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The following code by Alejandro Magencio generate key pairs, encrypts and decrypts files with the Microsoft CryptoAPI works well, but only for files smaller than the key: http://blogs.msdn.com/b/alejacma/archive/2008/01/28/how-to-generate-key-pairs-encrypt-and-decrypt-data-with-cryptoapi.aspx

I am trying to extend this code in order to encrypt and decrypt larger files.

Here is the complete listing as far as I got. It encrypts but on the second time in the decrypt loop I get a bad data error.

Any help will be greatly appreciated and I promise to post the full working code.

Thanks in advance!

/*
    EncryptDecrypt.c

    This program was compiled on Windows 7 64-bit with Visual Studio 2013 Desktop Express. To run:

    EncryptDecrypt.exe k C:\temp\myprivate.key C:\temp\mypublic.key

    EncryptDecrypt.exe e C:\temp\myprivate.key C:\temp\todo.txt C:\temp\done.txt

    EncryptDecrypt.exe d C:\temp\mypublic.key C:\temp\done.txt C:\temp\redone.txt  
*/
#include "stdio.h"
#include "conio.h"
#include "windows.h"
#include "wincrypt.h"
#include "tchar.h"

#define ENCRYPTEDLENGTH (128)
#define MAXSIZE (128 - 11) // size of chunk we can use for this program

// FUNCTIONS
int Keys(_TCHAR* strPublicKeyFile, _TCHAR* strPrivateKeyFile);
int Encrypt(_TCHAR* strPublicKeyFile, _TCHAR* strPlainFile, _TCHAR* strEncryptedFile);
int Decrypt(_TCHAR* strPrivateKeyFile, _TCHAR* strEncryptedFile, _TCHAR* strPlainFile);

// Main
int _tmain(int argc, _TCHAR* argv[])
{
    int iResult = 0;

    if ((argc == 4) && (_tcscmp(argv[1], _T("k")) == 0))
    {
        // Generate a new key pair
        iResult = Keys(argv[2], argv[3]);
    }
    else if ((argc == 5) && (_tcscmp(argv[1], _T("e")) == 0))
    {
        // Encrypt
        iResult = Encrypt(argv[2], argv[3], argv[4]);
    }
    else if ((argc == 5) && (_tcscmp(argv[1], _T("d")) == 0))
    {
        // Decrypt
        iResult = Decrypt(argv[2], argv[3], argv[4]);
    }
else
 {
        // Show usage
        _tprintf(_T("Usage:\n"));
        _tprintf(_T("   - New key pair: EncryptDecrypt k public_key_file private_key_file\n"));
        _tprintf(_T("   - Encrypt:      EncryptDecrypt e public_key_file plain_file encrypted_file\n"));
        _tprintf(_T("   - Decrypt:      EncryptDecrypt d private_key_file encrypted_file plain_file\n"));
        iResult = 1;
    }

    _tprintf(_T("\n<< Press any key to continue >>\n"));
    _getch();

    return iResult;
}
// End of Main

// Keys
int Keys(_TCHAR* strPublicKeyFile, _TCHAR* strPrivateKeyFile)
 {
    HCRYPTPROV hCryptProv = NULL;
    HCRYPTKEY hKey = NULL;
    DWORD dwPublicKeyLen = 0;
    DWORD dwPrivateKeyLen = 0;
    BYTE* pbPublicKey = NULL;
    BYTE* pbPrivateKey = NULL;
    HANDLE hPublicKeyFile = NULL;
    HANDLE hPrivateKeyFile = NULL;
    DWORD lpNumberOfBytesWritten = 0;

    __try
    {
        // Acquire access to key container
        _tprintf(_T("CryptAcquireContext...\n"));
        if (!CryptAcquireContext(&hCryptProv, _T("ACMEENCRYPT.EncryptDecrypt"), NULL, PROV_RSA_FULL, 0))
        {
            // Error
            _tprintf(_T("(ref 12) CryptAcquireContext error 0x%x\n"), GetLastError());

            // Try to create a new key container
            if (!CryptAcquireContext(&hCryptProv, _T("ACMEENCRYPT.EncryptDecrypt"), NULL, PROV_RSA_FULL, CRYPT_NEWKEYSET))
            {
                // Error
                _tprintf(_T("(ref 13) CryptAcquireContext error 0x%x\n"), GetLastError());
                return 1;
            }
        }

        // Generate new key pair
        _tprintf(_T("CryptGenKey...\n"));
        if (!CryptGenKey(hCryptProv, AT_KEYEXCHANGE, CRYPT_ARCHIVABLE, &hKey))
        {
            // Error
            _tprintf(_T("CryptGenKey error 0x%x\n"), GetLastError());
            return 1;
        }

