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(JavaScript) Add Private Key to Java Keystore
Adds a private key to an existing Java keystore.
var success = false;
// This requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
var jks = new CkJavaKeyStore();
var jksPassword = "myJksPassword";
var jksPath = "/someDir/keyStore.jks";
// Load the Java keystore from a file.
success = jks.LoadFile(jksPassword,jksPath);
if (success !== true) {
console.log(jks.LastErrorText);
return;
}
// A JKS private key entry consists of both the private key,
// it's associated certificate (which contains the matching public key
// within the X.509 of the certificate), and the certificates in the
// chain of authentication to the root.
//
// Therefore, to add a private key entry to a JKS requires
// a Chilkat certificate object that has a private key and which also
// has the certificate chain (up to the root) available.
// There are many ways to get a Chilkat certificate object
// that contains (within it) the private key and the certificate chain
// This example will show two possibilities:
// (1) Where the cert and issuing root are provided in PEM format in .crt files,
// and the private key is also provided in unencrypted PEM format (.key file).
// (2) Where the cert, private key, and issuing root are provided in a single PFX.
// First for the .crt / .key files:
var cert = new CkCert();
// Chilkat will automatically determine the format of the cert file and load it correctly.
success = cert.LoadFromFile("/mycerts/alice.crt");
if (success !== true) {
console.log(cert.LastErrorText);
return;
}
// Certificates required for building the chain of authentication can be
// added to an XML certificate vault object, and then provided as
// a source for obtaining certs when building the chain.
var certVault = new CkXmlCertVault();
success = certVault.AddCertFile("/mycerts/ca.crt");
if (success !== true) {
console.log(certVault.LastErrorText);
return;
}
success = cert.UseCertVault(certVault);
if (success !== true) {
console.log(cert.LastErrorText);
return;
}
// Now provide the associated private key to the certificate object.
// The Chilkat private key class provides methods for loading from many formats (both
// encrypted and unencrypted).
var privKey = new CkPrivateKey();
success = privKey.LoadPemFile("/mycerts/alice.key");
if (success !== true) {
console.log(privKey.LastErrorText);
return;
}
// Provide the certificate object with the private key:
success = cert.SetPrivateKey(privKey);
if (success !== true) {
console.log(cert.LastErrorText);
return;
}
// Our certificate object now contains all that we need to add it as a private key entry
// to the Java keystore:
var alias = "alice";
success = jks.AddPrivateKey(cert,alias,jksPassword);
if (success !== true) {
console.log(jks.LastErrorText);
return;
}
// Write the updated JKS, which contains the new private key entry w/ certificate chain.
success = jks.ToFile(jksPassword,jksPath);
if (success !== true) {
console.log(jks.LastErrorText);
return;
}
console.log("Added new private key entry (from .crt and .key files) to the JKS!");
// Now let's add a new private key entry from a PFX that contains a single
// private key with associated cert and cert chain.
var pfx = new CkPfx();
success = pfx.LoadPfxFile("/myPfxFiles/my.pfx","pfxPassword");
if (success !== true) {
console.log(pfx.LastErrorText);
return;
}
// This is easy -- simply add the PFX to the JKS
alias = "bob";
success = jks.AddPfx(pfx,alias,jksPassword);
if (success !== true) {
console.log(jks.LastErrorText);
return;
}
// Write the updated JKS, which contains the new private key entry w/ certificate chain
// that came from the PFX.
success = jks.ToFile(jksPassword,jksPath);
if (success !== true) {
console.log(jks.LastErrorText);
return;
}
console.log("Added new private key entry (from PFX) to the JKS!");
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