Come interrogare un server NTP usando C #?


105

Tutto ciò di cui ho bisogno è un modo per interrogare un server NTP usando C # per ottenere la data e l'ora del server NTP restituita come a stringo come a DateTime.

Com'è possibile nella sua forma più semplice?

Risposte:


157

Poiché la vecchia risposta accettata è stata eliminata (era un collegamento a un risultato di ricerca di codice Google che non esiste più), ho pensato di poter rispondere a questa domanda per riferimento futuro:

public static DateTime GetNetworkTime()
{
    //default Windows time server
    const string ntpServer = "time.windows.com";

    // NTP message size - 16 bytes of the digest (RFC 2030)
    var ntpData = new byte[48];

    //Setting the Leap Indicator, Version Number and Mode values
    ntpData[0] = 0x1B; //LI = 0 (no warning), VN = 3 (IPv4 only), Mode = 3 (Client Mode)

    var addresses = Dns.GetHostEntry(ntpServer).AddressList;

    //The UDP port number assigned to NTP is 123
    var ipEndPoint = new IPEndPoint(addresses[0], 123);
    //NTP uses UDP

    using(var socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp))
    {
        socket.Connect(ipEndPoint);

        //Stops code hang if NTP is blocked
        socket.ReceiveTimeout = 3000;     

        socket.Send(ntpData);
        socket.Receive(ntpData);
        socket.Close();
    }

    //Offset to get to the "Transmit Timestamp" field (time at which the reply 
    //departed the server for the client, in 64-bit timestamp format."
    const byte serverReplyTime = 40;

    //Get the seconds part
    ulong intPart = BitConverter.ToUInt32(ntpData, serverReplyTime);

    //Get the seconds fraction
    ulong fractPart = BitConverter.ToUInt32(ntpData, serverReplyTime + 4);

    //Convert From big-endian to little-endian
    intPart = SwapEndianness(intPart);
    fractPart = SwapEndianness(fractPart);

    var milliseconds = (intPart * 1000) + ((fractPart * 1000) / 0x100000000L);

    //**UTC** time
    var networkDateTime = (new DateTime(1900, 1, 1, 0, 0, 0, DateTimeKind.Utc)).AddMilliseconds((long)milliseconds);

    return networkDateTime.ToLocalTime();
}

// stackoverflow.com/a/3294698/162671
static uint SwapEndianness(ulong x)
{
    return (uint) (((x & 0x000000ff) << 24) +
                   ((x & 0x0000ff00) << 8) +
                   ((x & 0x00ff0000) >> 8) +
                   ((x & 0xff000000) >> 24));
}

Nota: dovrai aggiungere i seguenti spazi dei nomi

using System.Net;
using System.Net.Sockets;

2
@cvocvo Per quello puoi usareDateTime.ToLocalTime()
Nasreddine

2
In situazioni in cui NTP è bloccato, questo codice si blocca e non ritorna mai. Come posso aggiungere un timeout o qualcosa per assicurarmi che questo codice ritorni?
cvocvo

4
Questo è uno dei pochi pezzi di codice abbastanza buoni da essere tagliati e incollati direttamente da Internet nel codice di produzione (dopo il test e la revisione, ovviamente).
dodgy_coder

2
Perché avrò tempo LAN win7, (utilizzare il codice posision: socket.Receive(ntpData);) si getterà eccezione: An existing connection was forcibly closed by the remote host. Ma tutto bene se uso la riga di comando net timeper ottenere l'ora.
qakmak

1
Riga 17: var socket = new Socket (AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp); Dovrebbe essere var socket = new Socket (indirizzi [0] .AddressFamily, SocketType.Dgram, ProtocolType.Udp); In questo modo funzionerà se il primo indirizzo è IP6
Duane McKinney

34

Questa è una versione ottimizzata della funzione che rimuove la dipendenza dalla funzione BitConverter e la rende compatibile con NETMF (.NET Micro Framework)

public static DateTime GetNetworkTime()
{
    const string ntpServer = "pool.ntp.org";
    var ntpData = new byte[48];
    ntpData[0] = 0x1B; //LeapIndicator = 0 (no warning), VersionNum = 3 (IPv4 only), Mode = 3 (Client Mode)

    var addresses = Dns.GetHostEntry(ntpServer).AddressList;
    var ipEndPoint = new IPEndPoint(addresses[0], 123);
    var socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp);

    socket.Connect(ipEndPoint);
    socket.Send(ntpData);
    socket.Receive(ntpData);
    socket.Close();

    ulong intPart = (ulong)ntpData[40] << 24 | (ulong)ntpData[41] << 16 | (ulong)ntpData[42] << 8 | (ulong)ntpData[43];
    ulong fractPart = (ulong)ntpData[44] << 24 | (ulong)ntpData[45] << 16 | (ulong)ntpData[46] << 8 | (ulong)ntpData[47];

    var milliseconds = (intPart * 1000) + ((fractPart * 1000) / 0x100000000L);
    var networkDateTime = (new DateTime(1900, 1, 1)).AddMilliseconds((long)milliseconds);

    return networkDateTime;
}

7
Ti manca un timeout ... socket.ReceiveTimeout = 3000;... questo lo impedisce in caso di problemi di rete. Il valore è in millisecondi.
dodgy_coder