        // Get public key size
        _tprintf(_T("CryptExportKey...\n"));
        if (!CryptExportKey(hKey, NULL, PUBLICKEYBLOB, 0, NULL, &dwPublicKeyLen))
        {
            // Error
            _tprintf(_T("CryptExportKey error 0x%x\n"), GetLastError());
            return 1;
        }

        // Create a buffer for the public key
        _tprintf(_T("malloc...\n"));
        if (!(pbPublicKey = (BYTE *)malloc(dwPublicKeyLen)))
        {
            // Error
            _tprintf(_T("(ref 29) malloc error 0x%x\n"), GetLastError());
            return 1;
        }

        // Get public key
        _tprintf(_T("CryptExportKey...\n"));
        if (!CryptExportKey(hKey, NULL, PUBLICKEYBLOB, 0, pbPublicKey, &dwPublicKeyLen))
        {
            // Error
            _tprintf(_T("CryptExportKey error 0x%x\n"), GetLastError());
            return 1;
        }

        // Get private key size
        _tprintf(_T("CryptExportKey...\n"));
        if (!CryptExportKey(hKey, NULL, PRIVATEKEYBLOB, 0, NULL, &dwPrivateKeyLen))
        {
            // Error
            _tprintf(_T("CryptExportKey error 0x%x\n"), GetLastError());
            return 1;
        }

        // Create a buffer for the private key
        _tprintf(_T("malloc...\n"));
        if (!(pbPrivateKey = (BYTE *)malloc(dwPrivateKeyLen)))
    {
            // Error
        _tprintf(_T("(ref 30) malloc error 0x%x\n"), GetLastError());
        return 1;
    }

        // Get private key
        _tprintf(_T("CryptExportKey...\n"));
        if (!CryptExportKey(hKey, NULL, PRIVATEKEYBLOB, 0, pbPrivateKey, &dwPrivateKeyLen))
        {
            // Error
            _tprintf(_T("CryptExportKey error 0x%x\n"), GetLastError());
            return 1;
        }

        // Create a file to save the public key
        _tprintf(_T("CreateFile...\n"));
        if ((hPublicKeyFile = CreateFile(
            strPublicKeyFile,
            GENERIC_WRITE,
            0,
            NULL,
            CREATE_ALWAYS,
            FILE_ATTRIBUTE_NORMAL,
            NULL
            )) == INVALID_HANDLE_VALUE)
        {
            // Error
            _tprintf(_T("(ref 21) CreateFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Write the public key to the file
        _tprintf(_T("WriteFile...\n"));
        if (!WriteFile(
            hPublicKeyFile,
            (LPCVOID)pbPublicKey,
            dwPublicKeyLen,
            &lpNumberOfBytesWritten,
            NULL
            ))
        {
            // Error
            _tprintf(_T("(ref 51) WriteFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Create a file to save the private key
        _tprintf(_T("CreateFile...\n"));
        if ((hPrivateKeyFile = CreateFile(
            strPrivateKeyFile,
            GENERIC_WRITE,
            0,
            NULL,
            CREATE_ALWAYS,
            FILE_ATTRIBUTE_NORMAL,
            NULL
            )) == INVALID_HANDLE_VALUE)
        {
            // Error
            _tprintf(_T("(ref 22) CreateFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Write the private key to the file
        _tprintf(_T("WriteFile...\n"));
        if (!WriteFile(
            hPrivateKeyFile,
            (LPCVOID)pbPrivateKey,
            dwPrivateKeyLen,
            &lpNumberOfBytesWritten,
            NULL
            ))
        {
            // Error
            _tprintf(_T("(ref 52) WriteFile error 0x%x\n"), GetLastError());
            return 1;
        }

        return 0;
    }
    __finally
    {
        // Clean up       
        if (!pbPublicKey) {
            _tprintf(_T("free...\n"));
            free(pbPublicKey);
        }
        if (!pbPrivateKey) {
            _tprintf(_T("free...\n"));
            free(pbPrivateKey);
        }
        if (hPublicKeyFile) {
            _tprintf(_T("CloseHandle...\n"));
            CloseHandle(hPublicKeyFile);
        }
        if (hPrivateKeyFile) {
            _tprintf(_T("CloseHandle...\n"));
            CloseHandle(hPrivateKeyFile);
        }
        if (hKey) {
            _tprintf(_T("CryptDestroyKey...\n"));
            CryptDestroyKey(hKey);
        }
        if (hCryptProv) {
            _tprintf(_T("CryptReleaseContext...\n"));
            CryptReleaseContext(hCryptProv, 0);
        }
    }
}
// End of Keys

