(Unicode C++) Generate RSA Key and Export to PKCS1 / PKCS8

Unicode C++ example code showing how to generate an RSA public/private key and save to PKCS1 and PKCS8 format files. In a PKCS1 or PKCS8 formatted file, the key is stored in binary ASN.1 format (and ASN.1 is itself written according to DER -- Distinguished Encoding Rules). A PEM file simply contains the binary ASN.1 base64 encoded and delimited by BEGIN/END lines. PKCS1 format files are never encrypted. PKCS8 can be encrypted or unencrypted. Public keys are never encrypted (there is no need). Private keys *should* always be encrypted - unless perhaps the unencrypted private key is obtained and itself stored in some sort of secure place.

Chilkat C/C++ Library Downloads
MS Visual C/C++ Linux/CentOS C/C++ Alpine Linux C/C++ MAC OS X C/C++	armhf/aarch64 C/C++ C++ Builder iOS C/C++ Android C/C++	Solaris C/C++ MinGW C/C++

#include <CkRsaW.h>
#include <CkPublicKeyW.h>
#include <CkPrivateKeyW.h>

void ChilkatSample(void)
    {
    // This example assumes the Chilkat API to have been previously unlocked.
    // See Global Unlock Sample for sample code.

    CkRsaW rsa;

    // Generate a 2048-bit key.  Chilkat RSA supports
    // key sizes ranging from 512 bits to 8192 bits.
    bool success = rsa.GenerateKey(2048);
    if (success != true) {
        wprintf(L"%s\n",rsa.lastErrorText());
        return;
    }

    // Get the public and private key parts:
    CkPublicKeyW *pubKey = rsa.ExportPublicKeyObj();
    CkPrivateKeyW *privKey = rsa.ExportPrivateKeyObj();

    // Get the public key as a PKCS8 PEM string
    const wchar_t *pubKeyPem = pubKey->getPem(false);
    wprintf(L"%s\n",pubKeyPem);

    // Get the public key in PKCS8 format, in a Base64 encoded string.
    const wchar_t *pubKeyPkcs8Base64 = pubKey->getEncoded(false,L"base64");
    wprintf(L"%s\n",pubKeyPkcs8Base64);

    // Get the public key in PKCS1 format, in a Base64 encoded string.
    const wchar_t *pubKeyPkcs1Base64 = pubKey->getEncoded(true,L"base64");
    wprintf(L"%s\n",pubKeyPkcs1Base64);

    // Get the private key in a PKCS8 PEM string.
    const wchar_t *privKeyPem = privKey->getPkcs8Pem();
    wprintf(L"%s\n",privKeyPem);

    // Get the private key in a PKCS8 encrypted PEM string.
    const wchar_t *privKeyEncPem = privKey->getPkcs8EncryptedPem(L"myPassword");
    wprintf(L"%s\n",privKeyEncPem);

    // Get the private key in PKCS1 Base64 format
    const wchar_t *privKeyPkcs1Base64 = privKey->getPkcs1ENC(L"base64");
    wprintf(L"%s\n",privKeyPkcs1Base64);

    // Get the private key in PKCS8 Base64 format
    const wchar_t *privKeyPkcs8Base64 = privKey->getPkcs8ENC(L"base64");
    wprintf(L"%s\n",privKeyPkcs8Base64);

    // Save to PKCS1 / PKCS8 / PEM files...

    // Save the public key to PKCS8 binary DER
    success = pubKey->SaveDerFile(false,L"pubKey_pkcs8.der");

    // Save the public key to PKCS1 binary DER
    success = pubKey->SaveDerFile(L"pubKey_pkcs1.der");

    // Save the private key to unencrypted binary PKCS1 DER.
    // Note: PKCS1 is never found in an encrypted format. 
    success = privKey->SavePkcs1File(L"privKey_pkcs1.der");

    // Save the private key to unencrypted binary PKCS8
    success = privKey->SavePkcs8File(L"privKey_pkcs8.der");

    // Save the private key to encrypted binary PKCS8
    success = privKey->SavePkcs8EncryptedFile(L"myPassword",L"privKey_enc_pkcs8.der");

    // Save the private key to unencrypted PKCS8 PEM
    success = privKey->SavePkcs8PemFile(L"privKey.pem");

    // Save the private key to encrypted PKCS8 PEM
    success = privKey->SavePkcs8EncryptedPemFile(L"myPassword",L"privKey_enc.pem");

    delete pubKey;
    delete privKey;
    }