Unicode C++
Unicode C++
PKCS11 Sign PDF using Certificate and Private Key on Smart Card / USB Token
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Sample code showing how to use PKCS11 to sign a PDF with a certificate and private key stored on a smart card or USB token.Note: This example requires Chilkat v9.5.0.96 or later.
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#include <CkPkcs11W.h>
#include <CkCertW.h>
#include <CkPdfW.h>
#include <CkJsonObjectW.h>
void ChilkatSample(void)
{
bool success = false;
// This example requires the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
// Note: Chilkat's PKCS11 implementation runs on Windows, Linux, Mac OS X, and other supported operating systems.
CkPkcs11W pkcs11;
pkcs11.put_SharedLibPath(L"C:/Program Files (x86)/Gemalto/IDGo 800 PKCS#11/IDPrimePKCS1164.dll");
const wchar_t *pin = L"0000";
int userType = 1;
// Establish a PKCS11 logged-on session using the driver (.so, .dylib, or .dll) as specified in the SharedLibPath above.
success = pkcs11.QuickSession(userType,pin);
if (success == false) {
wprintf(L"%s\n",pkcs11.lastErrorText());
return;
}
// Get the certificate (on the smart card) that has a private key.
// There are other ways to locate a certificate on the HSM.
// This example assumes there is a single certificate w/ private key.
CkCertW cert;
success = pkcs11.FindCert(L"privateKey",L"",cert);
if (success == true) {
wprintf(L"Cert with private key: %s\n",cert.subjectCN());
}
else {
wprintf(L"No certificates having a private key were found.\n");
success = pkcs11.CloseSession();
return;
}
// --------------------------------------------------------------------------
// At this point, we have the cert to be used for signing.
// Our PDF signing code is the same as for a cert obtained from any other source..
CkPdfW pdf;
// Load a PDF to be signed.
success = pdf.LoadFile(L"qa_data/pdf/hello.pdf");
if (success == false) {
wprintf(L"%s\n",pdf.lastErrorText());
success = pkcs11.CloseSession();
return;
}
CkJsonObjectW json;
json.UpdateInt(L"page",1);
json.UpdateString(L"appearance.y",L"top");
json.UpdateString(L"appearance.x",L"left");
json.UpdateString(L"appearance.fontScale",L"10.0");
json.UpdateString(L"signingAlgorithm",L"pss");
json.UpdateString(L"hashAlgorithm",L"sha256");
int i = 0;
json.put_I(i);
json.UpdateString(L"appearance.text[i]",L"Digitaly signed by: Xyz Widgets, Inc.");
i = i + 1;
json.put_I(i);
json.UpdateString(L"appearance.text[i]",L"current_dt");
i = i + 1;
json.put_I(i);
json.UpdateString(L"appearance.text[i]",L"blah blah blah");
// The certificate is internally linked to the Pkcs11 object, which is currently in an authenticated session.
success = pdf.SetSigningCert(cert);
success = pdf.SignPdf(json,L"qa_output/out.pdf");
if (success == false) {
wprintf(L"%s\n",pdf.lastErrorText());
success = pkcs11.CloseSession();
return;
}
// --------------------------------------------------------------------------
// Revert to an unauthenticated session by calling Logout.
success = pkcs11.Logout();
if (success == false) {
wprintf(L"%s\n",pkcs11.lastErrorText());
success = pkcs11.CloseSession();
return;
}
// When finished, close the session.
// It is important to close the session (memory leaks will occur if the session is not properly closed).
success = pkcs11.CloseSession();
if (success == false) {
wprintf(L"%s\n",pkcs11.lastErrorText());
return;
}
wprintf(L"Success.\n");
}