// Encrypt
int Encrypt(_TCHAR* strPublicKeyFile, _TCHAR* strPlainFile, _TCHAR* strEncryptedFile)
{
    HCRYPTPROV hCryptProv = NULL;
    HCRYPTKEY hKey = NULL;
    DWORD dwPublicKeyLen = 0;
    DWORD dwDataLen = 0;
    DWORD dwEncryptedLen = 0;
    DWORD myloopcount = 0;
    DWORD mymodulus = 0;
    DWORD i = 0;
    DWORD myencryptedlength = 0;
    DWORD mymaxsize = MAXSIZE;
    BYTE* pbPublicKey = NULL;
    BYTE* pbData = NULL;
    BYTE* pbEncData = NULL;
    HANDLE hPublicKeyFile = NULL;
    HANDLE hEncryptedFile = NULL;
    HANDLE hPlainFile = NULL;
    DWORD lpNumberOfBytesWritten = 0;

    __try
    {
        // Acquire access to key container
        _tprintf(_T("CryptAcquireContext...\n"));
        if (!CryptAcquireContext(&hCryptProv, NULL, NULL, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT))
        {
            // Error
            _tprintf(_T("(ref 9) CryptAcquireContext error 0x%x\n"), GetLastError());
            return 1;
        }

        // Open public key file
        _tprintf(_T("CreateFile...\n"));
        if ((hPublicKeyFile = CreateFile(
            strPublicKeyFile,
            GENERIC_READ,
            FILE_SHARE_READ,
            NULL,
            OPEN_EXISTING,
            FILE_FLAG_SEQUENTIAL_SCAN,
            NULL
            )) == INVALID_HANDLE_VALUE)
        {
            // Error
            _tprintf(_T("(ref 14) CreateFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Get file size
        _tprintf(_T("GetFileSize...\n"));
        if ((dwPublicKeyLen = GetFileSize(hPublicKeyFile, NULL)) == INVALID_FILE_SIZE)
        {
            // Error
            _tprintf(_T("(ref 43) GetFileSize error 0x%x\n"), GetLastError());
            return 1;
        }

        // Create a buffer for the public key
        _tprintf(_T("malloc...\n"));
        if (!(pbPublicKey = (BYTE *)malloc(dwPublicKeyLen)))
        {
            // Error
            _tprintf(_T("(ref 22) malloc error 0x%x\n"), GetLastError());
            return 1;
        }

        // Read public key
        _tprintf(_T("ReadFile...\n"));
        if (!ReadFile(hPublicKeyFile, pbPublicKey, dwPublicKeyLen, &dwPublicKeyLen, NULL))
        {
            // Error
            _tprintf(_T("(ref 31) ReadFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Import public key
        _tprintf(_T("CryptImportKey...\n"));
        if (!CryptImportKey(hCryptProv, pbPublicKey, dwPublicKeyLen, 0, 0, &hKey))
        {
            // Error
            _tprintf(_T("(ref 38) CryptImportKey error 0x%x\n"), GetLastError());
            return 1;
        }

        // Open plain text file
        _tprintf(_T("CreateFile...\n"));
        if ((hPlainFile = CreateFile(
            strPlainFile,
            GENERIC_READ,
            FILE_SHARE_READ,
            NULL,
            OPEN_EXISTING,
            FILE_FLAG_SEQUENTIAL_SCAN,
            NULL
            )) == INVALID_HANDLE_VALUE)
        {
            // Error
            _tprintf(_T("(ref 15) CreateFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Get file size
        _tprintf(_T("GetFileSize...\n"));
        if ((dwDataLen = GetFileSize(hPlainFile, NULL)) == INVALID_FILE_SIZE)
        {
            // Error
            _tprintf(_T("(ref 40) GetFileSize error 0x%x\n"), GetLastError());
            return 1;
        }

        _tprintf(_T("my data length is %d\n"), dwDataLen);
        _tprintf(_T("my max size is %d\n"), MAXSIZE);

        // Get length for encrypted data
        if (!CryptEncrypt(hKey, NULL, TRUE, 0, NULL, &dwEncryptedLen, 0))
        {
            // Error
            _tprintf(_T("(ref 1) CryptEncrypt error 0x%x\n"), GetLastError());
            return 1;
        }

        if (dwDataLen < MAXSIZE)
        {
            // as before... Just one run through.

