Exemple de programme C : cosignation et décodage d’un message
Vous pouvez utiliser la fonction CryptSignMessage pour cosigner un message. Pour ce faire, appelez CryptSignMessage une fois pour signer le message d’origine, puis appelez à nouveau CryptSignMessage pour cosigner le message signé.
Lorsque vous vérifiez la signature d’un message cosigné, vous utilisez la fonction CryptGetMessageSignerCount pour obtenir le nombre de signataires du message, puis appelez CryptVerifyMessageSignature pour chaque signature. Si toutes les signatures sont vérifiées, vous savez que le message cosigné est valide.
L’exemple suivant montre comment signer un message par plusieurs personnes (cosigner le message), vérifier toutes les signatures et décoder le message.
Notes
Cette fonction peut renvoyer un nombre de signataires en double et, par conséquent, peut ne pas être suffisante pour éviter les attaques. Nous vous recommandons d’utiliser le champ sid (SignerIdentifier) de SignerInfo pour identifier les signataires en double dans un message.
//-------------------------------------------------------------------
// Copyright (C) Microsoft. All rights reserved.
#pragma comment(lib, "crypt32.lib")
#include <stdio.h>
#include <conio.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 the name of the store where the needed certificate can be
// found.
#define CERT_STORE_NAME L"MY"
//-------------------------------------------------------------------
// Define the name of a certificate subject.
// To use this program, the definitions of SIGNER_NAME and
// CO_SIGNER_NAME must be changed to the name of the subject of a
// certificate that has access to a private key. That certificate
// must have either the CERT_KEY_PROV_INFO_PROP_ID or
// CERT_KEY_CONTEXT_PROP_ID property set for the context to
// provide access to the private signature key.
//-------------------------------------------------------------------
// You can use commands similar to the following to create a
// certificates that can be used with this example:
//
// makecert -n "cn=test_signer" -sk Test -ss my
// makecert -n "cn=test_co_signer" -sk Test -ss my
//#define SIGNER_NAME L"test_signer"
//#define CO_SIGNER_NAME L"test_co_signer"
#define SIGNER_NAME L"Insert_signer_name_here"
#define CO_SIGNER_NAME L"Insert_co_signer_name_here"
#define MAX_NAME 256
//-------------------------------------------------------------------
// Local function prototypes.
void MyHandleError(LPTSTR psz);
bool SignMessage(CRYPT_DATA_BLOB *pEncodedMessageBlob);
bool CosignMessage(CRYPT_DATA_BLOB *pSignedMessageBlob,
CRYPT_DATA_BLOB *pCosignedMessageBlob);
bool VerifyCosignedMessage(CRYPT_DATA_BLOB *pEncodedMessageBlob,
CRYPT_DATA_BLOB *pDecodedMessageBlob);
int _tmain(int argc, _TCHAR* argv[])
{
UNREFERENCED_PARAMETER(argc);
UNREFERENCED_PARAMETER(argv);
CRYPT_DATA_BLOB EncodedMessage;
if(SignMessage(&EncodedMessage))
{
CRYPT_DATA_BLOB DecodedMessage;
if(VerifyCosignedMessage(&EncodedMessage, &DecodedMessage))
{
free(DecodedMessage.pbData);
}
free(EncodedMessage.pbData);
}
_tprintf(TEXT("Press any key to exit."));
_getch();
return 0;
}
//-------------------------------------------------------------------
// 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"));
} // End of MyHandleError.
//-------------------------------------------------------------------
// SignMessage
bool SignMessage(CRYPT_DATA_BLOB *pEncodedMessageBlob)
{
bool fReturn = false;
BYTE* pbMessage;
DWORD cbMessage;
HCERTSTORE hCertStore = NULL;
PCCERT_CONTEXT pSignerCert = NULL;
CRYPT_SIGN_MESSAGE_PARA SigParams;
DWORD cbSignedMessageBlob=0;
BYTE *pbSignedMessageBlob = NULL;
// Initialize the output pointer.
pEncodedMessageBlob->cbData = 0;
pEncodedMessageBlob->pbData = NULL;
// The message to be signed.
// Usually, the message exists somewhere and a pointer is
// passed to the application.
pbMessage =
(BYTE*)TEXT("CryptoAPI is a good way to handle security");
// Calculate the size of message. To include the
// terminating null character, the length is one more byte
// than the length returned by the strlen function.
cbMessage = (lstrlen((TCHAR*) pbMessage) + 1) * sizeof(TCHAR);
// Create the MessageArray and the MessageSizeArray.
const BYTE* MessageArray[] = {pbMessage};
DWORD MessageSizeArray[1];
MessageSizeArray[0] = cbMessage;
// Begin processing.
