Exemple de programme C : création d’une demande de certificat
L’exemple suivant illustre la procédure décrite dans la section précédente. Cet exemple crée une demande de certificat simple avec un signataire, un attribut RDN (Nom unique relatif) et aucun attribut général.
Cet exemple illustre les fonctions CryptoAPI suivantes :
Cet exemple utilise également les fonctions ByteToStr et MyHandleError. Le code pour ces fonctions est inclus dans l’exemple. usage général Functions répertorie le code pour ces fonctions auxiliaires et d’autres.
//-------------------------------------------------------------------
// Copyright (C) Microsoft. All rights reserved.
// This example demonstrates how to create and encode a
// certificate request.
#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 use this additional #define statement.
#define CERT_SUBJECT_NAME "This certificate user"
//-------------------------------------------------------------------
// This program uses the function ByteToStr to convert an array
// of BYTEs to a char string.
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;
}
void main(void)
{
//-------------------------------------------------------------------
// Declare and initialize variables
// Declare and initialize a CERT_RDN_ATTR array.
// In this code, only one array element is used.
CERT_RDN_ATTR rgNameAttr[] = {
"2.5.4.3", // pszObjId
CERT_RDN_PRINTABLE_STRING, // dwValueType
strlen(CERT_SUBJECT_NAME), // value.cbData
(BYTE*)CERT_SUBJECT_NAME}; // value.pbData
//-------------------------------------------------------------------
// Declare and initialize a CERT_RDN array.
// In this code, only one array element is used.
CERT_RDN rgRDN[] = {
1, // rgRDN[0].cRDNAttr
&rgNameAttr[0]}; // rgRDN[0].rgRDNAttr
//-------------------------------------------------------------------
// Declare and initialize a CERT_NAME_INFO structure.
CERT_NAME_INFO Name = {
1, // Name.cRDN
rgRDN}; // Name.rgRDN
//-------------------------------------------------------------------
// Declare and initialize all other variables and structures.
CERT_REQUEST_INFO CertReqInfo;
CERT_NAME_BLOB SubjNameBlob;
DWORD cbNameEncoded;
BYTE* pbNameEncoded;
HCRYPTPROV hCryptProv;
DWORD cbPublicKeyInfo;
CERT_PUBLIC_KEY_INFO* pbPublicKeyInfo;
DWORD cbEncodedCertReqSize;
CRYPT_OBJID_BLOB Parameters;
CRYPT_ALGORITHM_IDENTIFIER SigAlg;
BYTE* pbSignedEncodedCertReq;
char* pSignedEncodedCertReqBlob;
//-------------------------------------------------------------------
// Begin processing.
if(CryptEncodeObject(
MY_ENCODING_TYPE, // Encoding type
X509_NAME, // Structure type
&Name, // Address of CERT_NAME_INFO structure
NULL, // pbEncoded
&cbNameEncoded)) // pbEncoded size
{
printf("The first call to CryptEncodeObject succeeded. \n");
}
else
{
MyHandleError("The first call to CryptEncodeObject failed. \n"
"A public/private key pair may not exit in the container. \n");
}
//-------------------------------------------------------------------
// Allocate memory for the encoded name.
if(!(pbNameEncoded = (BYTE*)malloc(cbNameEncoded)))
MyHandleError("The pbNamencoded malloc operation failed. \n");
//-------------------------------------------------------------------
// Call CryptEncodeObject to do the actual encoding of the name.
if(CryptEncodeObject(
MY_ENCODING_TYPE, // Encoding type
X509_NAME, // Structure type
&Name, // Address of CERT_NAME_INFO structure
pbNameEncoded, // pbEncoded
&cbNameEncoded)) // pbEncoded size
{
printf("The object is encoded. \n");
}
else
{
free(pbNameEncoded);
MyHandleError("The second call to CryptEncodeObject failed. \n");
}
//-------------------------------------------------------------------
// Set the subject member of CertReqInfo to point to
// a CERT_NAME_INFO structure that
// has been initialized with the data from cbNameEncoded
// and pbNameEncoded.
SubjNameBlob.cbData = cbNameEncoded;
SubjNameBlob.pbData = pbNameEncoded;
CertReqInfo.Subject = SubjNameBlob;
//-------------------------------------------------------------------
// Generate custom information. This step is not
// implemented in this code.
CertReqInfo.cAttribute = 0;
CertReqInfo.rgAttribute = NULL;
CertReqInfo.dwVersion = CERT_REQUEST_V1;
//-------------------------------------------------------------------
// Call CryptExportPublicKeyInfo to return an initialized
// CERT_PUBLIC_KEY_INFO structure.