            // BEGIN OLD BLOCK
            // Create a buffer for the plain text
            _tprintf(_T("malloc...\n"));
            if (!(pbData = (BYTE *)malloc(dwDataLen)))
            {
                // Error
                _tprintf(_T("(ref 23) malloc error 0x%x\n"), GetLastError());
                return 1;
            }

            // Read plain text
            _tprintf(_T("ReadFile...\n"));
            if (!ReadFile(hPlainFile, pbData, dwDataLen, &dwDataLen, NULL))
            {
                // Error
                _tprintf(_T("(ref 32) ReadFile error 0x%x\n"), GetLastError());
                return 1;
            }

            // Next line: dwEncryptedLen is the length of key! Ergo, when decrypting
            //  use 128 instead of MAXSIZE:
            _tprintf(_T("My encrypted length is %d\n"), dwEncryptedLen); 

            // Create a buffer for encrypted data
            _tprintf(_T("realloc...\n"));
            if (!(pbData = (BYTE *)realloc(pbData, dwEncryptedLen)))
            {
                // Error
                _tprintf(_T("(ref 24) malloc error 0x%x\n"), GetLastError());
                return 1;
            }

            // Encrypt data
            if (!CryptEncrypt(hKey, NULL, TRUE, 0, pbData, &dwDataLen, dwEncryptedLen))
            {
                // Error
                _tprintf(_T("(ref 2) CryptEncrypt error 0x%x\n"), GetLastError());
                return 1;
            }

            // Create a file to save the encrypted data
            _tprintf(_T("CreateFile...\n"));
            if ((hEncryptedFile = CreateFile(
                strEncryptedFile,
                GENERIC_WRITE,
                0,
                NULL,
                CREATE_ALWAYS,          // will truncate if already existing
                FILE_ATTRIBUTE_NORMAL,
                NULL
                )) == INVALID_HANDLE_VALUE)
            {
                // Error
                _tprintf(_T("(ref 16) CreateFile error 0x%x\n"), GetLastError());
                return 1;
            }

            // Write the public key to the file
            _tprintf(_T("WriteFile...\n"));
            if (!WriteFile(
                hEncryptedFile,
                (LPCVOID)pbData,
                dwDataLen,
                &lpNumberOfBytesWritten,
                NULL
                ))
            {
                // Error
                _tprintf(_T("(ref 47) WriteFile error 0x%x\n"), GetLastError());
                return 1;
            }
            // END OLD BLOCK
            return 0;
        }
        else
        {
            // File is bigger than key.

            // Figure out how many times we will need to loop.
            myloopcount = (DWORD)(dwDataLen / MAXSIZE);
            _tprintf(_T("Loop counter is %d\n"), myloopcount);

            mymodulus = dwDataLen % MAXSIZE;
            _tprintf(_T("Remainder is %d\n"), mymodulus);

            if (mymodulus == 0) // no remainder
            {
                myloopcount -= 1; // decrement by one
            }

            // Create a file to save the encrypted data with append flag.
            // The parameter for appending data to a file is FILE_APPEND_DATA in the CreateFile function. 
            // Ref: http://msdn.microsoft.com/en-us/library/windows/desktop/aa363778(v=vs.85).aspx
            _tprintf(_T("CreateFile...\n"));
            if ((hEncryptedFile = CreateFile(
                strEncryptedFile,  // if you hardcode a filename here, use syntax: _T("C:\\temp\\append.txt"),
                GENERIC_WRITE,
                0,
                NULL,
                CREATE_ALWAYS,
                FILE_APPEND_DATA,
                NULL
                )) == INVALID_HANDLE_VALUE)
            {
                // Error
                _tprintf(_T("(ref 17) CreateFile error saving the encrypted data 0x%x\n"), GetLastError());
                return 1;
            }

            // Create a buffer for the plain text
            _tprintf(_T("malloc...\n"));
            pbData = NULL;
            if (!(pbData = (BYTE *)malloc(MAXSIZE)))
            {
                // Error
                _tprintf(_T("(ref 25) malloc error 0x%x\n"), GetLastError());
                return 1;
            }

            _tprintf(_T("malloc...\n"));
            pbEncData = NULL;
            if (!(pbEncData = (BYTE *)malloc(ENCRYPTEDLENGTH)))
            {
                // Error
                _tprintf(_T("(ref 53) malloc error 0x%x\n"), GetLastError());
                return 1;
            }

            for (i = 0; i < myloopcount; i++)
            {
                // ref https://msdn.microsoft.com/en-us/library/windows/desktop/aa365541(v=vs.85).aspx
                if (i > 0)
                {
                    SetFilePointer(
                        hPlainFile,     //     HANDLE hFile,
                        MAXSIZE,        //    LONG lDistanceToMove,
                        NULL,           //  PLONG lpDistanceToMoveHigh,
                        FILE_CURRENT
                        );
                }

                mymaxsize = MAXSIZE;

