Exemplo de programa C: criptografando um arquivo

O exemplo a seguir criptografa um arquivo de dados. O exemplo solicita interativamente o nome do arquivo que contém texto sem formatação a ser criptografado e o nome de um arquivo em que os dados criptografados devem ser gravados.

O exemplo solicita ao usuário os nomes de um arquivo de entrada e de um arquivo de saída. Ele também solicita ao usuário se uma senha deve ser usada para criar a chave de sessão de criptografia. Se uma senha for usada na criptografia dos dados, a mesma senha deverá ser usada no programa que descriptografa o arquivo. Para obter mais informações, consulte Exemplo de Programa C: Descriptografando um arquivo.

Devido à alteração das restrições de controle de exportação, o CSP ( provedor de serviços criptográficos ) padrão e o comprimento da chave padrão podem mudar entre as versões do sistema operacional. É importante que a criptografia e a descriptografia usem o mesmo CSP e que o comprimento da chave seja definido explicitamente para garantir a interoperabilidade em diferentes plataformas do sistema operacional.

Este exemplo usa a função MyHandleError. O código dessa função está incluído no exemplo. O código para essa e outras funções auxiliares também está listado no Uso Geral Functions.

// Encrypting_a_File.cpp : Defines the entry point for the console 
// application.
//

#include <tchar.h>
#include <stdio.h>
#include <windows.h>
#include <wincrypt.h>
#include <conio.h>

// Link with the Advapi32.lib file.
#pragma comment (lib, "advapi32")

#define KEYLENGTH  0x00800000
#define ENCRYPT_ALGORITHM CALG_RC4 
#define ENCRYPT_BLOCK_SIZE 8 

bool MyEncryptFile(
    LPTSTR szSource, 
    LPTSTR szDestination, 
    LPTSTR szPassword);

void MyHandleError(
    LPTSTR psz, 
    int nErrorNumber);

int _tmain(int argc, _TCHAR* argv[])
{
    if(argc < 3)
    {
        _tprintf(TEXT("Usage: <example.exe> <source file> ")
            TEXT("<destination file> | <password>\n"));
        _tprintf(TEXT("<password> is optional.\n"));
        _tprintf(TEXT("Press any key to exit."));
        _gettch();
        return 1;
    }

    LPTSTR pszSource = argv[1]; 
    LPTSTR pszDestination = argv[2]; 
    LPTSTR pszPassword = NULL;

    if(argc >= 4)
    {
        pszPassword = argv[3];
    }

    //---------------------------------------------------------------
    // Call EncryptFile to do the actual encryption.
    if(MyEncryptFile(pszSource, pszDestination, pszPassword))
    {
        _tprintf(
            TEXT("Encryption of the file %s was successful. \n"), 
            pszSource);
        _tprintf(
            TEXT("The encrypted data is in file %s.\n"), 
            pszDestination);
    }
    else
    {
        MyHandleError(
            TEXT("Error encrypting file!\n"), 
            GetLastError()); 
    }

    return 0;
}

//-------------------------------------------------------------------
// Code for the function MyEncryptFile called by main.
//-------------------------------------------------------------------
// Parameters passed are:
//  pszSource, the name of the input, a plaintext file.
//  pszDestination, the name of the output, an encrypted file to be 
//   created.
//  pszPassword, either NULL if a password is not to be used or the 
//   string that is the password.
bool MyEncryptFile(
    LPTSTR pszSourceFile, 
    LPTSTR pszDestinationFile, 
    LPTSTR pszPassword)
{ 
    //---------------------------------------------------------------
    // Declare and initialize local variables.
    bool fReturn = false;
    HANDLE hSourceFile = INVALID_HANDLE_VALUE;
    HANDLE hDestinationFile = INVALID_HANDLE_VALUE; 

    HCRYPTPROV hCryptProv = NULL; 
    HCRYPTKEY hKey = NULL; 
    HCRYPTKEY hXchgKey = NULL; 
    HCRYPTHASH hHash = NULL; 

    PBYTE pbKeyBlob = NULL; 
    DWORD dwKeyBlobLen; 

    PBYTE pbBuffer = NULL; 
    DWORD dwBlockLen; 
    DWORD dwBufferLen; 
    DWORD dwCount; 
     
