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Beispiel-C-Programm: Senden und Empfangen einer signierten und verschlüsselten Nachricht

Im folgenden Beispiel wird eine Nachricht mit dem privaten Schlüssel eines Absenders signiert und die signierte Nachricht mit dem öffentlichen Schlüssel eines Empfängers verschlüsselt. Das Beispiel entschlüsselt dann die Nachricht mithilfe des privaten Schlüssels des Empfängers und überprüft die Signatur mithilfe des öffentlichen Schlüssels des Absenders. Das Zertifikat des Absenders, das den erforderlichen öffentlichen Schlüssel enthält, ist in der verschlüsselten Nachricht enthalten. In diesem Beispiel wird auch die signierte und verschlüsselte Nachricht in eine Datei geschrieben. Weitere Informationen finden Sie unter Beispiel-C-Programm: Empfangen einer signierten und verschlüsselten Nachricht.

Um die Nachricht zu signieren, müssen der private Schlüssel des Signierers und das Zertifikat des Unterzeichners verfügbar sein. Zum Verschlüsseln der signierten Nachricht muss das Zertifikat eines Empfängers einschließlich des öffentlichen Schlüssels des Empfängers verfügbar sein.

Zum Entschlüsseln der Nachricht muss der private Schlüssel des Empfängers verfügbar sein. Nachdem die Nachricht entschlüsselt wurde, wird die Signatur mithilfe des öffentlichen Schlüssels aus dem Zertifikat überprüft, das in der verschlüsselten Nachricht enthalten ist.

Hinweis

Nicht alle Zertifikate in einem Zertifikatspeicher bieten Zugriff auf den diesem Zertifikat zugeordneten privaten Schlüssel . Wenn die Nachricht signiert und verschlüsselt ist, muss ein Zertifikat des Signierers mit Zugriff auf den privaten Schlüssel dieses Signaturgebers verwendet werden. Darüber hinaus muss der Empfänger der Nachricht Zugriff auf den privaten Schlüssel haben, der dem öffentlichen Schlüssel zugeordnet ist, der zum Verschlüsseln der Nachricht verwendet wird.

 

In diesem Beispiel werden die folgenden Aufgaben veranschaulicht:

  • Öffnen und Schließen von Systemzertifikatspeichern.
  • Suchen von Zertifikaten für einen Nachrichtensender und Nachrichtenempfänger in den geöffneten Zertifikatspeichern.
  • Suchen und Drucken des Antragstellernamens aus Zertifikaten.
  • Initialisieren von Datenstrukturen, die zum Signieren, Verschlüsseln, Entschlüsseln und Überprüfen einer Nachricht erforderlich sind.
  • Aufrufen einer CryptoAPI-Funktion, um die erforderliche Größe eines Puffers zu ermitteln, den Puffer der erforderlichen Größe zuzuordnen und die CryptoAPI-Funktion erneut aufzurufen, um den Puffer zu füllen. Weitere Informationen finden Sie unter Abrufen von Daten unbekannter Länge.
  • Zeigt einen Teil der verschlüsselten Inhalte eines Puffers an. Die enthaltene lokale Funktion ShowBytes zeigt Zeichen im Puffer mit Werten zwischen "0" und "z" an. Alle anderen Zeichen werden als "-"-Zeichen angezeigt.

In diesem Beispiel werden die folgenden CryptoAPI-Funktionen verwendet:

In diesem Beispiel werden separate Funktionen verwendet, um den Signatur-/Verschlüsselungsprozess und den Entschlüsselungs-/Signaturüberprüfungsprozess anzuzeigen. Außerdem wird MyHandleError verwendet, um das Programm im Falle eines Fehlers ordnungsgemäß zu beenden. Der Code MyHandleError ist im Beispiel enthalten und kann auch zusammen mit anderen Hilfsfunktionen unter Universell Functions gefunden werden.