                // Read plain text
                _tprintf(_T("ReadFile...\n"));
                if (!ReadFile(hPlainFile, pbData, mymaxsize, &mymaxsize, NULL))
                {
                    // Error
                    _tprintf(_T("(ref 33) ReadFile error 0x%x\n"), GetLastError());
                    return 1;
                }

                // Encrypt data
                if (!CryptEncrypt(hKey, NULL, FALSE, 0, pbEncData, &mymaxsize, dwEncryptedLen))
                {
                    // Error
                    _tprintf(_T("(ref 4) CryptEncrypt error in loop number %i 0x%x\n"),i, GetLastError());
                    return 1;
                }

                _tprintf(_T("WriteFile...\n"));
                if (!WriteFile(
                    hEncryptedFile,
                    (LPCVOID)pbEncData,
                    dwDataLen,
                    &lpNumberOfBytesWritten,
                    NULL
                    ))
                {
                    // Error
                    _tprintf(_T("(ref 48) WriteFile error, i is %d 0x%x\n"), i, GetLastError());
                    return 1;
                }
            } // end for loop

            SetFilePointer(
                hPlainFile,     //     HANDLE hFile,
                MAXSIZE,        //     LONG lDistanceToMove,
                NULL,           //     PLONG lpDistanceToMoveHigh,
                FILE_CURRENT    
                );

            mymaxsize = MAXSIZE;

            if (mymodulus == 0)
            {
                _tprintf(_T("ReadFile...\n"));
                if (!ReadFile(hPlainFile, pbData, mymaxsize, &mymaxsize, NULL))
                {
                    // Error
                    _tprintf(_T("(ref 34) ReadFile error 0x%x\n"), GetLastError());
                    return 1;
                }

                // Encrypt data; last chunk must have TRUE flag when encrypting.
                if (!CryptEncrypt(hKey, NULL, TRUE, 0, pbEncData, &dwDataLen, dwEncryptedLen))
                {
                    // Error
                    _tprintf(_T("(ref 6) CryptEncrypt error 0x%x\n"), GetLastError());
                    return 1;
                }
            }
            else
            {
                _tprintf(_T("ReadFile...\n"));
                if (!ReadFile(hPlainFile, pbData, mymodulus, &mymodulus, NULL))
                {
                    // Error
                    _tprintf(_T("(ref 35) ReadFile error 0x%x\n"), GetLastError());
                    return 1;
                }

                // Encrypt data
                if (!CryptEncrypt(hKey, NULL, TRUE, 0, pbEncData, &mymodulus, dwEncryptedLen))
                {
                    // Error
                    _tprintf(_T("(ref 8) CryptEncrypt error 0x%x\n"), GetLastError());
                    return 1;
                }
            }

            // Finish writing.
            _tprintf(_T("WriteFile...\n"));
            if (!WriteFile(
                hEncryptedFile,
                (LPCVOID)pbEncData,
                dwDataLen,
                &lpNumberOfBytesWritten,
                NULL
                ))
            {
                // Error
                _tprintf(_T("(ref 49) WriteFile error 0x%x\n"), GetLastError());
                return 1;
            }
        }
        return 0;
    }
    __finally
    {
        // Clean up
        if (!pbPublicKey) {
            _tprintf(_T("free...\n"));
            free(pbPublicKey);
        }
        if (!pbData) {
            _tprintf(_T("free...\n"));
            free(pbData);
        }
        if (hPublicKeyFile) {
            _tprintf(_T("CloseHandle...\n"));
            CloseHandle(hPublicKeyFile);
        }
        if (hPlainFile) {
            _tprintf(_T("CloseHandle...\n"));
            CloseHandle(hPlainFile);
        }
        if (hEncryptedFile) {
            _tprintf(_T("CloseHandle...\n"));
            CloseHandle(hEncryptedFile);
        }
        if (hKey) {
            _tprintf(_T("CryptDestroyKey...\n"));
        CryptDestroyKey(hKey);
        }
        if (hCryptProv) {
            _tprintf(_T("CryptReleaseContext...\n"));
            CryptReleaseContext(hCryptProv, 0);
        }
    }
}
// End of Encrypt

// Decrypt
int Decrypt(_TCHAR* strPrivateKeyFile, _TCHAR* strEncryptedFile, _TCHAR* strPlainFile)
{
    HCRYPTPROV hCryptProv = NULL;
    HCRYPTKEY hKey = NULL;
    DWORD dwPrivateKeyLen = 0;
    DWORD dwDataLen = 0;
    DWORD myloopcount = 0;
    DWORD mymodulus = 0;
    DWORD i = 0;
    DWORD mysize = 0;
    BYTE* pbPrivateKey = NULL;
    BYTE* pbData = NULL;
    BYTE* pbEncData = NULL;
    HANDLE hPrivateKeyFile = NULL;
    HANDLE hEncryptedFile = NULL;
    HANDLE hPlainFile = NULL;
    DWORD lpNumberOfBytesWritten = 0;