    //---------------------------------------------------------------
    // Open the source file. 
    hSourceFile = CreateFile(
        pszSourceFile, 
        FILE_READ_DATA,
        FILE_SHARE_READ,
        NULL,
        OPEN_EXISTING,
        FILE_ATTRIBUTE_NORMAL,
        NULL);
    if(INVALID_HANDLE_VALUE != hSourceFile)
    {
        _tprintf(
            TEXT("The source plaintext file, %s, is open. \n"), 
            pszSourceFile);
    }
    else
    { 
        MyHandleError(
            TEXT("Error opening source plaintext file!\n"), 
            GetLastError());
        goto Exit_MyEncryptFile;
    } 

    //---------------------------------------------------------------
    // Open the destination file. 
    hDestinationFile = CreateFile(
        pszDestinationFile, 
        FILE_WRITE_DATA,
        FILE_SHARE_READ,
        NULL,
        OPEN_ALWAYS,
        FILE_ATTRIBUTE_NORMAL,
        NULL);
    if(INVALID_HANDLE_VALUE != hDestinationFile)
    {
         _tprintf(
             TEXT("The destination file, %s, is open. \n"), 
             pszDestinationFile);
    }
    else
    {
        MyHandleError(
            TEXT("Error opening destination file!\n"), 
            GetLastError()); 
        goto Exit_MyEncryptFile;
    }

    //---------------------------------------------------------------
    // Get the handle to the default provider. 
    if(CryptAcquireContext(
        &hCryptProv, 
        NULL, 
        MS_ENHANCED_PROV, 
        PROV_RSA_FULL, 
        0))
    {
        _tprintf(
            TEXT("A cryptographic provider has been acquired. \n"));
    }
    else
    {
        MyHandleError(
            TEXT("Error during CryptAcquireContext!\n"), 
            GetLastError());
        goto Exit_MyEncryptFile;
    }

    //---------------------------------------------------------------
    // Create the session key.
    if(!pszPassword || !pszPassword[0]) 
    { 
        //-----------------------------------------------------------
        // No password was passed.
        // Encrypt the file with a random session key, and write the 
        // key to a file. 

        //-----------------------------------------------------------
        // Create a random session key. 
        if(CryptGenKey(
            hCryptProv, 
            ENCRYPT_ALGORITHM, 
            KEYLENGTH | CRYPT_EXPORTABLE, 
            &hKey))
        {
            _tprintf(TEXT("A session key has been created. \n"));
        } 
        else
        {
            MyHandleError(
                TEXT("Error during CryptGenKey. \n"), 
                GetLastError()); 
            goto Exit_MyEncryptFile;
        }

        //-----------------------------------------------------------
        // Get the handle to the exchange public key. 
        if(CryptGetUserKey(
            hCryptProv, 
            AT_KEYEXCHANGE, 
            &hXchgKey))
        {
            _tprintf(
                TEXT("The user public key has been retrieved. \n"));
        }
        else
        { 
            if(NTE_NO_KEY == GetLastError())
            {
                // No exchange key exists. Try to create one.
                if(!CryptGenKey(
                    hCryptProv, 
                    AT_KEYEXCHANGE, 
                    CRYPT_EXPORTABLE, 
                    &hXchgKey))
                {
                    MyHandleError(
                        TEXT("Could not create "
                            "a user public key.\n"), 
                        GetLastError()); 
                    goto Exit_MyEncryptFile;
                }
            }
            else
            {
                MyHandleError(
                    TEXT("User public key is not available and may ")
                        TEXT("not exist.\n"), 
                    GetLastError()); 
                goto Exit_MyEncryptFile;
            }
        }

        //-----------------------------------------------------------
        // Determine size of the key BLOB, and allocate memory. 
        if(CryptExportKey(
            hKey, 
            hXchgKey, 
            SIMPLEBLOB, 
            0, 
            NULL, 
            &dwKeyBlobLen))
        {
            _tprintf(
                TEXT("The key BLOB is %d bytes long. \n"), 
                dwKeyBlobLen);
        }
        else
        {  
            MyHandleError(
                TEXT("Error computing BLOB length! \n"), 
                GetLastError());
            goto Exit_MyEncryptFile;
        }

        if(pbKeyBlob = (BYTE *)malloc(dwKeyBlobLen))
        { 
            _tprintf(
                TEXT("Memory is allocated for the key BLOB. \n"));
        }
        else
        { 
            MyHandleError(TEXT("Out of memory. \n"), E_OUTOFMEMORY); 
            goto Exit_MyEncryptFile;
        }

