Unicode C
Unicode C
Use a Smart Card Certificate + Private Key for SSL/TLS Authentication
See more ScMinidriver Examples
Demonstrates how to use a certificate + private key located on a smart card for the TLS client certificate in an HTTPS request.Note: This example only works on Windows. ScMinidriver is a Windows-specific smart card and USB token minidriver that enables smart card authentication and cryptographic operations within Windows operating systems.
Chilkat Unicode C Downloads
#include <C_CkScMinidriverW.h>
#include <C_CkCertW.h>
#include <C_CkHttpW.h>
void ChilkatSample(void)
{
BOOL success;
HCkScMinidriverW scmd;
const wchar_t *readerName;
int retval;
const wchar_t *certPart;
const wchar_t *partValue;
HCkCertW cert;
HCkHttpW http;
const wchar_t *responseBody;
success = FALSE;
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
scmd = CkScMinidriverW_Create();
// Reader names (smart card readers or USB tokens) can be discovered
// via List Readers or Find Smart Cards
readerName = L"SCM Microsystems Inc. SCR33x USB Smart Card Reader 0";
success = CkScMinidriverW_AcquireContext(scmd,readerName);
if (success == FALSE) {
wprintf(L"%s\n",CkScMinidriverW_lastErrorText(scmd));
CkScMinidriverW_Dispose(scmd);
return;
}
// If successful, the name of the currently inserted smart card is available:
wprintf(L"Card name: %s\n",CkScMinidriverW_cardName(scmd));
// If desired, perform regular PIN authentication with the smartcard.
// For more details about smart card PIN authentication, see the Smart Card PIN Authentication Example
retval = CkScMinidriverW_PinAuthenticate(scmd,L"user",L"000000");
if (retval != 0) {
wprintf(L"PIN Authentication failed.\n");
}
// You can find a cerficate using any of the following certificate parts:
// "subjectDN" -- The full distinguished name of the cert.
// "subjectDN_withTags" -- Same as above, but in a format that includes the subject part tags, such as the "CN=" in "CN=something"
// "subjectCN" -- The common name part (CN) of the certificate's subject.
// "serial" -- The certificate serial number.
// "serial:issuerCN" -- The certificate serial number + the issuer's common name, delimited with a colon char.
// These are the same certificate parts that can be retrieved by listing certificates on the smart card (or USB token).
// See List Certificates on Smart Card Example
certPart = L"subjectCN";
partValue = L"BadSSL Client Certificate";
// If the certificate is found, it is loaded into the cert object.
// Note: We imported this certificate from a .p12/.pfx using this Example to Import a .pfx/.p12 onto a Smart Card
cert = CkCertW_Create();
success = CkScMinidriverW_FindCert(scmd,certPart,partValue,cert);
if (success == FALSE) {
wprintf(L"Failed to find the certificate.\n");
CkScMinidriverW_DeleteContext(scmd);
CkScMinidriverW_Dispose(scmd);
CkCertW_Dispose(cert);
return;
}
wprintf(L"Successfully loaded the cert object from the smart card / USB token.\n");
// Note: When successful, the cert object is internally linked to the ScMinidriver object's authenticated session.
// The cert object can now be used to sign or do other cryptographic operations that occur on the smart card / USB token.
// If your application calls PinDeauthenticate or DeleteContext, the cert will no longer be able to sign on the smart card
// because the smart card ScMinidriver session will no longer be authenticated or deleted.
// ------------------------------------------------------------------------------------------------------------
// Send an HTTPS request to https://client.badssl.com
// https://client.badssl.com (part of the badssl.com service) lets you test authentication using client SSL certificates.
// The client certificate can be downloaded from https://badssl.com/download/.
// This server returns 200 OK if the correct client certificate is provided, and 400 Bad Request otherwise.
http = CkHttpW_Create();
// Provide the client certificate (linked internally to our authenticated smartcard session)
success = CkHttpW_SetSslClientCert(http,cert);
if (success == FALSE) {
wprintf(L"%s\n",CkHttpW_lastErrorText(http));
CkScMinidriverW_DeleteContext(scmd);
CkScMinidriverW_Dispose(scmd);
CkCertW_Dispose(cert);
CkHttpW_Dispose(http);
return;
}
responseBody = CkHttpW_quickGetStr(http,L"https://client.badssl.com/");
if (CkHttpW_getLastMethodSuccess(http) == FALSE) {
wprintf(L"%s\n",CkHttpW_lastErrorText(http));
CkScMinidriverW_DeleteContext(scmd);
CkScMinidriverW_Dispose(scmd);
CkCertW_Dispose(cert);
CkHttpW_Dispose(http);
return;
}
wprintf(L"Response status code: %d\n",CkHttpW_getLastStatus(http));
wprintf(L"Response body: \n");
wprintf(L"%s\n",responseBody);
// ------------------------------------------------------------------------------------------------------------
// Cleanup our ScMinidriver session...
// When finished with operations that required authentication, you may if you wish, deauthenticate the session.
success = CkScMinidriverW_PinDeauthenticate(scmd,L"user");
if (success == FALSE) {
wprintf(L"%s\n",CkScMinidriverW_lastErrorText(scmd));
}
// Delete the context when finished with the card.
success = CkScMinidriverW_DeleteContext(scmd);
if (success == FALSE) {
wprintf(L"%s\n",CkScMinidriverW_lastErrorText(scmd));
}
CkScMinidriverW_Dispose(scmd);
CkCertW_Dispose(cert);
CkHttpW_Dispose(http);
}