    __try
    {
        // Acquire access to key container
        _tprintf(_T("CryptAcquireContext...\n"));
        if (!CryptAcquireContext(&hCryptProv, _T("ACMEENCRYPT.EncryptDecrypt"), NULL, PROV_RSA_FULL, 0))
        {
            // Error
            _tprintf(_T("(ref 10) CryptAcquireContext error 0x%x\n"), GetLastError());

            // Try to create a new key container
            if (!CryptAcquireContext(&hCryptProv, _T("ACMEENCRYPT.EncryptDecrypt"), NULL, PROV_RSA_FULL, CRYPT_NEWKEYSET))
            {
                // Error
                _tprintf(_T("(ref 11) CryptAcquireContext error 0x%x\n"), GetLastError());
                return 1;
            }
        }

        // Open private key file
        _tprintf(_T("CreateFile...\n"));
        if ((hPrivateKeyFile = CreateFile(
            strPrivateKeyFile,
            GENERIC_READ,
            FILE_SHARE_READ,
            NULL,
            OPEN_EXISTING,
            FILE_FLAG_SEQUENTIAL_SCAN,
            NULL
            )) == INVALID_HANDLE_VALUE)
        {
            // Error
            _tprintf(_T("(ref 18) CreateFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Get file size
        _tprintf(_T("GetFileSize...\n"));
        if ((dwPrivateKeyLen = GetFileSize(hPrivateKeyFile, NULL)) == INVALID_FILE_SIZE)
        {
            // Error
            _tprintf(_T("(ref 41) GetFileSize error 0x%x\n"), GetLastError());
            return 1;
        }

        // Create a buffer for the private key
        _tprintf(_T("malloc...\n"));
        if (!(pbPrivateKey = (BYTE *)malloc(dwPrivateKeyLen)))
        {
            // Error
            _tprintf(_T("(ref 27) malloc error 0x%x\n"), GetLastError());
            return 1;
        }

        // Read private key
        _tprintf(_T("ReadFile...\n"));
        if (!ReadFile(hPrivateKeyFile, pbPrivateKey, dwPrivateKeyLen, &dwPrivateKeyLen, NULL))
        {
            // Error
            _tprintf(_T("(ref 36) ReadFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Import private key
        _tprintf(_T("CryptImportKey...\n"));
        if (!CryptImportKey(hCryptProv, pbPrivateKey, dwPrivateKeyLen, 0, 0, &hKey))
        {
            // Error
            _tprintf(_T("(ref 39) CryptImportKey error 0x%x\n"), GetLastError());
            return 1;
        }

        // Open encrypted file
        _tprintf(_T("CreateFile...\n"));
        if ((hEncryptedFile = CreateFile(
            strEncryptedFile,
            GENERIC_READ,
            FILE_SHARE_READ,
            NULL,
            OPEN_EXISTING,
            FILE_FLAG_SEQUENTIAL_SCAN,
            NULL
            )) == INVALID_HANDLE_VALUE)
        {
            // Error
            _tprintf(_T("(ref 19) CreateFile error 0x%x\n"), GetLastError());
            return 1;
        }

        // Get file size
        _tprintf(_T("GetFileSize...\n"));
        if ((dwDataLen = GetFileSize(hEncryptedFile, NULL)) == INVALID_FILE_SIZE)
        {
            // Error
            _tprintf(_T("(ref 42) GetFileSize error 0x%x\n"), GetLastError());
            return 1;
        }

        if (dwDataLen == ENCRYPTEDLENGTH)
        {
            // Create a buffer for the encrypted data
            _tprintf(_T("malloc...\n"));
            if (!(pbData = (BYTE *)malloc(dwDataLen)))
            {
                // Error
                _tprintf(_T("(ref 28) malloc error 0x%x\n"), GetLastError());
                return 1;
            }

            // Read encrypted data
            _tprintf(_T("ReadFile...\n"));
            if (!ReadFile(hEncryptedFile, pbData, dwDataLen, &dwDataLen, NULL))
            {
                // Error
                _tprintf(_T("(ref 37) ReadFile error 0x%x\n"), GetLastError());
                return 1;
            }

            if (!CryptDecrypt(hKey, NULL, TRUE, 0, pbData, &dwDataLen))
            {
                // Error
                _tprintf(_T("(ref 54) CryptDecrypt error 0x%x\n"), GetLastError());
                return 1;
            }