        //-----------------------------------------------------------
        // Encrypt and export the session key into a simple key 
        // BLOB. 
        if(CryptExportKey(
            hKey, 
            hXchgKey, 
            SIMPLEBLOB, 
            0, 
            pbKeyBlob, 
            &dwKeyBlobLen))
        {
            _tprintf(TEXT("The key has been exported. \n"));
        } 
        else
        {
            MyHandleError(
                TEXT("Error during CryptExportKey!\n"), 
                GetLastError());
            goto Exit_MyEncryptFile;
        } 
         
        //-----------------------------------------------------------
        // Release the key exchange key handle. 
        if(hXchgKey)
        {
            if(!(CryptDestroyKey(hXchgKey)))
            {
                MyHandleError(
                    TEXT("Error during CryptDestroyKey.\n"), 
                    GetLastError()); 
                goto Exit_MyEncryptFile;
            }
      
            hXchgKey = 0;
        }
     
        //-----------------------------------------------------------
        // Write the size of the key BLOB to the destination file. 
        if(!WriteFile(
            hDestinationFile, 
            &dwKeyBlobLen, 
            sizeof(DWORD),
            &dwCount,
            NULL))
        { 
            MyHandleError(
                TEXT("Error writing header.\n"), 
                GetLastError());
            goto Exit_MyEncryptFile;
        }
        else
        {
            _tprintf(TEXT("A file header has been written. \n"));
        }

        //-----------------------------------------------------------
        // Write the key BLOB to the destination file. 
        if(!WriteFile(
            hDestinationFile, 
            pbKeyBlob, 
            dwKeyBlobLen,
            &dwCount,
            NULL))
        { 
            MyHandleError(
                TEXT("Error writing header.\n"), 
                GetLastError());
            goto Exit_MyEncryptFile;
        }
        else
        {
            _tprintf(
                TEXT("The key BLOB has been written to the ")
                    TEXT("file. \n"));
        }

        // Free memory.
        free(pbKeyBlob);
    } 
    else 
    { 

        //-----------------------------------------------------------
        // The file will be encrypted with a session key derived 
        // from a password.
        // The session key will be recreated when the file is 
        // decrypted only if the password used to create the key is 
        // available. 

        //-----------------------------------------------------------
        // Create a hash object. 
        if(CryptCreateHash(
            hCryptProv, 
            CALG_MD5, 
            0, 
            0, 
            &hHash))
        {
            _tprintf(TEXT("A hash object has been created. \n"));
        }
        else
        { 
            MyHandleError(
                TEXT("Error during CryptCreateHash!\n"), 
                GetLastError());
            goto Exit_MyEncryptFile;
        }  

        //-----------------------------------------------------------
        // Hash the password. 
        if(CryptHashData(
            hHash, 
            (BYTE *)pszPassword, 
            lstrlen(pszPassword), 
            0))
        {
            _tprintf(
                TEXT("The password has been added to the hash. \n"));
        }
        else
        {
            MyHandleError(
                TEXT("Error during CryptHashData. \n"), 
                GetLastError()); 
            goto Exit_MyEncryptFile;
        }

        //-----------------------------------------------------------
        // Derive a session key from the hash object. 
        if(CryptDeriveKey(
            hCryptProv, 
            ENCRYPT_ALGORITHM, 
            hHash, 
            KEYLENGTH, 
            &hKey))
        {
            _tprintf(
                TEXT("An encryption key is derived from the ")
                    TEXT("password hash. \n")); 
        }
        else
        {
            MyHandleError(
                TEXT("Error during CryptDeriveKey!\n"), 
                GetLastError()); 
            goto Exit_MyEncryptFile;
        }
    } 

    //---------------------------------------------------------------
    // The session key is now ready. If it is not a key derived from 
    // a  password, the session key encrypted with the private key 
    // has been written to the destination file.
     
