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Exemplo de programa C: usando CryptEncryptMessage e CryptDecryptMessage

CryptEncryptMessage é a única chamada de função necessária para realizar todas as tarefas listadas em Criptografando uma mensagem. A inicialização de estruturas de dados é necessária. A ilustração a seguir mostra a relação entre esses parâmetros de função que apontam para estruturas ou matrizes e seus dados inicializados. Este exemplo também descriptografa a mensagem usando CryptDecryptMessage.

mapa de inicialização para uma chamada para cryptencryptmessage

Para criptografar dados

  1. Obtenha um ponteiro para o conteúdo a ser criptografado.
  2. Determine o tamanho do conteúdo a ser criptografado.
  3. Adquira um identificador para um provedor criptográfico.
  4. Abra um repositório de certificados.
  5. Obtenha o certificado do destinatário.
  6. Crie a matriz de certificados do destinatário.
  7. Inicialize a estrutura de CRYPT_ALGORITHM_IDENTIFIER .
  8. Inicialize a estrutura de CRYPT_ENCRYPT_MESSAGE_PARA .
  9. Chame CryptEncryptMessage para criptografar o conteúdo e criar uma mensagem em envelope digital.

O exemplo a seguir implementa esse procedimento.

Os comentários relacionam fragmentos de código a cada etapa do procedimento. Para obter mais informações sobre a função, consulte CryptEncryptMessage. Para obter mais informações sobre as estruturas de dados, consulte CRYPT_ALGORITHM_IDENTIFIER e CRYPT_ENCRYPT_MESSAGE_PARA.

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

//-------------------------------------------------------------------
// Copyright (C) Microsoft.  All rights reserved.
// Example of encrypting data and creating an enveloped 
// message using CryptEncryptMessage.
#pragma comment(lib, "crypt32.lib")

#include <stdio.h>
#include <windows.h>
#include <Wincrypt.h>
#define MY_ENCODING_TYPE  (PKCS_7_ASN_ENCODING | X509_ASN_ENCODING)
void MyHandleError(char *s);
//-------------------------------------------------------------------
// This program uses the function GetRecipientCert, declared here and
// defined after main.

PCCERT_CONTEXT GetRecipientCert(
     HCERTSTORE hCertStore);

//-------------------------------------------------------------------
// This program uses the function ByteToStr, declared here and
// defined after main. Code for ByteToStr can also be found as one
// of the general purpose functions.

void ByteToStr(
     DWORD cb, 
     void* pv, 
     LPSTR sz);

//-------------------------------------------------------------------
// This program uses the function DecryptMessage, declared here and
// defined after main.

BOOL DecryptMessage( 
       BYTE *pbEncryptedBlob, 
       DWORD cbEncryptedBlob,
       HCRYPTPROV hCryptProv,
       HCERTSTORE hStoreHandle);

void main()
{
//-------------------------------------------------------------------
// Declare and initialize variables. This includes getting a pointer 
// to the message to be encrypted. This code creates a message
// and gets a pointer to it. In reality, the message content 
// usually exists somewhere and a pointer to the message is 
// passed to the application. 

BYTE* pbContent = (BYTE*) "Security is our business.";
                                            // The message
DWORD cbContent = strlen((char *)pbContent)+1;
                                            // Size of message
HCRYPTPROV hCryptProv;                      // CSP handle
HCERTSTORE hStoreHandle;
PCCERT_CONTEXT pRecipientCert;
PCCERT_CONTEXT RecipientCertArray[1];
DWORD EncryptAlgSize;
CRYPT_ALGORITHM_IDENTIFIER EncryptAlgorithm;
CRYPT_ENCRYPT_MESSAGE_PARA EncryptParams;
DWORD EncryptParamsSize;
BYTE*    pbEncryptedBlob;
DWORD    cbEncryptedBlob;

//-------------------------------------------------------------------
//  Begin processing.

printf("About to begin with the message %s.\n",pbContent);
printf("The message length is %d bytes. \n", cbContent);

//-------------------------------------------------------------------
// Get a handle to a cryptographic provider.

if(CryptAcquireContext(
            &hCryptProv,        // Address for handle to be returned.
            NULL,               // Use the current user's logon name.
            NULL,               // Use the default provider.
            PROV_RSA_FULL,      // Need to both encrypt and sign.
            NULL))              // No flags needed.
{
    printf("A CSP has been acquired. \n");
}
else
{
    MyHandleError("Cryptographic context could not be acquired.");
}
//-------------------------------------------------------------------
// Open a system certificate store.

