(C# UWP/WinRT) TCP Socket through SSH Tunnel (Port Forwarding)

Demonstrates using Chilkat Socket to communicate to a TCP service through an SSH tunnel. This example will connect to an NIST time server and (using the old Time Protocol (RFC 868)), will read the current GMT time.

Note: This is not necessarily a recommended means for getting the current date/time. The most commonly used time protocol is the Network Time Protocol (RFC-1305). The intent of this example is to show how TCP communications can occur through an SSH tunnel.

Chilkat Universal Windows Platform (UWP) / WinRT Downloads Chilkat for the Universal Windows Platform (UWP)

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

Chilkat.Socket tunnel = new Chilkat.Socket();

string sshHostname = "sftp.example.com";
int sshPort = 22;

// Connect to an SSH server and establish the SSH tunnel:
bool success = await tunnel.SshOpenTunnelAsync(sshHostname,sshPort);
if (success != true) {
    Debug.WriteLine(tunnel.LastErrorText);
    return;
}

// Authenticate with the SSH server via a login/password
// or with a public key.
// This example demonstrates SSH password authentication.
success = await tunnel.SshAuthenticatePwAsync("mySshLogin","mySshPassword");
if (success != true) {
    Debug.WriteLine(tunnel.LastErrorText);
    return;
}

// OK, the SSH tunnel is setup.  Now open a channel within the tunnel.
// Once the channel is obtained, the Socket API may
// be used exactly the same as usual, except all communications
// are sent through the channel in the SSH tunnel.
// Any number of channels may be created from the same SSH tunnel.
// Multiple channels may coexist at the same time.

// Connect to an NIST time server and read the current date/time
Chilkat.Socket channel = null;
int maxWaitMs = 4000;
bool useTls = false;
channel = await tunnel.SshOpenChannelAsync("time-c.nist.gov",37,useTls,maxWaitMs);
if (tunnel.LastMethodSuccess == false) {
    Debug.WriteLine(tunnel.LastErrorText);
    return;
}

// The time server will send a big-endian 32-bit integer representing
// the number of seconds since since 00:00 (midnight) 1 January 1900 GMT.
// The ReceiveInt32 method will receive a 4-byte integer, but returns
// true or false to indicate success.  If successful, the integer
// is obtained via the ReceivedInt property.
bool bigEndian = true;
success = await channel.ReceiveInt32Async(bigEndian);
if (success != true) {
    Debug.WriteLine(channel.LastErrorText);

    return;
}

Chilkat.CkDateTime dt = new Chilkat.CkDateTime();
dt.SetFromNtpTime(channel.ReceivedInt);

// Show the current local date/time
bool bLocalTime = true;
Debug.WriteLine("Current local date/time: " + dt.GetAsRfc822(bLocalTime));

// Close the SSH channel.
success = await channel.CloseAsync(maxWaitMs);
if (success != true) {
    Debug.WriteLine(channel.LastErrorText);

    return;
}

// It is possible to create a new channel from the existing SSH tunnel for the next connection:
// Any number of channels may be created from the same SSH tunnel.
// Multiple channels may coexist at the same time.
channel = await tunnel.SshOpenChannelAsync("time-a.nist.gov",37,useTls,maxWaitMs);
if (tunnel.LastMethodSuccess == false) {
    Debug.WriteLine(tunnel.LastErrorText);
    return;
}

// Review the LastErrorText to see that the connection was made via the SSH tunnel:
Debug.WriteLine(tunnel.LastErrorText);

// Close the connection to time-a.nist.gov.  This is actually closing our channel
// within the SSH tunnel, but keeps the tunnel open for the next port-forwarded connection.
success = await channel.CloseAsync(maxWaitMs);
if (success != true) {
    Debug.WriteLine(channel.LastErrorText);

    return;
}

// Finally, close the SSH tunnel.
success = await tunnel.SshCloseTunnelAsync();
if (success != true) {
    Debug.WriteLine(tunnel.LastErrorText);
    return;
}

Debug.WriteLine("TCP SSH tunneling example completed.");