            // Create a file to save the plain text
            _tprintf(_T("CreateFile...\n"));
            if ((hPlainFile = CreateFile(
                strPlainFile,
                GENERIC_WRITE,
                0,
                NULL,
                CREATE_ALWAYS,
                FILE_ATTRIBUTE_NORMAL,
                NULL
                )) == INVALID_HANDLE_VALUE)
            {
                // Error
                _tprintf(_T("(ref 20) CreateFile error 0x%x\n"), GetLastError());
                return 1;
            }

            // Write the plain text the file
            _tprintf(_T("WriteFile...\n"));
            if (!WriteFile(
                hPlainFile,
                (LPCVOID)pbData,
                dwDataLen,
                &lpNumberOfBytesWritten,
                NULL
                ))
            {
                // Error
                _tprintf(_T("(ref 50) WriteFile error 0x%x\n"), GetLastError());
                return 1;
            }
        }
        else
        {
            // encrypted file is bigger than 128 bytes
            // Figure out how many times we will need to loop.
            myloopcount = (DWORD)(dwDataLen / ENCRYPTEDLENGTH);
            _tprintf(_T("Loop counter is %d\n"), myloopcount);

            mymodulus = dwDataLen % ENCRYPTEDLENGTH;
            _tprintf(_T("Remainder is %d\n"), mymodulus);

            if (mymodulus == 0) // no remainder
            {
                myloopcount -= 1; // decrement by one
            }

            // Create a file to save the plain text
            _tprintf(_T("CreateFile...\n"));
            if ((hPlainFile = CreateFile(
                strPlainFile,
                GENERIC_WRITE,
                0,
                NULL,
                CREATE_ALWAYS,
                FILE_APPEND_DATA,
                NULL
                )) == INVALID_HANDLE_VALUE)
            {
                // Error
                _tprintf(_T("(ref 55) CreateFile error 0x%x\n"), GetLastError());
                return 1;
            }

            // Create a buffer for the encrypted data
            _tprintf(_T("malloc...\n"));
            if (!(pbData = (BYTE *)malloc(ENCRYPTEDLENGTH)))
            {
                // Error
                _tprintf(_T("(ref 56) malloc error 0x%x\n"), GetLastError());
                return 1;
            }

            for (i = 0; i < myloopcount; i++)
            {
                // ref https://msdn.microsoft.com/en-us/library/windows/desktop/aa365541(v=vs.85).aspx
                if (i > 0)
                {
                    SetFilePointer(
                        hEncryptedFile,     //  HANDLE hFile,
                        ENCRYPTEDLENGTH,    //  LONG lDistanceToMove,
                        NULL,               //  PLONG lpDistanceToMoveHigh,
                        FILE_CURRENT
                        );
                }

                mysize = ENCRYPTEDLENGTH;

                // Read encrypted data
                _tprintf(_T("ReadFile...\n"));
                if (!ReadFile(hEncryptedFile, pbData, mysize, &mysize, NULL))
                {
                    // Error
                    _tprintf(_T("(ref 37) ReadFile error 0x%x\n"), GetLastError());
                    return 1;
                }

                if (!CryptDecrypt(hKey, NULL, FALSE, 0, pbData, &mysize))
                {
                    // Error
                    _tprintf(_T("(ref 54) CryptDecrypt error in loop number %d 0x%x\n"),i, GetLastError());
                    return 1;
                }

                // Write the plain text the file
                _tprintf(_T("WriteFile...\n"));
                if (!WriteFile(
                    hPlainFile,
                    (LPCVOID)pbData,
                    dwDataLen,
                    &lpNumberOfBytesWritten,
                    NULL
                    ))
                {
                    // Error
                    _tprintf(_T("(ref 50) WriteFile error 0x%x\n"), GetLastError());
                    return 1;
                }
            } // end for loop

            SetFilePointer(
                hEncryptedFile,     //     HANDLE hFile,
                ENCRYPTEDLENGTH,        //     LONG lDistanceToMove,
                NULL,           //     PLONG lpDistanceToMoveHigh,
                FILE_CURRENT    //  DWORD dwMoveMethod, with FILE_CURRENT it's more efficient, not forced 
                //  to do (i * MAXSIZE) for second parameter size
                );

            mysize = ENCRYPTEDLENGTH;

            // Read encrypted data
            _tprintf(_T("ReadFile...\n"));
            if (!ReadFile(hEncryptedFile, pbData, mysize, &mysize, NULL))
            {
                // Error
                _tprintf(_T("(ref 37) ReadFile error 0x%x\n"), GetLastError());
                return 1;
            }

            if (!CryptDecrypt(hKey, NULL, TRUE, 0, pbData, &mysize))
            {
                // Error
                _tprintf(_T("(ref 54) CryptDecrypt error 0x%x\n"), GetLastError());
                return 1;
            }