if(hStoreHandle = CertOpenSystemStore(
     hCryptProv, 
     "MY"))
{
    printf("The MY store is open. \n");
}
else
{
    MyHandleError( "Error getting store handle.");
}
//-------------------------------------------------------------------
// Get a pointer to the recipient's certificate.
// by calling GetRecipientCert. 

if(pRecipientCert = GetRecipientCert(
     hStoreHandle))
{
    printf("A recipient's certificate has been acquired. \n");
}
else
{
    printf("No certificate with a CERT_KEY_CONTEXT_PROP_ID \n");
    printf("property and an AT_KEYEXCHANGE private key "
        "available. \n");
    printf("While the message could be encrypted, in this case, \n");
    printf("it could not be decrypted in this program. \n");
    printf("For more information, see the documentation for \n");
    printf("CryptEncryptMessage and CryptDecryptMessage.\n\n");
    MyHandleError( "No Certificate with AT_KEYEXCHANGE "
        "key in store.");
}
//-------------------------------------------------------------------
// Create a RecipientCertArray.

RecipientCertArray[0] = pRecipientCert;

//-------------------------------------------------------------------
// Initialize the algorithm identifier structure.

EncryptAlgSize = sizeof(EncryptAlgorithm);

//-------------------------------------------------------------------
// Initialize the structure to zero.

memset(&EncryptAlgorithm, 0, EncryptAlgSize);

//-------------------------------------------------------------------
// Set the necessary member.

EncryptAlgorithm.pszObjId = szOID_RSA_RC4;  

//-------------------------------------------------------------------
// Initialize the CRYPT_ENCRYPT_MESSAGE_PARA structure. 

EncryptParamsSize = sizeof(EncryptParams);
memset(&EncryptParams, 0, EncryptParamsSize);
EncryptParams.cbSize =  EncryptParamsSize;
EncryptParams.dwMsgEncodingType = MY_ENCODING_TYPE;
EncryptParams.hCryptProv = hCryptProv;
EncryptParams.ContentEncryptionAlgorithm = EncryptAlgorithm;

//-------------------------------------------------------------------
// Call CryptEncryptMessage.

if(CryptEncryptMessage(
          &EncryptParams,
          1,
          RecipientCertArray,
          pbContent,
          cbContent,
          NULL,
          &cbEncryptedBlob))
{
    printf("The encrypted message is %d bytes. \n",cbEncryptedBlob);
}
else
{
    MyHandleError( "Getting EncryptedBlob size failed.");
}
//-------------------------------------------------------------------
// Allocate memory for the returned BLOB.

if(pbEncryptedBlob = (BYTE*)malloc(cbEncryptedBlob))
{
    printf("Memory has been allocated for the encrypted BLOB. \n");
}
else
{
    MyHandleError("Memory allocation error while encrypting.");
}
//-------------------------------------------------------------------
// Call CryptEncryptMessage again to encrypt the content.

if(CryptEncryptMessage(
          &EncryptParams,
          1,
          RecipientCertArray,
          pbContent,
          cbContent,
          pbEncryptedBlob,
          &cbEncryptedBlob))
{
    printf( "Encryption succeeded. \n");
}
else
{
    MyHandleError("Encryption failed.");
}

//-------------------------------------------------------------------
// Call the function DecryptMessage, whose code follows main,
// to decrypt the message.

if(DecryptMessage( 
     pbEncryptedBlob, 
     cbEncryptedBlob,
     hCryptProv,
     hStoreHandle))
{
   printf("Decryption succeeded. \n");
}
else
{
   printf("Decryption failed. \n");
}
//-------------------------------------------------------------------
// Clean up memory.

CertFreeCertificateContext(pRecipientCert);
if(CertCloseStore(
          hStoreHandle, 
          CERT_CLOSE_STORE_CHECK_FLAG))
{
    printf("The MY store was closed without incident. \n");
}
else
{
   printf("Store closed after encryption -- \n"
      "but not all certificates or CRLs were freed. \n");
}
if(hCryptProv)
{
    CryptReleaseContext(hCryptProv,0);
    printf("The CSP has been released. \n");
}
else
{
    printf("CSP was NULL. \n");
}
} // End of main

//-------------------------------------------------------------------
//  Define the function DecryptMessage.

