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例 C プログラム: メッセージの署名、エンコード、デコード、検証

次の例では、メッセージの署名とエンコード、および署名済みメッセージのデコードと署名の検証を組み合わせています。 通常、2 つの操作は個別のプログラムに含まれます。 エンコードの例では、エンコードされたメッセージを作成し、ディスク ファイルに保存するか、別の方法で別のユーザーに送信します。 デコードの例では、エンコードされたメッセージを受信し、デコードし、署名を確認します。 ここでは、2 つのプロセスが組み合わされ、両方の手順が機能していることを示しています。

メッセージに署名してエンコードしても、そのメッセージのプライバシーは確保されません。 むしろ、メッセージの信頼性が保証されます。 メッセージは送信者の秘密キーで署名されているため、メッセージの受信者が送信者の 公開キー (メッセージと共に送信された証明書から利用可能) で署名を復号化すると、受信者は、メッセージが証明書に関連付けられているユーザーまたはエンティティによって送信され、署名後にメッセージが変更されなかったことを確認できます。

この例では、メッセージをエンコードするための次のタスクと CryptoAPI 関数を示します。

この例では、メッセージをデコードして署名を検証するための次のタスクと CryptoAPI 関数を示します。

ストリーム コールバックを使用してこれらの同様の操作を実行する方法の例については、「 C Program の例: ストリームを使用したメッセージのエンコードとデコード」を参照してください。

この例では、 関数 MyHandleError を使用します。 この関数のコードはサンプルに含まれています。 これと他の補助関数のコードも General_Purpose_Functionsの下に一覧表示されます。

//-------------------------------------------------------------------
// Copyright (C) Microsoft.  All rights reserved.
// Example of encoding and decoding a signed message.

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

// Link with the Crypt32.lib file.
#pragma comment (lib, "Crypt32")

#define MY_ENCODING_TYPE  (PKCS_7_ASN_ENCODING | X509_ASN_ENCODING)

#define MAX_NAME 256

#define CERTIFICATE_STORE_NAME L"MY"

//-------------------------------------------------------------------
//    Declare local functions.

//-------------------------------------------------------------------
BOOL EncodeMessage(PCRYPT_DATA_BLOB pEncodedData,
                   LPWSTR pwszSignerName);
void DecodeMessage(PCRYPT_DATA_BLOB pEncodedData,
                   LPWSTR pwszSignerName);

//  Define function MyHandleError.
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.

void ReportFailure()
{
    switch (GetLastError())
    {
        case CRYPT_E_AUTH_ATTR_MISSING:
            printf("Message does not contain an expected "
                "attribute.\n");
            break;
        case CRYPT_E_BAD_ENCODE:
            printf("An error encountered encoding or decoding.\n");
            break;
        case CRYPT_E_HASH_VALUE:
            printf("The hash value is not correct.\n");
            break;
        case CRYPT_E_INVALID_MSG_TYPE:
            printf("The message type is not valid.\n");
            break;
        case CRYPT_E_OSS_ERROR:
            printf("OSS error.\n");
            break;
        case CRYPT_E_SIGNER_NOT_FOUND:
            printf("Signer not found.\n");
            break;
        case CRYPT_E_UNEXPECTED_ENCODING:
            printf("Unexpected encoding. \n");
            break;
        case CRYPT_E_UNKNOWN_ALGO:
            printf("Unknown algorithm.\n");
            break;
        case E_OUTOFMEMORY:
            printf("Out of memory.\n");
            break;
        case ERROR_INVALID_HANDLE:
            printf("The handle from verify signature is not valid." \
                "function.\n");
            break;
        case ERROR_INVALID_PARAMETER:
            printf("The parameter from verify signature "
                "is not valid.\n");
            break;
        case NTE_BAD_FLAGS:
            printf("Bad Flags from verify signature function.\n");
            break;
        case NTE_BAD_HASH:
            printf("Bad Hash from verify signature function.\n");
            break;
        case NTE_BAD_KEY:
            printf("Bad Key from verify signature function.\n");
            break;
        case NTE_BAD_SIGNATURE:
            printf("Bad signature from verify signature " \
                "function.\n");
            break;
        case NTE_BAD_UID:
            printf("Bad UID from verify signature function.\n");
            break;
    }  // End switch.
}  // End ReportFailure.