//-------------------------------------------------------------------
// Example C Program: 
// Signs a message by using a sender's private key and encrypts the
// signed message by using a receiver's public key.
#pragma comment(lib, "crypt32.lib")

#include <stdio.h>
#include <tchar.h>
#include <windows.h>
#include <Wincrypt.h>

#define MY_ENCODING_TYPE (PKCS_7_ASN_ENCODING | X509_ASN_ENCODING)
#define MAX_NAME  128

//-------------------------------------------------------------------
// Copyright (C) Microsoft.  All rights reserved.
// SIGNER_NAME is used with the CertFindCertificateInStore  
// function to retrieve the certificate of the message signer.
// Replace the Unicode string below with the certificate subject 
// name of the message signer.

#define SIGNER_NAME L"DUMMY_SIGNER_NAME"

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

//-------------------------------------------------------------------
// The local function ShowBytes is declared here and defined after 
// main.

void ShowBytes(BYTE *s, DWORD len);

//-------------------------------------------------------------------
// Declare local functions SignAndEncrypt, DecryptAndVerify, and 
// WriteSignedAndEncryptedBlob.
// These functions are defined after main.

BYTE* SignAndEncrypt(
     const BYTE     *pbToBeSignedAndEncrypted,
     DWORD          cbToBeSignedAndEncrypted,
     DWORD          *pcbSignedAndEncryptedBlob);

BYTE* DecryptAndVerify(
     BYTE  *pbSignedAndEncryptedBlob,
     DWORD  cbSignedAndEncryptedBlob);

void WriteSignedAndEncryptedBlob(
     DWORD  cbBlob,
     BYTE   *pbBlob);

void main (void)
{
    //---------------------------------------------------------------
    // Declare and initialize local variables.

    //---------------------------------------------------------------
    //  pbToBeSignedAndEncrypted is the message to be 
    //  encrypted and signed.

    const BYTE *pbToBeSignedAndEncrypted =
            (const unsigned char *)"Insert the message to be signed "
            "here";
    //---------------------------------------------------------------
    // This is the length of the message to be
    // encrypted and signed. Note that it is one
    // more that the length returned by strlen()
    // to include the terminating null character.

    DWORD cbToBeSignedAndEncrypted = 
        lstrlenA((const char *)pbToBeSignedAndEncrypted) + 1;

    //---------------------------------------------------------------
    // Pointer to a buffer that will hold the
    // encrypted and signed message.

    BYTE *pbSignedAndEncryptedBlob;

    //---------------------------------------------------------------
    // A DWORD to hold the length of the signed 
    // and encrypted message.

    DWORD cbSignedAndEncryptedBlob;
    BYTE *pReturnMessage;

    //---------------------------------------------------------------
    // Call the local function SignAndEncrypt.
    // This function returns a pointer to the 
    // signed and encrypted BLOB and also returns
    // the length of that BLOB.

    pbSignedAndEncryptedBlob = SignAndEncrypt(
        pbToBeSignedAndEncrypted,
        cbToBeSignedAndEncrypted,
        &cbSignedAndEncryptedBlob);

    _tprintf(TEXT("The following is the signed and encrypted ")
        TEXT("message.\n"));
    ShowBytes(pbSignedAndEncryptedBlob,cbSignedAndEncryptedBlob/4);

    // Open a file and write the signed and 
    // encrypted message to the file.

    WriteSignedAndEncryptedBlob(
        cbSignedAndEncryptedBlob,
        pbSignedAndEncryptedBlob);

    //---------------------------------------------------------------
    // Call the local function DecryptAndVerify.
    // This function decrypts and displays the 
    // encrypted message and also verifies the 
    // message's signature.
       
    if(pReturnMessage = DecryptAndVerify(
        pbSignedAndEncryptedBlob,
        cbSignedAndEncryptedBlob))
    {
        _tprintf(TEXT(" The returned, verified message is ->\n%s\n"),
            pReturnMessage);
        _tprintf(TEXT(" The program executed without error.\n"));
    }
    else
    {
        _tprintf(TEXT("Verification failed.\n"));
    }

} // End Main.