BOOL DecryptMessage( 
     BYTE *pbEncryptedBlob, 
     DWORD cbEncryptedBlob,
     HCRYPTPROV hCryptProv,
     HCERTSTORE hStoreHandle)

//-------------------------------------------------------------------
// Example function for decrypting an encrypted message using
// CryptDecryptMessage. Its parameters are pbEncryptedBlob,
// an encrypted message; cbEncryptedBlob, the length of that
// message; hCryptProv, a CSP; and hStoreHandle, the handle
// of an open certificate store.

{
//-------------------------------------------------------------------
// Declare and initialize local variables.

DWORD cbDecryptedMessage;
char* EncryptedString = new char[(cbEncryptedBlob * 2) +1];
HCERTSTORE CertStoreArray[] = {hStoreHandle};
CRYPT_DECRYPT_MESSAGE_PARA  DecryptParams;
DWORD  DecryptParamsSize = sizeof(DecryptParams);
BYTE*  pbDecryptedMessage;
LPSTR  DecryptedString;
BOOL   fReturn = TRUE;

//-------------------------------------------------------------------
// Get a pointer to the encrypted message, pbEncryptedBlob,
// and its length, cbEncryptedBlob. In this example, these are
// passed as parameters along with a CSP and an open store handle.

//-------------------------------------------------------------------
// View the encrypted BLOB.
// Call a function, ByteToStr, to convert the byte BLOB to ASCII
// hexadecimal format. 

ByteToStr(
    cbEncryptedBlob, 
    pbEncryptedBlob, 
    EncryptedString);

//-------------------------------------------------------------------
// Print the converted string.

printf("The encrypted string is: \n%s\n",EncryptedString);

//-------------------------------------------------------------------
//   In this example, the handle to the MY store was passed in as a 
//   parameter. 

//-------------------------------------------------------------------
//   Create a "CertStoreArray."
//   In this example, this step was done in the declaration
//   and initialization of local variables because the store handle 
//   was passed into the function as a parameter.

//-------------------------------------------------------------------
//   Initialize the CRYPT_DECRYPT_MESSAGE_PARA structure.

memset(&DecryptParams, 0, DecryptParamsSize);
DecryptParams.cbSize = DecryptParamsSize;
DecryptParams.dwMsgAndCertEncodingType = MY_ENCODING_TYPE;
DecryptParams.cCertStore = 1;
DecryptParams.rghCertStore = CertStoreArray;

//-------------------------------------------------------------------
//  Decrypt the message data.
//  Call CryptDecryptMessage to get the returned data size.

if(CryptDecryptMessage(
          &DecryptParams,
          pbEncryptedBlob,
          cbEncryptedBlob,
          NULL,
          &cbDecryptedMessage,
          NULL))
{
    printf("The size for the decrypted message is: %d.\n",
        cbDecryptedMessage);
}
else
{
    MyHandleError( "Error getting decrypted message size");
}
//-------------------------------------------------------------------
// Allocate memory for the returned decrypted data.

if(pbDecryptedMessage = (BYTE*)malloc(
       cbDecryptedMessage))
{
    printf("Memory has been allocated for the decrypted message. "
        "\n");
}
else
{
    MyHandleError("Memory allocation error while decrypting");
}
//-------------------------------------------------------------------
// Call CryptDecryptMessage to decrypt the data.

if(CryptDecryptMessage(
          &DecryptParams,
          pbEncryptedBlob,
          cbEncryptedBlob,
          pbDecryptedMessage,
          &cbDecryptedMessage,
          NULL))
{
    DecryptedString = (LPSTR) pbDecryptedMessage;
    printf("Message Decrypted Successfully. \n");
    printf("The decrypted string is: %s\n",DecryptedString);
}
else
{
    printf("Error decrypting the message \n");
    printf("Error code %x \n",GetLastError());
    fReturn = FALSE;
}

//-------------------------------------------------------------------
// Clean up memory.

free(pbEncryptedBlob);
free(pbDecryptedMessage);
return fReturn;
}  // End of DecryptMessage

//-------------------------------------------------------------------
// Define the function ByteToStr.

void ByteToStr(
     DWORD cb, 
     void* pv, 
     LPSTR sz)
//-------------------------------------------------------------------
// Parameters passed are:
//    pv is the array of BYTEs to be converted.
//    cb is the number of BYTEs in the array.
//    sz is a pointer to the string to be returned.