3
Prenditi cura di UTC: var networkDateTime = new DateTime (1900, 1, 1, 0, 0, 0, DateTimeKind.Utc) .AddMilliseconds (millisecondi); return networkDateTime.ToLocalTime ();
Daniel Fisher lennybacon


6

So che l'argomento è piuttosto vecchio, ma tali strumenti sono sempre utili. Ho utilizzato le risorse di cui sopra e ho creato una versione di NtpClient che consente in modo asincrono di acquisire l'ora esatta, anziché basata sugli eventi.

 /// <summary>
/// Represents a client which can obtain accurate time via NTP protocol.
/// </summary>
public class NtpClient
{
    private readonly TaskCompletionSource<DateTime> _resultCompletionSource;

    /// <summary>
    /// Creates a new instance of <see cref="NtpClient"/> class.
    /// </summary>
    public NtpClient()
    {
        _resultCompletionSource = new TaskCompletionSource<DateTime>();
    }

    /// <summary>
    /// Gets accurate time using the NTP protocol with default timeout of 45 seconds.
    /// </summary>
    /// <returns>Network accurate <see cref="DateTime"/> value.</returns>
    public async Task<DateTime> GetNetworkTimeAsync()
    {
        return await GetNetworkTimeAsync(TimeSpan.FromSeconds(45));
    }

    /// <summary>
    /// Gets accurate time using the NTP protocol with default timeout of 45 seconds.
    /// </summary>
    /// <param name="timeoutMs">Operation timeout in milliseconds.</param>
    /// <returns>Network accurate <see cref="DateTime"/> value.</returns>
    public async Task<DateTime> GetNetworkTimeAsync(int timeoutMs)
    {
        return await GetNetworkTimeAsync(TimeSpan.FromMilliseconds(timeoutMs));
    }

    /// <summary>
    /// Gets accurate time using the NTP protocol with default timeout of 45 seconds.
    /// </summary>
    /// <param name="timeout">Operation timeout.</param>
    /// <returns>Network accurate <see cref="DateTime"/> value.</returns>
    public async Task<DateTime> GetNetworkTimeAsync(TimeSpan timeout)
    {
        using (var socket = new DatagramSocket())
        using (var ct = new CancellationTokenSource(timeout))
        {
            ct.Token.Register(() => _resultCompletionSource.TrySetCanceled());

            socket.MessageReceived += OnSocketMessageReceived;
            //The UDP port number assigned to NTP is 123
            await socket.ConnectAsync(new HostName("pool.ntp.org"), "123");
            using (var writer = new DataWriter(socket.OutputStream))
            {
                // NTP message size is 16 bytes of the digest (RFC 2030)
                var ntpBuffer = new byte[48];

                // Setting the Leap Indicator, 
                // Version Number and Mode values
                // LI = 0 (no warning)
                // VN = 3 (IPv4 only)
                // Mode = 3 (Client Mode)
                ntpBuffer[0] = 0x1B;

                writer.WriteBytes(ntpBuffer);
                await writer.StoreAsync();
                var result = await _resultCompletionSource.Task;
                return result;
            }
        }
    }

    private void OnSocketMessageReceived(DatagramSocket sender, DatagramSocketMessageReceivedEventArgs args)
    {
        try
        {
            using (var reader = args.GetDataReader())
            {
                byte[] response = new byte[48];
                reader.ReadBytes(response);
                _resultCompletionSource.TrySetResult(ParseNetworkTime(response));
            }
        }
        catch (Exception ex)
        {
            _resultCompletionSource.TrySetException(ex);
        }
    }

    private static DateTime ParseNetworkTime(byte[] rawData)
    {
        //Offset to get to the "Transmit Timestamp" field (time at which the reply 
        //departed the server for the client, in 64-bit timestamp format."
        const byte serverReplyTime = 40;

        //Get the seconds part
        ulong intPart = BitConverter.ToUInt32(rawData, serverReplyTime);

        //Get the seconds fraction
        ulong fractPart = BitConverter.ToUInt32(rawData, serverReplyTime + 4);

        //Convert From big-endian to little-endian
        intPart = SwapEndianness(intPart);
        fractPart = SwapEndianness(fractPart);

        var milliseconds = (intPart * 1000) + ((fractPart * 1000) / 0x100000000L);

