tunnel thread will behave as a SOCKS proxy server
    // with dynamic port forwarding:
    tunnel.SetDynamicPortForwarding(true)

    // We may optionally require that connecting clients authenticate with our SOCKS proxy server.
    // To do this, set an inbound username/password.  Any connecting clients would be required to 
    // use SOCKS5 with the correct username/password.
    // If no inbound username/password is set, then our SOCKS proxy server will accept both
    // SOCKS4 and SOCKS5 unauthenticated connections.

    tunnel.SetInboundSocksUsername("chilkat123")
    tunnel.SetInboundSocksPassword("password123")

    // Start the listen/accept thread to begin accepting SOCKS proxy client connections.
    // Listen on port 1080.
    success = tunnel.BeginAccepting(1080)
    if success != true {
        fmt.Println(tunnel.LastErrorText())
        tunnel.DisposeSshTunnel()
        return
    }

    // Now that a background thread is running a SOCKS proxy server that forwards connections
    // through an SSH tunnel, it is possible to use any Chilkat implemented protocol that is SOCKS capable,
    // such as HTTP, POP3, SMTP, IMAP, FTP, etc.  The protocol may use SSL/TLS because the SSL/TLS
    // will be passed through the SSH tunnel to the end-destination.  Also, any number of simultaneous
    // connections may be routed through the SSH tunnel.

    ftp := chilkat.NewFtp2()

    // Indicate that the HTTP object is to use our portable SOCKS proxy/SSH tunnel running in our background thread.
    ftp.SetSocksHostname("localhost")
    // The SocksPort must equal the port passed to BeginAccepting above.
    ftp.SetSocksPort(1080)
    ftp.SetSocksVersion(5)
    // The SOCKS5 login/password set here must equal the InboundSocksUsername/Password set above.
    ftp.SetSocksUsername("chilkat123")
    ftp.SetSocksPassword("password123")

    // This is the actual FTP server domain or IP address, and the login/password for the user account on the destination FTP server.
    ftp.SetHostname("ftp.someFtpServer.com")
    ftp.SetUsername("myLogin")
    ftp.SetPassword("myPassword")
    ftp.SetAuthTls(true)

    // Connect and login (via the SSH tunnel) to the FTP server.
    success = ftp.Connect()
    if success != true {
        fmt.Println(ftp.LastErrorText())
        tunnel.DisposeSshTunnel()
        ftp.DisposeFtp2()
        return
    }

    // Change to the remote directory where the file is located.
    // This step is only necessary if the file is not in the root directory
    // for the FTP account.
    success = ftp.ChangeRemoteDir("junk")
    if success != true {
        fmt.Println(ftp.LastErrorText())
        tunnel.DisposeSshTunnel()
        ftp.DisposeFtp2()
        return
    }

    localFilename := "c:/temp/hamlet.xml"
    remoteFilename := "hamlet.xml"

    // Download a file.  (the data connection is also automatically established through the 
    // SSH tunnel using dynamic port forwarding..)
    success = ftp.GetFile(remoteFilename,localFilename)
    if success != true {
        fmt.Println(ftp.LastErrorText())
        tunnel.DisposeSshTunnel()
        ftp.DisposeFtp2()
        return
    }

    // The disconnect is disconnecting with the FTP server and closes the SSH tunnel.
    // The background tunnel thread is still running, and may be used for subsequent FTP connections,
    // or even connections for any other purpose, such as HTTP, IMAP, SMTP, POP3, etc.
    success = ftp.Disconnect()

    // When the app is finished with the tunnel, it can cleanup..

    // Stop the background listen/accept thread:
    waitForThreadExit := true
    success = tunnel.StopAccepting(waitForThreadExit)
    if success != true {
        fmt.Println(tunnel.LastErrorText())
        tunnel.DisposeSshTunnel()
        ftp.DisposeFtp2()
        return
    }

    // Close the SSH tunnel (would also kick any remaining connected clients).
    success = tunnel.CloseTunnel(waitForThreadExit)
    if success != true {
        fmt.Println(tunnel.LastErrorText())
        tunnel.DisposeSshTunnel()
        ftp.DisposeFtp2()
        return
    }


    tunnel.DisposeSshTunnel()
    ftp.DisposeFtp2()