            // Write the plain text the file
            _tprintf(_T("WriteFile...\n"));
            if (!WriteFile(
                hPlainFile,
                (LPCVOID)pbData,
                dwDataLen,
                &lpNumberOfBytesWritten,
                NULL
                ))
            {
                // Error
                _tprintf(_T("(ref 50) WriteFile error 0x%x\n"), GetLastError());
                return 1;
            }
        }

        return 0;
    }
    __finally
    {
        // Clean up       
        if (!pbPrivateKey) {
            _tprintf(_T("free...\n"));
            free(pbPrivateKey);
        }
        if (!pbData) {
            _tprintf(_T("free...\n"));
            free(pbData);
        }
        if (hPrivateKeyFile) {
            _tprintf(_T("CloseHandle...\n"));
            CloseHandle(hPrivateKeyFile);
        }
        if (hEncryptedFile) {
            _tprintf(_T("CloseHandle...\n"));
            CloseHandle(hEncryptedFile);
        }
        if (hPlainFile) {
            _tprintf(_T("CloseHandle...\n"));
            CloseHandle(hPlainFile);
        }
        if (hKey) {
            _tprintf(_T("CryptDestroyKey...\n"));
            CryptDestroyKey(hKey);
        }
        if (hCryptProv) {
            _tprintf(_T("CryptReleaseContext...\n"));
            CryptReleaseContext(hCryptProv, 0);
        }
    }
}
// End of Decrypt
  • Hello Harry, Thank you for taking the time to look at the program. In each of the encrypt and decrypt blocks there is an if statement that checks the size of the file to contend with. In the if block (for small file size), the program is as in the original one. The else block handles the larger files with a for loop. The FINAL in the for loop is FALSE for CryptEncrypt and CryptDecrypt in the for loops. After the for loops, there is another call for the last chunk which has FINAL as TRUE. So I don't think that's the issue. My feeling is the ENCRYPTEDLENGTH define might be incorrect. – Bertrand_Szoghy Apr 22 '15 at 12:21
  • The test file content I used for the if block was the sentence "Veuillez installer ECLIPSE (la dernière version stable) eclipse.org/downloads" in a text file and to test the else block the same sentence 3 times in the text file. – Bertrand_Szoghy Apr 22 '15 at 12:31
  • OK, I see how that works now. My mistake. – Harry Johnston Apr 22 '15 at 21:21
  • Each time through the encryption loop, you write dwDataLen bytes to the output file. But as far as I can see, dwDataLen is the size of the input file, rather than the size of one encrypted block. – Harry Johnston Apr 22 '15 at 21:30
1

Yes; in general you cannot use RSA to encrypt data larger than the key size in a single pass, the limit is infact slightly shorter than the key size, depending on padding.

To encrypt larger amounts of data you would typically use a hybrid approach whereby you generate a symmetric key (say AES) and use that to encrypt your data.

You can then use your RSA public key to encrypt the AES key, combine it with the ciphertext and you have a blob that requires the private key to decrypt.

  • 1
    Hello Alex, Thank you for taking the time to respond. I am not convinced. The Microsoft reference at: msdn.microsoft.com/en-us/library/windows/desktop/… indicates that: "If a large amount of data is to be encrypted, it can be done in sections by calling CryptEncrypt repeatedly. The Final parameter must be set to TRUE on the last call to CryptEncrypt, so that the encryption engine can properly finish the encryption process." Same thing for CryptDecrypt. If you are right, there is an exception to that. Do you have a ref URL? – Bertrand_Szoghy Apr 22 '15 at 12:23
  • I would say that paragraph is ambiguous with regards to an asymmetric cipher, later that doc states The length of plaintext data that can be encrypted with a call to CryptEncrypt with an RSA key is the length of the key modulus minus eleven bytes ... either way they should not be used like that for many reasons: security.stackexchange.com/questions/33434/… – Alex K. Apr 22 '15 at 12:27
  • ello Alex, You are very kind to take the time, thank you. Your reference suggests RSA is slow for large files. My files will be under 10MB encrypted on a desktop. Am not concerned about performance (yet). My real goal is to encrypt with Win32 and decrypt on another platform using Java. Can you suggest a different private/public algorithm for this code? – Bertrand_Szoghy Apr 22 '15 at 13:11
  • 1
    RSA is fine, its just not intended for use with large sets of data. Use the hybrid approach where AES is used to encrypt the data and RSA is used to just encrypt the AES key. – Alex K. Apr 22 '15 at 13:15
  • Hello, Thank you for the recommendation. Client has requested it be done specifically this way. Is there a way to fix this code? Cheers! Bert. – Bertrand_Szoghy Apr 22 '15 at 18:29

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