        //**UTC** time
        DateTime networkDateTime = (new DateTime(1900, 1, 1, 0, 0, 0, 0, DateTimeKind.Utc)).AddMilliseconds((long)milliseconds);
        return networkDateTime;
    }

    // stackoverflow.com/a/3294698/162671
    private static uint SwapEndianness(ulong x)
    {
        return (uint)(((x & 0x000000ff) << 24) +
                       ((x & 0x0000ff00) << 8) +
                       ((x & 0x00ff0000) >> 8) +
                       ((x & 0xff000000) >> 24));
    }
}

Uso:

var ntp = new NtpClient();
var accurateTime = await ntp.GetNetworkTimeAsync(TimeSpan.FromSeconds(10));

1
Non funziona in Windows 7, solo in Windows 10. Vedi windows.networking.sockets.datagramsocket
stomy

Ho usato questo inWind 10 progetti IoT Core con Raspberry Pi 3, funziona a meraviglia dato che il tempo si ferma quando il pi è spento. (nessun orologio in tempo reale)
Chris Schaller

5

Una versione modificata per compensare i tempi di rete e calcolare con DateTime-Ticks (più precisi dei millisecondi)

public static DateTime GetNetworkTime()
{
  const string NtpServer = "pool.ntp.org";

  const int DaysTo1900 = 1900 * 365 + 95; // 95 = offset for leap-years etc.
  const long TicksPerSecond = 10000000L;
  const long TicksPerDay = 24 * 60 * 60 * TicksPerSecond;
  const long TicksTo1900 = DaysTo1900 * TicksPerDay;

  var ntpData = new byte[48];
  ntpData[0] = 0x1B; // LeapIndicator = 0 (no warning), VersionNum = 3 (IPv4 only), Mode = 3 (Client Mode)

  var addresses = Dns.GetHostEntry(NtpServer).AddressList;
  var ipEndPoint = new IPEndPoint(addresses[0], 123);
  long pingDuration = Stopwatch.GetTimestamp(); // temp access (JIT-Compiler need some time at first call)
  using (var socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp))
  {
    socket.Connect(ipEndPoint);
    socket.ReceiveTimeout = 5000;
    socket.Send(ntpData);
    pingDuration = Stopwatch.GetTimestamp(); // after Send-Method to reduce WinSocket API-Call time

    socket.Receive(ntpData);
    pingDuration = Stopwatch.GetTimestamp() - pingDuration;
  }

  long pingTicks = pingDuration * TicksPerSecond / Stopwatch.Frequency;

  // optional: display response-time
  // Console.WriteLine("{0:N2} ms", new TimeSpan(pingTicks).TotalMilliseconds);

  long intPart = (long)ntpData[40] << 24 | (long)ntpData[41] << 16 | (long)ntpData[42] << 8 | ntpData[43];
  long fractPart = (long)ntpData[44] << 24 | (long)ntpData[45] << 16 | (long)ntpData[46] << 8 | ntpData[47];
  long netTicks = intPart * TicksPerSecond + (fractPart * TicksPerSecond >> 32);

  var networkDateTime = new DateTime(TicksTo1900 + netTicks + pingTicks / 2);

  return networkDateTime.ToLocalTime(); // without ToLocalTime() = faster
}

Consiglio di cambiare la riga var networkDateTime = new DateTime (TicksTo1900 + netTicks + pingTicks / 2); da var networkDateTime = new DateTime (ticksTo1900 + netTicks + pingTicks / 2, DateTimeKind.Utc);
Bestter

Ciao Besster, grazie per il tuo suggerimento. Per .ToLocalTime () UTC-Kind non è obbligatorio. Se hai bisogno del timestamp con l'indicatore UTC opzionale, puoi in alternativa chiamare .ToUniversalTime () al ritorno. Motivo: ho usato il costruttore senza DateTimeKind, perché questo è 2-3 tick del processore più velocemente. : D
MaxKlaxx

-1

http://www.codeproject.com/Articles/237501/Windows-Phone-NTP-Client funzionerà bene per Windows Phone.

Aggiunta del codice pertinente

/// <summary>
/// Class for acquiring time via Ntp. Useful for applications in which correct world time must be used and the 
/// clock on the device isn't "trusted."
/// </summary>
public class NtpClient
{
    /// <summary>
    /// Contains the time returned from the Ntp request
    /// </summary>
    public class TimeReceivedEventArgs : EventArgs
    {
        public DateTime CurrentTime { get; internal set; }
    }

    /// <summary>
    /// Subscribe to this event to receive the time acquired by the NTP requests
    /// </summary>
    public event EventHandler<TimeReceivedEventArgs> TimeReceived;

    protected void OnTimeReceived(DateTime time)
    {
        if (TimeReceived != null)
        {
            TimeReceived(this, new TimeReceivedEventArgs() { CurrentTime = time });
        }
    }


