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JavaScript

SSL Server Example

See more Socket/SSL/TLS Examples

Demonstrates how to create an SSL socket for accepting connections. This example is *very* simple in that it will create an SSL socket for accepting a single connection. It will read a message from the client, send a reply, and exit.
Note
This example is intended for running within a Chilkat.Js embedded JavaScript engine. All Chilkat JavaScript examples require Chilkat v11.4.0 or greater.
JavaScript
var success = false;

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

var listenSslSocket = new CkSocket();

// An SSL server needs a digital certificate.  This example loads it from a PFX file.

// Create an instance of a certificate store object, load a PFX file,
// locate the certificate we need, and use it.
// (a PFX file may contain more than one certificate.)
var certStore = new CkCertStore();
// The 1st argument is the filename, the 2nd arg is the 
// PFX file's password:
success = certStore.LoadPfxFile("chilkat.pfx","test");
if (success == false) {
    console.log(certStore.LastErrorText);
    return;
}

// Find the certificate to be used for SSL:
var jsonCN = new CkJsonObject();
jsonCN.UpdateString("CN","example.com");

var cert = new CkCert();
success = certStore.FindCert(jsonCN,cert);
if (success == false) {
    console.log(certStore.LastErrorText);
    return;
}

// Use the certificate:
success = listenSslSocket.InitSslServer(cert);
if (success == false) {
    console.log(listenSslSocket.LastErrorText);
    return;
}

// Bind and listen on a port:
var myPort = 8123;
// Allow for a max of 5 queued connect requests.
var backLog = 5;
success = listenSslSocket.BindAndListen(myPort,backLog);
if (success == false) {
    console.log(listenSslSocket.LastErrorText);
    return;
}

// If accepting an SSL/TLS connection, the SSL handshake is part of the connection
// establishment process. This involves a few back-and-forth messages between the 
// client and server to establish algorithms and a shared key to create the secure 
// channel. The sending and receiving of these messages are governed by the 
// MaxReadIdleMs and MaxSendIdleMs properties. If these properties are set to 0 
// (and this is the default unless changed by your application), then the 
// AcceptNext can hang indefinitely during the SSL handshake process. 
// Make sure these properties are set to appropriate values before calling AcceptNext.

// Set a 10 second max for waiting to read/write.  This is for the SSL/TLS handshake establishment.
listenSslSocket.MaxReadIdleMs = 10000;
listenSslSocket.MaxSendIdleMs = 10000;

// Accept a single client connection and establish the secure SSL/TLS channel:
var maxWaitMillisec = 20000;
var clientSock = new CkSocket();
success = listenSslSocket.AcceptNext(maxWaitMillisec,clientSock);
if (success == false) {
    console.log(listenSslSocket.LastErrorText);
    return;
}

// The client (in this example) is going to send a "Hello Server! -EOM-" 
// message.  Read it:
var receivedMsg = clientSock.ReceiveUntilMatch("-EOM-");
if (clientSock.LastMethodSuccess == false) {
    console.log(clientSock.LastErrorText);
    return;
}

console.log(receivedMsg);

// Send a "Hello Client! -EOM-" message:
success = clientSock.SendString("Hello Client! -EOM-");
if (success == false) {
    console.log(clientSock.LastErrorText);
    return;
}

// Close the connection with the client
// Wait a max of 20 seconds (20000 millsec)
success = clientSock.Close(20000);