//-------------------------------------------------------------------
// Begin definition of the SignAndEncrypt function.

BYTE* SignAndEncrypt(
     const BYTE *pbToBeSignedAndEncrypted,
     DWORD cbToBeSignedAndEncrypted,
     DWORD *pcbSignedAndEncryptedBlob)
{
    //---------------------------------------------------------------
    // Declare and initialize local variables.

    FILE *hToSave;
    HCERTSTORE hCertStore;

    //---------------------------------------------------------------
    // pSignerCertContext will be the certificate of 
    // the message signer.

    PCCERT_CONTEXT pSignerCertContext ;

    //---------------------------------------------------------------
    // pReceiverCertContext will be the certificate of the 
    // message receiver.

    PCCERT_CONTEXT pReceiverCertContext;

    TCHAR pszNameString[256];
    CRYPT_SIGN_MESSAGE_PARA SignPara;
    CRYPT_ENCRYPT_MESSAGE_PARA EncryptPara;
    DWORD cRecipientCert;
    PCCERT_CONTEXT rgpRecipientCert[5];
    BYTE *pbSignedAndEncryptedBlob = NULL;
    CERT_NAME_BLOB Subject_Blob;
    BYTE *pbDataIn;
    DWORD dwKeySpec;
    HCRYPTPROV hCryptProv;

    //---------------------------------------------------------------
    // Open the MY certificate store. 
    // For more information, see the CertOpenStore function 
    // PSDK reference page. 
    // Note: Case is not significant in certificate store names.

    if ( !( hCertStore = CertOpenStore(
        CERT_STORE_PROV_SYSTEM,
        0,
        NULL,
        CERT_SYSTEM_STORE_CURRENT_USER,
        L"my")))
    {
        MyHandleError(TEXT("The MY store could not be opened."));
    }

    //---------------------------------------------------------------
    // Get the certificate for the signer.

    if(!(pSignerCertContext = CertFindCertificateInStore(
        hCertStore,
        MY_ENCODING_TYPE,
        0,
        CERT_FIND_SUBJECT_STR,
        SIGNER_NAME,
        NULL)))
    {
        MyHandleError(TEXT("Cert not found.\n"));
    }

    //---------------------------------------------------------------
    // Get and print the name of the message signer.
    // The following two calls to CertGetNameString with different
    // values for the second parameter get two different forms of 
    // the certificate subject's name.

    if(CertGetNameString(
        pSignerCertContext ,
        CERT_NAME_SIMPLE_DISPLAY_TYPE,
        0,
        NULL,
        pszNameString,
        MAX_NAME) > 1)
    {
        _tprintf(
            TEXT("The SIMPLE_DISPLAY_TYPE message signer's name is ")
            TEXT("%s \n"),
            pszNameString);
    }
    else
    {
        MyHandleError(
            TEXT("Getting the name of the signer failed.\n"));
    }

    if(CertGetNameString(
        pSignerCertContext,
        CERT_NAME_RDN_TYPE,
        0,
        NULL,
        pszNameString,
        MAX_NAME) > 1)
    {
        _tprintf(
            TEXT("The RDM_TYPE message signer's name is %s \n"),
            pszNameString);
    }
    else
    {
        MyHandleError(
            TEXT("Getting the name of the signer failed.\n"));
    }

    if(!( CryptAcquireCertificatePrivateKey(
        pSignerCertContext,
        0,
        NULL,
        &hCryptProv,
        &dwKeySpec,
        NULL)))
    {
        MyHandleError(TEXT("CryptAcquireCertificatePrivateKey.\n"));
    }

    //---------------------------------------------------------------
    // Get the certificate for the receiver. In this case,  
    // a BLOB with the name of the receiver is saved in a file.