void EncodeAndDecodeMessage(LPWSTR pwszSignerName)
{
    CRYPT_DATA_BLOB EncodedBlob;

    if(EncodeMessage(&EncodedBlob, pwszSignerName))
    {
        DecodeMessage(&EncodedBlob, pwszSignerName);
    }
}

BOOL EncodeMessage(PCRYPT_DATA_BLOB pEncodedBlob,
                   LPWSTR pwszSignerName)
{
    /*---------------------------------------------------------------
        Declare and initialize variables. This includes getting a 
        pointer to the message content. This sample creates 
        the message content and gets a pointer to it. In most 
        situations, the content will exist somewhere, and a 
        pointer to it will get passed to the application. 
    ---------------------------------------------------------------*/

    HCERTSTORE hSystemStoreHandle;
    CRYPT_SIGN_MESSAGE_PARA SignMessagePara;

    //---------------------------------------------------------------
    //   The message to be signed and encoded.

    BYTE* pbContent = (BYTE*) "The quick brown fox jumped over " \
        "the lazy dog.";

    /*---------------------------------------------------------------
        The length of the message. This must be one more than the 
        value returned by strlen() to include the terminal NULL 
        character.
    ---------------------------------------------------------------*/
    DWORD cbContent = lstrlenA((char *) pbContent) + 1;

    //---------------------------------------------------------------
    //    Arrays to hold the message to be signed and its length.

    const BYTE *rgpbToBeSigned[1] ;
    DWORD rgcbToBeSigned[1];

    //---------------------------------------------------------------
    //    The signer's certificate.

    PCCERT_CONTEXT pSignerCert; 

    //---------------------------------------------------------------
    //    Buffer to hold the name of the subject of a certificate.

    char pszNameString[MAX_NAME];

    //---------------------------------------------------------------
    //  The following variables are used only in the decoding phase.

    DWORD cbData = sizeof(DWORD);

    //---------------------------------------------------------------
    //  Begin processing. Display the original message.

    rgpbToBeSigned[0] = pbContent;
    rgcbToBeSigned[0] = cbContent;

    printf("The original message = \n%s\n\n",
        rgpbToBeSigned[0]);

    //---------------------------------------------------------------
    // Open a certificate store.

    if(hSystemStoreHandle = CertOpenStore(
        CERT_STORE_PROV_SYSTEM,
        0,
        NULL,
        CERT_SYSTEM_STORE_CURRENT_USER,
        CERTIFICATE_STORE_NAME))
    {
        printf("The certificate store is open. \n");
    }
    else
    {
        MyHandleError( "Error Getting Store Handle");
    }

    /*---------------------------------------------------------------
        Find a certificate in the store. This certificate will be 
        used to sign the message. To sign the message, the 
        certificate must have a private key accessible.
    ---------------------------------------------------------------*/

    if(pSignerCert = CertFindCertificateInStore(
        hSystemStoreHandle,
        MY_ENCODING_TYPE,
        0,
        CERT_FIND_SUBJECT_STR,
        pwszSignerName,
        NULL))
    {
        //-----------------------------------------------------------
        //  Get and print the name of the subject of the certificate.

        if(CertGetNameString(
            pSignerCert,
            CERT_NAME_SIMPLE_DISPLAY_TYPE,
            0,
            NULL,
            pszNameString,
            MAX_NAME) > 1)
        {
            printf("The message signer is  %s \n",pszNameString);
        }
        else
        {
            MyHandleError("Getting the name of the signer " \
                "failed.\n");
        }
    }
    else
    {
        MyHandleError("Signer certificate not found.");
    }

    /*---------------------------------------------------------------
    Initialize the CRYPT_SIGN_MESSAGE_PARA structure. First, use 
    memset to set all members to zero or NULL. Then set the values of
    all members that must be nonzero.
    ---------------------------------------------------------------*/

    memset(&SignMessagePara, 0, sizeof(CRYPT_SIGN_MESSAGE_PARA));
    SignMessagePara.cbSize = sizeof(CRYPT_SIGN_MESSAGE_PARA);
    SignMessagePara.HashAlgorithm.pszObjId = szOID_RSA_MD2;
    SignMessagePara.pSigningCert = pSignerCert;
    SignMessagePara.dwMsgEncodingType = MY_ENCODING_TYPE;
    SignMessagePara.cMsgCert = 1;
    SignMessagePara.rgpMsgCert = &pSignerCert;