    /// <summary>
    /// Not reallu used. I put this here so that I had a list of other NTP servers that could be used. I'll integrate this
    /// information later and will provide method to allow some one to choose an NTP server.
    /// </summary>
    public string[] NtpServerList = new string[]
    {
        "pool.ntp.org ",
        "asia.pool.ntp.org",
        "europe.pool.ntp.org",
        "north-america.pool.ntp.org",
        "oceania.pool.ntp.org",
        "south-america.pool.ntp.org",
        "time-a.nist.gov"
    };

    string _serverName;
    private Socket _socket;

    /// <summary>
    /// Constructor allowing an NTP server to be specified
    /// </summary>
    /// <param name="serverName">the name of the NTP server to be used</param>
    public NtpClient(string serverName)
    {
        _serverName = serverName;
    }


    /// <summary>
    /// 
    /// </summary>
    public NtpClient()
        : this("time-a.nist.gov")
    { }

    /// <summary>
    /// Begins the network communication required to retrieve the time from the NTP server
    /// </summary>
    public void RequestTime()
    {
        byte[] buffer = new byte[48];
        buffer[0] = 0x1B;
        for (var i = 1; i < buffer.Length; ++i)
            buffer[i] = 0;
        DnsEndPoint _endPoint = new DnsEndPoint(_serverName, 123);

        _socket = new Socket(AddressFamily.InterNetwork, SocketType.Dgram, ProtocolType.Udp);
        SocketAsyncEventArgs sArgsConnect = new SocketAsyncEventArgs() { RemoteEndPoint = _endPoint };
        sArgsConnect.Completed += (o, e) =>
        {
            if (e.SocketError == SocketError.Success)
            {
                SocketAsyncEventArgs sArgs = new SocketAsyncEventArgs() { RemoteEndPoint = _endPoint };
                sArgs.Completed +=
                    new EventHandler<SocketAsyncEventArgs>(sArgs_Completed);
                sArgs.SetBuffer(buffer, 0, buffer.Length);
                sArgs.UserToken = buffer;
                _socket.SendAsync(sArgs);
            }
        };
        _socket.ConnectAsync(sArgsConnect);

    }

    void sArgs_Completed(object sender, SocketAsyncEventArgs e)
    {
        if (e.SocketError == SocketError.Success)
        {
            byte[] buffer = (byte[])e.Buffer;
            SocketAsyncEventArgs sArgs = new SocketAsyncEventArgs();
            sArgs.RemoteEndPoint = e.RemoteEndPoint;

            sArgs.SetBuffer(buffer, 0, buffer.Length);
            sArgs.Completed += (o, a) =>
            {
                if (a.SocketError == SocketError.Success)
                {
                    byte[] timeData = a.Buffer;

                    ulong hTime = 0;
                    ulong lTime = 0;

                    for (var i = 40; i <= 43; ++i)
                        hTime = hTime << 8 | buffer[i];
                    for (var i = 44; i <= 47; ++i)
                        lTime = lTime << 8 | buffer[i];
                    ulong milliseconds = (hTime * 1000 + (lTime * 1000) / 0x100000000L);

                    TimeSpan timeSpan =
                        TimeSpan.FromTicks((long)milliseconds * TimeSpan.TicksPerMillisecond);
                    var currentTime = new DateTime(1900, 1, 1) + timeSpan;
                    OnTimeReceived(currentTime);

                }
            };
            _socket.ReceiveAsync(sArgs);
        }
    }
}

Utilizzo:

public partial class MainPage : PhoneApplicationPage
{
    private NtpClient _ntpClient;
    public MainPage()
    {
        InitializeComponent();
        _ntpClient = new NtpClient();
        _ntpClient.TimeReceived += new EventHandler<NtpClient.TimeReceivedEventArgs>(_ntpClient_TimeReceived);
    }

    void _ntpClient_TimeReceived(object sender, NtpClient.TimeReceivedEventArgs e)
    {
        this.Dispatcher.BeginInvoke(() =>
                                        {
                                            txtCurrentTime.Text = e.CurrentTime.ToLongTimeString();
                                            txtSystemTime.Text = DateTime.Now.ToUniversalTime().ToLongTimeString();
                                        });
    }

    private void UpdateTimeButton_Click(object sender, RoutedEventArgs e)
    {
        _ntpClient.RequestTime();
    }
}

Socketè un IDisposable. Dovresti progettare la tua classe con questo in mente e fornire un modo per rilasciare il socket sia durante il normale utilizzo che ogni volta che viene sollevata un'eccezione. Questo codice causa perdite di memoria
gfache
Utilizzando il nostro sito, riconosci di aver letto e compreso le nostre Informativa sui cookie e Informativa sulla privacy.
Licensed under cc by-sa 3.0 with attribution required.