    // Note: To decrypt the message signed and encrypted here,
    // this program must use the certificate of the intended
    // receiver. The signed and encrypted message can only be
    // decrypted and verified by the owner of the recipient
    // certificate. That user must have access to the private key
    // associated with the public key of the recipient's certificate.

    // To run this sample, the file contains information that allows 
    // the program to find one of the current user's certificates. 
    // The current user should have access to the private key of the
    // certificate and thus can test the verification and decryption. 

    // In normal use, the file would contain information used to find
    // the certificate of an intended receiver of the message. 
    // The signed and encrypted message would be written
    // to a file or otherwise sent to the intended receiver.

    //---------------------------------------------------------------
    // Open a file and read in the receiver name
    // BLOB.


    if( !(hToSave= fopen("s.txt","rb")))
    {
        MyHandleError(TEXT("Source file was not opened.\n"));
    }

    fread(
        &(Subject_Blob.cbData),
        sizeof(DWORD),
        1,
        hToSave);

    if(ferror(hToSave))
    {
        MyHandleError(TEXT("The size of the BLOB was not read.\n"));
    }

    if(!(pbDataIn = (BYTE *) malloc(Subject_Blob.cbData)))
    {
        MyHandleError(TEXT("Memory allocation error."));
    }

    fread(
        pbDataIn,
        Subject_Blob.cbData,
        1,
        hToSave);

    if(ferror(hToSave))
    {
        MyHandleError(TEXT("BLOB not read."));
    }

    fclose(hToSave);

    Subject_Blob.pbData = pbDataIn;

    //---------------------------------------------------------------
    // Use the BLOB just read in from the file to find its associated
    // certificate in the MY store.
    // This call to CertFindCertificateInStore uses the
    // CERT_FIND_SUBJECT_NAME dwFindType.

    if(!(pReceiverCertContext = CertFindCertificateInStore(
        hCertStore,
        MY_ENCODING_TYPE,
        0,
        CERT_FIND_SUBJECT_NAME,
        &Subject_Blob,
        NULL)))
    {
        MyHandleError(TEXT("Receiver certificate not found."));
    }

    //---------------------------------------------------------------
    // Get and print the subject name from the receiver's
    // certificate.

    if(CertGetNameString(
        pReceiverCertContext ,
        CERT_NAME_SIMPLE_DISPLAY_TYPE,
        0,
        NULL,
        pszNameString,
        MAX_NAME) > 1)
    {
        _tprintf(TEXT("The message receiver is  %s \n"), 
            pszNameString);
    }
    else
    {
        MyHandleError(
            TEXT("Getting the name of the receiver failed.\n"));
    }

    //---------------------------------------------------------------
    // Initialize variables and data structures
    // for the call to CryptSignAndEncryptMessage.

    SignPara.cbSize = sizeof(CRYPT_SIGN_MESSAGE_PARA);
    SignPara.dwMsgEncodingType = MY_ENCODING_TYPE;
    SignPara.pSigningCert = pSignerCertContext ;
    SignPara.HashAlgorithm.pszObjId = szOID_RSA_MD2;
    SignPara.HashAlgorithm.Parameters.cbData = 0;
    SignPara.pvHashAuxInfo = NULL;
    SignPara.cMsgCert = 1;
    SignPara.rgpMsgCert = &pSignerCertContext ;
    SignPara.cMsgCrl = 0;
    SignPara.rgpMsgCrl = NULL;
    SignPara.cAuthAttr = 0;
    SignPara.rgAuthAttr = NULL;
    SignPara.cUnauthAttr = 0;
    SignPara.rgUnauthAttr = NULL;
    SignPara.dwFlags = 0;
    SignPara.dwInnerContentType = 0;