_tprintf(TEXT("The message to be signed is \"%s\".\n"),
pbMessage);
// Open the certificate store.
if(!(hCertStore = CertOpenStore(
CERT_STORE_PROV_SYSTEM,
0,
NULL,
CERT_SYSTEM_STORE_CURRENT_USER,
CERT_STORE_NAME)))
{
MyHandleError(TEXT("The MY store could not be opened."));
goto exit_SignMessage;
}
// Get a pointer to the signer's certificate.
// This certificate must have access to the signer's private key.
if(pSignerCert = CertFindCertificateInStore(
hCertStore,
MY_ENCODING_TYPE,
0,
CERT_FIND_SUBJECT_STR,
SIGNER_NAME,
NULL))
{
_tprintf(TEXT("The signer's certificate was found.\n"));
}
else
{
MyHandleError( TEXT("Signer certificate not found."));
goto exit_SignMessage;
}
// Initialize the signature structure.
SigParams.cbSize = sizeof(CRYPT_SIGN_MESSAGE_PARA);
SigParams.dwMsgEncodingType = MY_ENCODING_TYPE;
SigParams.pSigningCert = pSignerCert;
SigParams.HashAlgorithm.pszObjId = szOID_RSA_SHA1RSA;
SigParams.HashAlgorithm.Parameters.cbData = NULL;
SigParams.cMsgCert = 1;
SigParams.rgpMsgCert = &pSignerCert;
SigParams.cAuthAttr = 0;
SigParams.dwInnerContentType = 0;
SigParams.cMsgCrl = 0;
SigParams.cUnauthAttr = 0;
SigParams.dwFlags = 0;
SigParams.pvHashAuxInfo = NULL;
SigParams.rgAuthAttr = NULL;
// First, get the size of the signed BLOB.
if(CryptSignMessage(
&SigParams,
FALSE,
1,
MessageArray,
MessageSizeArray,
NULL,
&cbSignedMessageBlob))
{
_tprintf(TEXT("%d bytes needed for the encoded BLOB.\n"),
cbSignedMessageBlob);
}
else
{
MyHandleError(TEXT("Getting signed BLOB size failed"));
goto exit_SignMessage;
}
// Allocate memory for the signed BLOB.
if(!(pbSignedMessageBlob =
(BYTE*)malloc(cbSignedMessageBlob)))
{
MyHandleError(
TEXT("Memory allocation error while signing."));
goto exit_SignMessage;
}
// Get the signed message BLOB.
if(CryptSignMessage(
&SigParams,
FALSE,
1,
MessageArray,
MessageSizeArray,
pbSignedMessageBlob,
&cbSignedMessageBlob))
{
_tprintf(TEXT("The message was signed successfully. \n"));
// pbSignedMessageBlob now contains the signed BLOB.
fReturn = true;
}
else
{
MyHandleError(TEXT("Error getting signed BLOB"));
goto exit_SignMessage;
}
exit_SignMessage:
// Clean up and free memory as needed.
if(pSignerCert)
{
CertFreeCertificateContext(pSignerCert);
pSignerCert = NULL;
}
if(hCertStore)
{
CertCloseStore(hCertStore, CERT_CLOSE_STORE_CHECK_FLAG);
hCertStore = NULL;
}
if(pbSignedMessageBlob && fReturn)
{
fReturn = false;
CRYPT_DATA_BLOB SignedMessageBlob;
CRYPT_DATA_BLOB CosignedMessageBlob;
SignedMessageBlob.cbData = cbSignedMessageBlob;
SignedMessageBlob.pbData = pbSignedMessageBlob;
if(CosignMessage(&SignedMessageBlob, &CosignedMessageBlob))
{
pEncodedMessageBlob->cbData = CosignedMessageBlob.cbData;
pEncodedMessageBlob->pbData = CosignedMessageBlob.pbData;
fReturn = true;
}
}
if(pbSignedMessageBlob)
{
free(pbSignedMessageBlob);
pbSignedMessageBlob = NULL;
}
return fReturn;
}
//-------------------------------------------------------------------
// CosignMessage
bool CosignMessage(
CRYPT_DATA_BLOB *pSignedMessageBlob,
CRYPT_DATA_BLOB *pCosignedMessageBlob)
{
bool fReturn = false;
HCERTSTORE hCertStore = NULL;
PCCERT_CONTEXT pCosignerCert = NULL;
HCRYPTPROV hCryptProv = NULL;
HCRYPTMSG hMsg = NULL;
DWORD cbCosignedMessageBlob=0;
BYTE *pbCosignedMessageBlob = NULL;
// Initialize the output pointer.
pCosignedMessageBlob->cbData = 0;
pCosignedMessageBlob->pbData = NULL;
// Open the certificate store.
if(!(hCertStore = CertOpenStore(
CERT_STORE_PROV_SYSTEM,
0,
NULL,
CERT_SYSTEM_STORE_CURRENT_USER,
CERT_STORE_NAME)))
{
MyHandleError(TEXT("The MY store could not be opened."));
goto exit_CosignMessage;
}
// Get a pointer to the cosigner's certificate.