    /*---------------------------------------------------------------
        In two steps, sign and encode the message. First, get the 
        number of bytes required for the buffer to hold the signed 
        and encoded message.
    ---------------------------------------------------------------*/

    if( CryptSignMessage(
            &SignMessagePara,
            FALSE,
            1,
            rgpbToBeSigned,
            rgcbToBeSigned,
            NULL,
            &pEncodedBlob->cbData))
    {
        printf("The needed length is %d \n", pEncodedBlob->cbData);
    }
    else
    {
        MyHandleError("Getting the length failed.\n");
    }

    //---------------------------------------------------------------
    //   Allocate memory for the required buffer.
    pEncodedBlob->pbData = (BYTE *)malloc(pEncodedBlob->cbData);
    if(!pEncodedBlob->pbData)
    {
        MyHandleError("Memory allocation failed.");
    }

    //---------------------------------------------------------------
    //   Call CryptSignMessage a second time to
    //   copy the signed and encoded message to the buffer.

    if( CryptSignMessage(
        &SignMessagePara,
        FALSE,
        1,
        rgpbToBeSigned,
        rgcbToBeSigned,
        pEncodedBlob->pbData,
        &pEncodedBlob->cbData))
    {
        printf("Signing worked \n");
    }
    else
    {
        MyHandleError("Signing failed.\n");
    }

    //---------------------------------------------------------------
    //  Clean up after signing and encoding.

    if(pSignerCert)
    {
        CertFreeCertificateContext(pSignerCert);
    }
    
    if(hSystemStoreHandle)
    {
        CertCloseStore(hSystemStoreHandle,
            CERT_CLOSE_STORE_FORCE_FLAG);
    }

    return TRUE;
}

void DecodeMessage(PCRYPT_DATA_BLOB pEncodedBlob,
                   LPWSTR pwszSignerName)
{
    //---------------------------------------------------------------
    //    Buffer to hold the name of the subject of a certificate.

    char pszNameString[MAX_NAME];

    //---------------------------------------------------------------
    //  The following variables are used only in the decoding phase.

    HCRYPTMSG hMsg;
    HCERTSTORE hStoreHandle;           // certificate store handle
    DWORD cbData = sizeof(DWORD);
    DWORD cbDecoded;
    BYTE *pbDecoded;
    DWORD cbSignerCertInfo;
    PCERT_INFO pSignerCertInfo;
    PCCERT_CONTEXT pSignerCertContext;

    /*---------------------------------------------------------------
        The following code decodes the message and verifies the 
        message signature.  This code would normally be in a 
        stand-alone program that would read the signed and encoded 
        message and its length from a file from an email message, 
        or from some other source.
    ---------------------------------------------------------------*/

    //---------------------------------------------------------------
    //  Open a message for decoding.

    if(hMsg = CryptMsgOpenToDecode(
        MY_ENCODING_TYPE,      // encoding type
        0,                     // flags
        0,                     // use the default message type
                               // the message type is 
                               // listed in the message header
        NULL,                  // cryptographic provider 
                               // use NULL for the default provider
        NULL,                  // recipient information
        NULL))                 // stream information
    {
        printf("The message to decode is open. \n");
    }
    else
    {
        MyHandleError("OpenToDecode failed");
    }
    //---------------------------------------------------------------
    //  Update the message with an encoded BLOB.

    if(CryptMsgUpdate(
        hMsg,                 // handle to the message
        pEncodedBlob->pbData, // pointer to the encoded BLOB
        pEncodedBlob->cbData, // size of the encoded BLOB
        TRUE))                // last call
    {
        printf("The encoded BLOB has been added to the message. \n");
    }
    else
    {
        MyHandleError("Decode MsgUpdate failed");
    }

    //---------------------------------------------------------------
    //  Get the number of bytes needed for a buffer
    //  to hold the decoded message.

    if(CryptMsgGetParam(
        hMsg,                  // handle to the message
        CMSG_CONTENT_PARAM,    // parameter type
        0,                     // index
        NULL,                  
        &cbDecoded))           // size of the returned information
    {
        printf("The message parameter has been acquired. \n");
    }
    else
    {
        MyHandleError("Decode CMSG_CONTENT_PARAM failed.");
    }
    //---------------------------------------------------------------
    // Allocate memory.

    if(!(pbDecoded = (BYTE *) malloc(cbDecoded)))
    {
        MyHandleError("Decode memory allocation failed.");
    }

    //---------------------------------------------------------------
    // Copy the content to the buffer.

    if(CryptMsgGetParam(
        hMsg,                 // handle to the message
        CMSG_CONTENT_PARAM,   // parameter type
        0,                    // index
        pbDecoded,            // address for returned information
        &cbDecoded))          // size of the returned information
    {
        printf("The decoded message is =>\n%s\n\n",
            (LPSTR)pbDecoded);
    }
    else
    {
        MyHandleError("Decode CMSG_CONTENT_PARAM #2 failed");
    }

    //---------------------------------------------------------------
    // Verify the signature.
    // First, get the signer CERT_INFO from the message.