    EncryptPara.cbSize = sizeof(CRYPT_ENCRYPT_MESSAGE_PARA);
    EncryptPara.dwMsgEncodingType = MY_ENCODING_TYPE;
    EncryptPara.hCryptProv = 0;
    EncryptPara.ContentEncryptionAlgorithm.pszObjId = szOID_RSA_RC4;
    EncryptPara.ContentEncryptionAlgorithm.Parameters.cbData = 0;
    EncryptPara.pvEncryptionAuxInfo = NULL;
    EncryptPara.dwFlags = 0;
    EncryptPara.dwInnerContentType = 0;

    cRecipientCert = 1;
    rgpRecipientCert[0] = pReceiverCertContext;
    *pcbSignedAndEncryptedBlob = 0;
    pbSignedAndEncryptedBlob = NULL;

    if( CryptSignAndEncryptMessage(
        &SignPara,
        &EncryptPara,
        cRecipientCert,
        rgpRecipientCert,
        pbToBeSignedAndEncrypted,
        cbToBeSignedAndEncrypted,
        NULL, // the pbSignedAndEncryptedBlob
        pcbSignedAndEncryptedBlob))
    {
        _tprintf(TEXT("%d bytes for the buffer .\n"),
            *pcbSignedAndEncryptedBlob);
    }
    else
    {
        MyHandleError(TEXT("Getting the buffer length failed."));
    }

    //---------------------------------------------------------------
    // Allocate memory for the buffer.

    if(!(pbSignedAndEncryptedBlob = 
        (unsigned char *)malloc(*pcbSignedAndEncryptedBlob)))
    {
        MyHandleError(TEXT("Memory allocation failed."));
    }

    //---------------------------------------------------------------
    // Call the function a second time to copy the signed and 
    // encrypted message into the buffer.

    if( CryptSignAndEncryptMessage(
        &SignPara,
        &EncryptPara,
        cRecipientCert,
        rgpRecipientCert,
        pbToBeSignedAndEncrypted,
        cbToBeSignedAndEncrypted,
        pbSignedAndEncryptedBlob,
        pcbSignedAndEncryptedBlob))
    {
        _tprintf(TEXT("The message is signed and encrypted.\n"));
    }
    else
    {
        MyHandleError(
            TEXT("The message failed to sign and encrypt."));
    }

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

    if(pSignerCertContext )
    {
        CertFreeCertificateContext(pSignerCertContext);
    }
    
    if(pReceiverCertContext )
    {
        CertFreeCertificateContext(pReceiverCertContext);
    }
    
    CertCloseStore(hCertStore, 0);

    //---------------------------------------------------------------
    // Return the signed and encrypted message.

    return pbSignedAndEncryptedBlob;

}  // End SignAndEncrypt.

//-------------------------------------------------------------------
// Define the DecryptAndVerify function.

BYTE* DecryptAndVerify(
     BYTE  *pbSignedAndEncryptedBlob,
     DWORD  cbSignedAndEncryptedBlob)
{
    //---------------------------------------------------------------
    // Declare and initialize local variables.

    HCERTSTORE hCertStore;
    CRYPT_DECRYPT_MESSAGE_PARA DecryptPara;
    CRYPT_VERIFY_MESSAGE_PARA VerifyPara;
    DWORD dwSignerIndex = 0;
    BYTE *pbDecrypted;
    DWORD cbDecrypted;

    //---------------------------------------------------------------
    // Open the certificate store.

    if ( !( hCertStore = CertOpenStore(
        CERT_STORE_PROV_SYSTEM,
        0,
        NULL,
        CERT_SYSTEM_STORE_CURRENT_USER,
        L"my")))
    {
        MyHandleError(TEXT("The MY store could not be opened."));
    }

    //---------------------------------------------------------------
    // Initialize the needed data structures.