// This certificate must have access to the cosigner's private
// key.
if((pCosignerCert = CertFindCertificateInStore(
hCertStore,
MY_ENCODING_TYPE,
0,
CERT_FIND_SUBJECT_STR,
CO_SIGNER_NAME,
NULL)))
{
_tprintf(TEXT("The signer's certificate was found.\n"));
}
else
{
MyHandleError( TEXT("Signer certificate not found."));
goto exit_CosignMessage;
}
DWORD dwKeySpec;
if(!(CryptAcquireCertificatePrivateKey(
pCosignerCert,
0,
NULL,
&hCryptProv,
&dwKeySpec,
NULL)))
{
MyHandleError(
TEXT("CryptAcquireCertificatePrivateKey failed."));
goto exit_CosignMessage;
}
// Open a message for decoding.
if(!(hMsg = CryptMsgOpenToDecode(
MY_ENCODING_TYPE,
0,
0,
NULL,
NULL,
NULL)))
{
MyHandleError(TEXT("CryptMsgOpenToDecode failed."));
goto exit_CosignMessage;
}
// Update the message with the encoded BLOB.
if(!(CryptMsgUpdate(
hMsg,
pSignedMessageBlob->pbData,
pSignedMessageBlob->cbData,
TRUE)))
{
MyHandleError(TEXT("CryptMsgUpdate failed."));
goto exit_CosignMessage;
}
// Initialize the CMSG_SIGNER_ENCODE_INFO structure for the
// cosigner.
CMSG_SIGNER_ENCODE_INFO CosignerInfo;
memset(&CosignerInfo, 0, sizeof(CMSG_SIGNER_ENCODE_INFO));
CosignerInfo.cbSize = sizeof(CMSG_SIGNER_ENCODE_INFO);
CosignerInfo.pCertInfo = pCosignerCert->pCertInfo;
CosignerInfo.hCryptProv = hCryptProv;
CosignerInfo.dwKeySpec = dwKeySpec;
CosignerInfo.HashAlgorithm.pszObjId = szOID_RSA_SHA1RSA;
// Add the cosigner to the message.
if(CryptMsgControl(
hMsg,
0,
CMSG_CTRL_ADD_SIGNER,
&CosignerInfo))
{
_tprintf(TEXT("CMSG_CTRL_ADD_SIGNER succeeded. \n"));
}
else
{
MyHandleError(TEXT("CMSG_CTRL_ADD_SIGNER failed."));
goto exit_CosignMessage;
}
// Add the cosigner's certificate to the message.
CERT_BLOB CosignCertBlob;
CosignCertBlob.cbData = pCosignerCert->cbCertEncoded;
CosignCertBlob.pbData = pCosignerCert->pbCertEncoded;
if(CryptMsgControl(
hMsg,
0,
CMSG_CTRL_ADD_CERT,
&CosignCertBlob))
{
_tprintf(TEXT("CMSG_CTRL_ADD_CERT succeeded. \n"));
}
else
{
MyHandleError(TEXT("CMSG_CTRL_ADD_CERT failed."));
goto exit_CosignMessage;
}
// Get the size of the cosigned BLOB.
if(CryptMsgGetParam(
hMsg,
CMSG_ENCODED_MESSAGE,
0,
NULL,
&cbCosignedMessageBlob))
{
_tprintf(TEXT("The size for the encoded BLOB is %d.\n"),
cbCosignedMessageBlob);
}
else
{
MyHandleError(TEXT("Sizing of cbSignerInfo failed."));
goto exit_CosignMessage;
}
// Allocate memory for the cosigned BLOB.
if(!(pbCosignedMessageBlob =
(BYTE*)malloc(cbCosignedMessageBlob)))
{
MyHandleError(
TEXT("Memory allocation error while cosigning."));
goto exit_CosignMessage;
}
// Get the cosigned message BLOB.
if(CryptMsgGetParam(
hMsg,
CMSG_ENCODED_MESSAGE,
0,
pbCosignedMessageBlob,
&cbCosignedMessageBlob))
{
_tprintf(TEXT("The message was cosigned successfully. \n"));
// pbSignedMessageBlob now contains the signed BLOB.