// First, get 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 cryptographic provider has been acquired. \n");
}
else
{
free(pbNameEncoded);
MyHandleError("CryptAcquireContext failed. \n");
}
//-------------------------------------------------------------------
// Call CryptExportPublicKeyInfo to get the size of the returned
// information.
if(CryptExportPublicKeyInfo(
hCryptProv, // Provider handle
AT_SIGNATURE, // Key spec
MY_ENCODING_TYPE, // Encoding type
NULL, // pbPublicKeyInfo
&cbPublicKeyInfo)) // Size of PublicKeyInfo
{
printf("The keyinfo structure is %d bytes. \n",cbPublicKeyInfo);
}
else
{
free(pbNameEncoded);
MyHandleError("The first call to CryptExportPublickKeyInfo failed. \n"
"The probable cause is that \n"
"there is no key pair in the key container. \n");
}
//-------------------------------------------------------------------
// Allocate the necessary memory.
if(pbPublicKeyInfo =
(CERT_PUBLIC_KEY_INFO*)malloc(cbPublicKeyInfo))
{
printf("Memory is allocated for the public key structure. \n");
}
else
{
free(pbNameEncoded);
MyHandleError("Memory allocation failed. \n");
}
//-------------------------------------------------------------------
// Call CryptExportPublicKeyInfo to get pbPublicKeyInfo.
if(CryptExportPublicKeyInfo(
hCryptProv, // Provider handle
AT_SIGNATURE, // Key spec
MY_ENCODING_TYPE, // Encoding type
pbPublicKeyInfo, // pbPublicKeyInfo
&cbPublicKeyInfo)) // Size of PublicKeyInfo
{
printf("The key has been exported. \n");
}
else
{
free(pbNameEncoded);
free(pbPublicKeyInfo);
MyHandleError("The second call to CryptExportPublicKeyInfo failed. \n");
}
//-------------------------------------------------------------------
// Set the SubjectPublicKeyInfo member of the
// CERT_REQUEST_INFO structure to point to the CERT_PUBLIC_KEY_INFO
// structure created.
CertReqInfo.SubjectPublicKeyInfo = *pbPublicKeyInfo;
memset(&Parameters, 0, sizeof(Parameters));
SigAlg.pszObjId = szOID_OIWSEC_sha1RSASign;
SigAlg.Parameters = Parameters;
//-------------------------------------------------------------------
// Call CryptSignAndEncodeCertificate to get the size of the
// returned BLOB. The dwKeySpec argument should match the KeySpec
// (AT_SIGNATURE or AT_KEYEXCHANGE) used to create the private
// key. Here, AT_KEYEXCHANGE is assumed.
if(CryptSignAndEncodeCertificate(
hCryptProv, // Crypto provider
AT_KEYEXCHANGE, // Key spec
MY_ENCODING_TYPE, // Encoding type
X509_CERT_REQUEST_TO_BE_SIGNED, // Structure type
&CertReqInfo, // Structure information
&SigAlg, // Signature algorithm
NULL, // Not used
NULL, // pbSignedEncodedCertReq
&cbEncodedCertReqSize)) // Size of certificate
// required
{
printf("The size of the encoded certificate is set. \n");
}
else
{
free(pbNameEncoded);
free(pbPublicKeyInfo);
MyHandleError("First call to CryptSignandEncode failed. \n");
}
//-------------------------------------------------------------------
// Allocate memory for the encoded certificate request.
if(pbSignedEncodedCertReq = (BYTE*)malloc(cbEncodedCertReqSize))
{
printf("Memory has been allocated.\n");
}
else
{
free(pbNameEncoded);
free(pbPublicKeyInfo);
MyHandleError("The malloc operation failed. \n");
}
//-------------------------------------------------------------------
// Call CryptSignAndEncodeCertificate to get the
// returned BLOB.
if(CryptSignAndEncodeCertificate(
hCryptProv, // Crypto provider
AT_KEYEXCHANGE, // Key spec
MY_ENCODING_TYPE, // Encoding type
X509_CERT_REQUEST_TO_BE_SIGNED, // Struct type
&CertReqInfo, // Struct info
&SigAlg, // Signature algorithm
NULL, // Not used
pbSignedEncodedCertReq, // Pointer
&cbEncodedCertReqSize)) // Length of the message
{
printf("The message is encoded and signed. \n");
}
else
{
free(pbNameEncoded);
free(pbPublicKeyInfo);
free(pbSignedEncodedCertReq);
MyHandleError("The second call to CryptSignAndEncode failed. \n");
}
//-------------------------------------------------------------------
// View the signed and encoded certificate request BLOB.
pSignedEncodedCertReqBlob =
new char[(cbEncodedCertReqSize *2) +1];
//-------------------------------------------------------------------
// Call ByteToStr, one of the general purpose functions, to convert
// the byte BLOB to ASCII hexadecimal format.
ByteToStr(cbEncodedCertReqSize,
pbSignedEncodedCertReq,
pSignedEncodedCertReqBlob);
//-------------------------------------------------------------------
// Print the string.
printf("The string created is: \n");
printf("%s\n",pSignedEncodedCertReqBlob);
//-------------------------------------------------------------------
// Free memory.
free(pbNameEncoded);
free(pbPublicKeyInfo);
free(pbSignedEncodedCertReq);
CryptReleaseContext(hCryptProv,0);
printf("\nMemory freed. Program ran without error. \n");
} // End of main
//-------------------------------------------------------------------
// 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
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