{
//-------------------------------------------------------------------
//  Declare and initialize local variables.

BYTE* pb = (BYTE*) pv; // Local pointer to a BYTE in the BYTE array
DWORD i;               // Local loop counter
int b;                 // Local variable

//-------------------------------------------------------------------
//  Begin processing loop.

for (i = 0; i<cb; i++)
{
   b = (*pb & 0xF0) >> 4;
   *sz++ = (b <= 9) ? b + '0' : (b - 10) + 'A';
   b = *pb & 0x0F;
   *sz++ = (b <= 9) ? b + '0' : (b - 10) + 'A';
   pb++;
}
*sz++ = 0;
} // End of ByteToStr

//-------------------------------------------------------------------
//  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(char *s)
{
    fprintf(stderr,"An error occurred in running the program. \n");
    fprintf(stderr,"%s\n",s);
    fprintf(stderr, "Error number %x.\n", GetLastError());
    fprintf(stderr, "Program terminating. \n");
    exit(1);
} // End of MyHandleError

//-------------------------------------------------------------------
// GetRecipientCert enumerates the certificates in a store and finds
// the first certificate that has an AT_EXCHANGE key. If a  
// certificate is found, a pointer to that certificate is returned.  

PCCERT_CONTEXT GetRecipientCert( 
    HCERTSTORE hCertStore) 
//------------------------------------------------------------------- 
// Parameter passed in: 
// hCertStore, the handle of the store to be searched. 
{ 
//------------------------------------------------------------------- 
// Declare and initialize local variables. 

PCCERT_CONTEXT pCertContext = NULL; 
BOOL fMore = TRUE; 
DWORD dwSize = NULL; 
CRYPT_KEY_PROV_INFO* pKeyInfo = NULL; 
DWORD PropId = CERT_KEY_PROV_INFO_PROP_ID; 

//--------------------------------------------------------------------
// Find certificates in the store until the end of the store 
// is reached or a certificate with an AT_KEYEXCHANGE key is found. 

while(fMore && (pCertContext= CertFindCertificateInStore( 
   hCertStore, // Handle of the store to be searched. 
   0,          // Encoding type. Not used for this search. 
   0,          // dwFindFlags. Special find criteria. 
               // Not used in this search. 
   CERT_FIND_PROPERTY, 
               // Find type. Determines the kind of search 
               // to be done. In this case, search for 
               // certificates that have a specific 
               // extended property. 
   &PropId,    // pvFindPara. Gives the specific 
               // value searched for, here the identifier 
               // of an extended property. 
   pCertContext))) 
               // pCertContext is NULL for the  
               // first call to the function. 
               // If the function were being called 
               // in a loop, after the first call 
               // pCertContext would be the pointer 
               // returned by the previous call. 
{ 
//------------------------------------------------------------------- 
// For simplicity, this code only searches 
// for the first occurrence of an AT_KEYEXCHANGE key. 
// In many situations, a search would also look for a 
// specific subject name as well as the key type. 

//-------------------------------------------------------------------
// Call CertGetCertificateContextProperty once to get the 
// returned structure size. 

if(!(CertGetCertificateContextProperty( 
     pCertContext, 
     CERT_KEY_PROV_INFO_PROP_ID, 
     NULL, &dwSize))) 
{ 
     MyHandleError("Error getting key property."); 
} 

//------------------------------------------------------------------- 
// Allocate memory for the returned structure. 

if(pKeyInfo) 
    free(pKeyInfo); 
if(!(pKeyInfo = (CRYPT_KEY_PROV_INFO*)malloc(dwSize))) 
{ 
     MyHandleError("Error allocating memory for pKeyInfo."); 
} 

//------------------------------------------------------------------- 
// Get the key information structure. 

if(!(CertGetCertificateContextProperty( 
   pCertContext, 
   CERT_KEY_PROV_INFO_PROP_ID, 
   pKeyInfo, 
   &dwSize))) 
{ 
    MyHandleError("The second call to the function failed."); 
} 

//------------------------------------------------------------------- 
// Check the dwKeySpec member for an exchange key. 

if(pKeyInfo->dwKeySpec == AT_KEYEXCHANGE) 
{ 
    fMore = FALSE; } 
}    // End of while loop 

if(pKeyInfo) 
      free(pKeyInfo); 
return (pCertContext); 
} // End of GetRecipientCert