fReturn = true;
}
else
{
MyHandleError(TEXT("Sizing of cbSignerInfo failed."));
goto exit_CosignMessage;
}
exit_CosignMessage:
// Clean up and free memory as needed.
if(hMsg)
{
CryptMsgClose(hMsg);
}
if(hCryptProv)
{
CryptReleaseContext(hCryptProv, 0);
hCryptProv = NULL;
}
if(pCosignerCert)
{
CertFreeCertificateContext(pCosignerCert);
pCosignerCert = NULL;
}
if(hCertStore)
{
CertCloseStore(hCertStore, CERT_CLOSE_STORE_CHECK_FLAG);
hCertStore = NULL;
}
// Only free the cosigned message if a failure occurred.
if(!fReturn)
{
if(pbCosignedMessageBlob)
{
free(pbCosignedMessageBlob);
pbCosignedMessageBlob = NULL;
}
}
if(pbCosignedMessageBlob)
{
pCosignedMessageBlob->cbData = cbCosignedMessageBlob;
pCosignedMessageBlob->pbData = pbCosignedMessageBlob;
}
return fReturn;
}
//-------------------------------------------------------------------
// VerifyCosignedMessage
bool VerifyCosignedMessage(
CRYPT_DATA_BLOB *pCosignedMessageBlob,
CRYPT_DATA_BLOB *pDecodedMessageBlob)
{
bool fReturn = false;
BYTE *pbDecodedMessage = NULL;
DWORD cbDecodedMessage=0;
// Get the number of signers of the message.
LONG lSigners = CryptGetMessageSignerCount(
MY_ENCODING_TYPE,
pCosignedMessageBlob->pbData,
pCosignedMessageBlob->cbData);
if(-1 == lSigners)
{
MyHandleError(TEXT("CryptGetMessageSignerCount failed."));
goto exit_VerifyCosignedMessage;
}
// Loop through all of the signers and verify the signature for
// each one.
CRYPT_VERIFY_MESSAGE_PARA VerifyParams;
VerifyParams.cbSize = sizeof(CRYPT_VERIFY_MESSAGE_PARA);
VerifyParams.dwMsgAndCertEncodingType = MY_ENCODING_TYPE;
VerifyParams.hCryptProv = NULL;
VerifyParams.pfnGetSignerCertificate = NULL;
VerifyParams.pvGetArg = NULL;
for(LONG i = 0; i < lSigners; i++)
{
if(!(CryptVerifyMessageSignature(
&VerifyParams,
i,
pCosignedMessageBlob->pbData,
pCosignedMessageBlob->cbData,
NULL,
NULL,
NULL)))
{
MyHandleError(TEXT("One of the message signatures ")
TEXT("could not be verified."));
goto exit_VerifyCosignedMessage;
}
}
// At this point, all of the signatures in the message have been
// verified. Get the decoded data from the message.
_tprintf(
TEXT("All signatures in the message have been verified.\n"));
// Get the size of the decoded message
if(!(CryptVerifyMessageSignature(
&VerifyParams,
0,
pCosignedMessageBlob->pbData,
pCosignedMessageBlob->cbData,
NULL,
&cbDecodedMessage,
NULL)))
{
MyHandleError(TEXT("CryptVerifyMessageSignature failed."));
goto exit_VerifyCosignedMessage;
}
// Allocate memory for the decoded message.
if(!(pbDecodedMessage =
(BYTE*)malloc(cbDecodedMessage)))
{
MyHandleError(
TEXT("Memory allocation error while decoding."));
goto exit_VerifyCosignedMessage;
}
if((CryptVerifyMessageSignature(
&VerifyParams,
0,
pCosignedMessageBlob->pbData,
pCosignedMessageBlob->cbData,
pbDecodedMessage,
&cbDecodedMessage,
NULL)))
{
fReturn = true;
}
else
{
MyHandleError(TEXT("CryptVerifyMessageSignature failed."));
goto exit_VerifyCosignedMessage;
}
_tprintf(TEXT("The verified message is \"%s\".\n"),
pbDecodedMessage);
exit_VerifyCosignedMessage:
// If an error occurred and memory was allocated, free it.
if(!fReturn)
{
if(pbDecodedMessage)
{
free(pbDecodedMessage);
pbDecodedMessage = NULL;
}
}
if(pbDecodedMessage)
{
pDecodedMessageBlob->cbData = cbDecodedMessage;
pDecodedMessageBlob->pbData = pbDecodedMessage;
}
return fReturn;
}