Unicode C++
Unicode C++
A3/A4 Certificate to Create and Verify an Opaque PKCS7/CMS Signature
See more Digital Signatures Examples
Demonstrates how to use an A3 or A4 certificate w/ private key on a smartcard or token to create a PKCS7 opaque signature, and also how to verify an opaque signature.An opaque signature is different than a detached PKCS7 signature in that it contains the original data. Verifying an opaque signature retrieves the original content.
Chilkat Unicode C++ Downloads
#include <CkCrypt2W.h>
#include <CkCertW.h>
void ChilkatSample(void)
{
bool success = false;
// This example assumes the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
CkCrypt2W crypt;
// A certificate and private key is needed to create a signature.
// Chilkat provides many different ways to load a certificate and private key, such
// as from a smartcards and hardware tokens, PFX/.p12, Java keystore, JWK, Windows registry-based certificate stores, and other sources.
// This example will load the default certificate from the smartcard that is currently in
// the smartcard reader.
CkCertW cert;
// If the smartcard or token requires a PIN, we can set it here to avoid the dialog...
cert.put_SmartCardPin(L"000000");
success = cert.LoadFromSmartcard(L"");
if (success != true) {
wprintf(L"%s\n",cert.lastErrorText());
return;
}
// Tell it to use the cert and private key we've loaded.
success = crypt.SetSigningCert(cert);
if (success != true) {
wprintf(L"%s\n",crypt.lastErrorText());
return;
}
// Indicate we want the opaque signature in base64 format:
crypt.put_EncodingMode(L"base64");
// Sign the string using the "utf-8" byte representation:
crypt.put_Charset(L"utf-8");
// Create the opaque signature:
const wchar_t *originalData = L"This is the string to be signed.";
const wchar_t *opaqueSig = crypt.opaqueSignStringENC(originalData);
if (crypt.get_LastMethodSuccess() != true) {
wprintf(L"%s\n",crypt.lastErrorText());
return;
}
wprintf(L"%s\n",opaqueSig);
// The output looks like this:
// MIIPgQYJKoZIhvcNAQcCoIIPcjCCD24CAQExCzAJBgUrDgMCGgUAMC8GCSqGSIb3DQEHAaAiBCBUaGlzIGlzIHRoZSBzdHJpbmcgdG8gYmUgc...
// ----------------------------------------------------------------------------------------------
// Now let's verify the signature and retrieve the original data.
// We'll use a new Crypt2 object to keep things completely separate...
CkCrypt2W vCrypt;
// We only need the certificate to verify a signature (and extract the data from
// an opaque signature). The public key is always embedded within a certificate.
success = vCrypt.SetVerifyCert(cert);
if (success != true) {
wprintf(L"%s\n",vCrypt.lastErrorText());
return;
}
vCrypt.put_EncodingMode(L"base64");
vCrypt.put_Charset(L"utf-8");
const wchar_t *extractedData = vCrypt.opaqueVerifyStringENC(opaqueSig);
if (vCrypt.get_LastMethodSuccess() != true) {
wprintf(L"%s\n",vCrypt.lastErrorText());
return;
}
wprintf(L"The extracted data: %s\n",extractedData);
// The output is:
// The extracted data: This is the string to be signed.
}