    //---------------------------------------------------------------
    // Get the size of memory required for the certificate.

    if(CryptMsgGetParam(
        hMsg,                         // handle to the message
        CMSG_SIGNER_CERT_INFO_PARAM,  // parameter type
        0,                            // index
        NULL,   
        &cbSignerCertInfo))           // size of the returned 
                                      // information
    {
        printf("%d bytes needed for the buffer.\n", 
            cbSignerCertInfo);
    }
    else
    {
        MyHandleError("Verify SIGNER_CERT_INFO #1 failed.");
    }

    //---------------------------------------------------------------
    // Allocate memory.

    if(!(pSignerCertInfo = (PCERT_INFO) malloc(cbSignerCertInfo)))
    {
        MyHandleError("Verify memory allocation failed.");
    }

    //---------------------------------------------------------------
    // Get the message certificate information (CERT_INFO
    // structure).

    if(!(CryptMsgGetParam(
        hMsg,                         // handle to the message
        CMSG_SIGNER_CERT_INFO_PARAM,  // parameter type
        0,                            // index
        pSignerCertInfo,              // address for returned 
                                      // information
        &cbSignerCertInfo)))          // size of the returned 
                                      // information
    {
        MyHandleError("Verify SIGNER_CERT_INFO #2 failed");
    }

    //---------------------------------------------------------------
    // Open a certificate store in memory using CERT_STORE_PROV_MSG,
    // which initializes it with the certificates from the message.

    if(hStoreHandle = CertOpenStore(
        CERT_STORE_PROV_MSG,         // store provider type 
        MY_ENCODING_TYPE,            // encoding type
        NULL,                        // cryptographic provider
                                     // use NULL for the default
        0,                           // flags
        hMsg))                       // handle to the message
    {
        printf("The certificate store to be used for message " \
            "verification has been opened.\n");
    }
    else  
    {
        MyHandleError("Verify open store failed");
    }

    //---------------------------------------------------------------
    // Find the signer's certificate in the store.

    if(pSignerCertContext = CertGetSubjectCertificateFromStore(
        hStoreHandle,       // handle to the store
        MY_ENCODING_TYPE,   // encoding type
        pSignerCertInfo))   // pointer to retrieved CERT_CONTEXT
    {
        if(CertGetNameString(
            pSignerCertContext,
            CERT_NAME_SIMPLE_DISPLAY_TYPE,
            0,
            NULL,
            pszNameString,
            MAX_NAME) > 1)
        {
            printf("The message signer is  %s \n",pszNameString);
        }
        else
        {
            MyHandleError("Getting the signer's name failed.\n");
        }
    }
    else
    {
        MyHandleError("Verify GetSubjectCert failed");
    }

    //---------------------------------------------------------------
    // Use the CERT_INFO from the signer certificate to verify
    // the signature.

    if(CryptMsgControl(
        hMsg,
        0,
        CMSG_CTRL_VERIFY_SIGNATURE,
        pSignerCertContext->pCertInfo))
    {
        printf("Verify signature succeeded. \n");
    }
    else
    {
        printf("The signature was not verified. \n");
        ReportFailure();
    }
    //---------------------------------------------------------------
    // Clean up.
    if(pEncodedBlob->pbData)
    {
        free(pEncodedBlob->pbData);
        pEncodedBlob->pbData = NULL;
    }
    if(pbDecoded)
    {
        free(pbDecoded);
    }
    if(pSignerCertInfo)
    {
        free(pSignerCertInfo);
    }
    if(pSignerCertContext)
    {
        CertFreeCertificateContext(pSignerCertContext); 
    }
    if(hStoreHandle)
    {
        CertCloseStore(hStoreHandle, CERT_CLOSE_STORE_FORCE_FLAG);
    }
    if(hMsg)
    {
        CryptMsgClose(hMsg);
    }
}