    DecryptPara.cbSize = sizeof(CRYPT_DECRYPT_MESSAGE_PARA);
    DecryptPara.dwMsgAndCertEncodingType = MY_ENCODING_TYPE;
    DecryptPara.cCertStore = 1;
    DecryptPara.rghCertStore = &hCertStore;

    VerifyPara.cbSize = sizeof(CRYPT_VERIFY_MESSAGE_PARA);
    VerifyPara.dwMsgAndCertEncodingType = MY_ENCODING_TYPE;
    VerifyPara.hCryptProv = 0;
    VerifyPara.pfnGetSignerCertificate = NULL;
    VerifyPara.pvGetArg = NULL;
    pbDecrypted = NULL;
    cbDecrypted = 0;

    //---------------------------------------------------------------
    // Call CryptDecryptAndVerifyMessageSignature a first time
    // to determine the needed size of the buffer to hold the 
    // decrypted message.

    if(!(CryptDecryptAndVerifyMessageSignature(
        &DecryptPara,
        &VerifyPara,
        dwSignerIndex,
        pbSignedAndEncryptedBlob,
        cbSignedAndEncryptedBlob,
        NULL,           // pbDecrypted
        &cbDecrypted,
        NULL,
        NULL)))
    {
        MyHandleError(TEXT("Failed getting size."));
    }

    //---------------------------------------------------------------
    // Allocate memory for the buffer to hold the decrypted
    // message.

    if(!(pbDecrypted = (BYTE *)malloc(cbDecrypted)))
    {
        MyHandleError(TEXT("Memory allocation failed."));
    }

    if(!(CryptDecryptAndVerifyMessageSignature(
        &DecryptPara,
        &VerifyPara,
        dwSignerIndex,
        pbSignedAndEncryptedBlob,
        cbSignedAndEncryptedBlob,
        pbDecrypted,
        &cbDecrypted,
        NULL,
        NULL)))
    {
        pbDecrypted = NULL;
    }

    //---------------------------------------------------------------
    // Close the certificate store.

    CertCloseStore(
        hCertStore,
        0);

    //---------------------------------------------------------------
    // Return the decrypted string or NULL.

    return pbDecrypted;

} // End of DecryptandVerify.

//-------------------------------------------------------------------
// Define the MyHandleError function.

void WriteSignedAndEncryptedBlob(
     DWORD cbBlob,
     BYTE *pbBlob)
{
    // Open an output file, write the file, and close the file.
    // This function would be used to save the signed and encrypted 
    // message to a file that would be sent to the intended receiver.
    // Note: The only receiver able to decrypt and verify this
    // message will have access to the private key associated 
    // with the public key from the certificate used when 
    // the message was encrypted.

    FILE *hOutputFile;

    if( !(hOutputFile = _tfopen(TEXT("sandvout.txt"), TEXT("wb"))))
    {
        MyHandleError(TEXT("Output file was not opened.\n"));
    }

    fwrite(
        &cbBlob,
        sizeof(DWORD),
        1,
        hOutputFile);

    if(ferror(hOutputFile))
    {
        MyHandleError(
            TEXT("The size of the BLOB was not written.\n"));
    }

    fwrite(
        pbBlob,
        cbBlob,
        1,
        hOutputFile);

    if(ferror(hOutputFile))
    {
        MyHandleError(
            TEXT("The bytes of the BLOB were not written.\n"));
    }
    else
    {
        _tprintf(TEXT("The BLOB has been written to the file.\n"));
    }
    
    fclose(hOutputFile);
}  // End of WriteSignedAndEcryptedBlob.


//-------------------------------------------------------------------
// Define the ShowBytes function.
// This function displays the contents of a BYTE buffer. Characters
// less than '0' or greater than 'z' are all displayed as '-'.

void ShowBytes(BYTE *s, DWORD len)
{
    DWORD TotalChars = 0;
    DWORD ThisLine = 0;

    while(TotalChars < len)
    {
        if(ThisLine > 70)
        {
            ThisLine = 0;
            _tprintf(TEXT("\n"));
        }
        if( s[TotalChars] < '0' || s[TotalChars] > 'z')
        {
            _tprintf(TEXT("-"));
        }
        else
        {
            _tprintf(TEXT("%c"), s[TotalChars]);
        }

        TotalChars++;
        ThisLine++;
    }

    _tprintf(TEXT("\n"));
} // End of ShowBytes.