    //---------------------------------------------------------------
    // Determine the number of bytes to encrypt at a time. 
    // This must be a multiple of ENCRYPT_BLOCK_SIZE.
    // ENCRYPT_BLOCK_SIZE is set by a #define statement.
    dwBlockLen = 1000 - 1000 % ENCRYPT_BLOCK_SIZE; 

    //---------------------------------------------------------------
    // Determine the block size. If a block cipher is used, 
    // it must have room for an extra block. 
    if(ENCRYPT_BLOCK_SIZE > 1) 
    {
        dwBufferLen = dwBlockLen + ENCRYPT_BLOCK_SIZE; 
    }
    else 
    {
        dwBufferLen = dwBlockLen; 
    }
        
    //---------------------------------------------------------------
    // Allocate memory. 
    if(pbBuffer = (BYTE *)malloc(dwBufferLen))
    {
        _tprintf(
            TEXT("Memory has been allocated for the buffer. \n"));
    }
    else
    { 
        MyHandleError(TEXT("Out of memory. \n"), E_OUTOFMEMORY); 
        goto Exit_MyEncryptFile;
    }

    //---------------------------------------------------------------
    // In a do loop, encrypt the source file, 
    // and write to the source file. 
    bool fEOF = FALSE;
    do 
    { 
        //-----------------------------------------------------------
        // Read up to dwBlockLen bytes from the source file. 
        if(!ReadFile(
            hSourceFile, 
            pbBuffer, 
            dwBlockLen, 
            &dwCount, 
            NULL))
        {
            MyHandleError(
                TEXT("Error reading plaintext!\n"), 
                GetLastError());
            goto Exit_MyEncryptFile;
        }

        if(dwCount < dwBlockLen)
        {
            fEOF = TRUE;
        }

        //-----------------------------------------------------------
        // Encrypt data. 
        if(!CryptEncrypt(
            hKey, 
            NULL, 
            fEOF,
            0, 
            pbBuffer, 
            &dwCount, 
            dwBufferLen))
        { 
            MyHandleError(
                TEXT("Error during CryptEncrypt. \n"), 
                GetLastError()); 
            goto Exit_MyEncryptFile;
        } 

        //-----------------------------------------------------------
        // Write the encrypted data to the destination file. 
        if(!WriteFile(
            hDestinationFile, 
            pbBuffer, 
            dwCount,
            &dwCount,
            NULL))
        { 
            MyHandleError(
                TEXT("Error writing ciphertext.\n"), 
                GetLastError());
            goto Exit_MyEncryptFile;
        }

        //-----------------------------------------------------------
        // End the do loop when the last block of the source file 
        // has been read, encrypted, and written to the destination 
        // file.
    } while(!fEOF);

    fReturn = true;

Exit_MyEncryptFile:
    //---------------------------------------------------------------
    // Close files.
    if(hSourceFile)
    {
        CloseHandle(hSourceFile);
    }

    if(hDestinationFile)
    {
        CloseHandle(hDestinationFile);
    }

    //---------------------------------------------------------------
    // Free memory. 
    if(pbBuffer) 
    {
        free(pbBuffer); 
    }
     

    //-----------------------------------------------------------
    // Release the hash object. 
    if(hHash) 
    {
        if(!(CryptDestroyHash(hHash)))
        {
            MyHandleError(
                TEXT("Error during CryptDestroyHash.\n"), 
                GetLastError()); 
        }

        hHash = NULL;
    }

    //---------------------------------------------------------------
    // Release the session key. 
    if(hKey)
    {
        if(!(CryptDestroyKey(hKey)))
        {
            MyHandleError(
                TEXT("Error during CryptDestroyKey!\n"), 
                GetLastError());
        }
    }

    //---------------------------------------------------------------
    // Release the provider handle. 
    if(hCryptProv)
    {
        if(!(CryptReleaseContext(hCryptProv, 0)))
        {
            MyHandleError(
                TEXT("Error during CryptReleaseContext!\n"), 
                GetLastError());
        }
    }
    
    return fReturn; 
} // End Encryptfile.


//-------------------------------------------------------------------
//  This example uses the function MyHandleError, a simple error
//  handling function, to print an error message to the  
//  standard error (stderr) file and exit the program. 
//  For most applications, replace this function with one 
//  that does more extensive error reporting.

void MyHandleError(LPTSTR psz, int nErrorNumber)
{
    _ftprintf(stderr, TEXT("An error occurred in the program. \n"));
    _ftprintf(stderr, TEXT("%s\n"), psz);
    _ftprintf(stderr, TEXT("Error number %x.\n"), nErrorNumber);
}