Ajout d’utilisateurs à un fichier chiffré
L’exemple de code de cette rubrique ajoute un nouvel utilisateur à un fichier chiffré existant à l’aide de la fonction AddUsersToEncryptedFile . Il nécessite que le certificat EFS (Encrypting File System) de l’utilisateur (à partir d’Active Directory) existe dans le magasin de certificats utilisateur Personnes approuvé.
Cet exemple ajoute un nouveau champ de récupération de données au fichier chiffré. Par conséquent, l’utilisateur qui vient d’être ajouté peut déchiffrer le fichier chiffré. L’appelant doit déjà avoir accès au fichier chiffré, soit en tant que propriétaire d’origine, agent de récupération de données, soit en tant qu’utilisateur qui a été précédemment ajouté au fichier chiffré.
//-------------------------------------------------------------------
//
// Adduser.c: adds a user to an encrypted file.
//
// Note: Build project must link Crypt32.lib
//-------------------------------------------------------------------
#define UNICODE 1
#include <Windows.h>
#include <malloc.h>
#include <stdlib.h>
#include <stdio.h>
#include <wchar.h>
#include <wincrypt.h>
#include <winefs.h>
#pragma comment(lib, "Advapi32.lib")
#pragma comment(lib, "Crypt32.lib")
//-------------------------------------------------------------------
// Utility function that outputs this application's usage
// instructions.
//
VOID usage(LPWSTR wszAppName)
{
wprintf(L"\n%s: adds users to encrypted files.\n", wszAppName);
wprintf(L"\nUsage:\tadduser <file> <user name> <subject name>\n\n");
wprintf(L"\t<file> is the name of the file\n");
wprintf(L"\t<user name> is the name of the user's account\n");
wprintf(L"\t\tExample: for name@example.com, use \"name\"\n");
wprintf(L"\t<subject name> is the \"IssuedTo\" name on the ");
wprintf(L"certificate\n\t\tfrom the TrustedPeople store.\n");
exit(1);
}
VOID ErrorExit(LPWSTR wszErrorMessage, DWORD dwErrorCode);
void __cdecl wmain(int argc, wchar_t *argv[])
{
LPWSTR wszFile = NULL;
LPWSTR wszAccount = NULL;
LPWSTR wszSubject = NULL;
PSID pSid = NULL;
DWORD cbSid = 0;
LPWSTR wszDomain = NULL;
DWORD cchDomain = 0;
SID_NAME_USE SidType = SidTypeUser;
HCERTSTORE hStore = NULL;
PCCERT_CONTEXT pCertContext = NULL;
PENCRYPTION_CERTIFICATE pEfsEncryptionCert = NULL;
PENCRYPTION_CERTIFICATE_LIST pEfsEncryptionCertList = NULL;
DWORD dwResult = ERROR_SUCCESS;
// Simple check whether to explain usage to the user.
//
if(argc !=4)
{
usage(argv[0]);
}
// TODO: Check the parameters for correctness.
//
wszFile = argv[1];
wszAccount = argv[2];
wszSubject = argv[3];
// First, look up the user's SID using the specified account name.
// Call LookupAccountName twice; first to find the size of the
// SID, and a second time to retrieve the SID.
//
LookupAccountName(NULL,wszAccount,pSid,&cbSid,
wszDomain,&cchDomain,&SidType);
if(0 == cbSid)
{
ErrorExit(L"LookupAccountName did not return the SID size.",
GetLastError());
}
pSid = (PSID)malloc(cbSid);
if(!pSid)
{
ErrorExit(L"Failed to allocate SID.", GetLastError());
}
wszDomain = (LPWSTR)malloc(cchDomain * sizeof(WCHAR));
if(!wszDomain)
{
ErrorExit(L"Failed to allocate string.", GetLastError());
}
if(!LookupAccountName(NULL,wszAccount,pSid,&cbSid,
wszDomain,&cchDomain,&SidType))
{
ErrorExit(L"LookupAccountName failed.", GetLastError());
}
// Obtain the user's certificate.
// Search the TrustedPeople store for the specified subject name.
// Anyone who has encrypted a file on the computer has an
// encryption certificate placed the TrustedPeople store by the
// system. It is likely that the user has a matching private key.
//
hStore = CertOpenSystemStore( (HCRYPTPROV)NULL,L"TrustedPeople");
if (! hStore)
{
ErrorExit(L"OpenSystemStore failed.", GetLastError());
}
pCertContext = CertFindCertificateInStore( hStore,
X509_ASN_ENCODING | PKCS_7_ASN_ENCODING,
0,
CERT_FIND_SUBJECT_STR,
(VOID*)wszSubject,
NULL);
if(!pCertContext)
{
ErrorExit(L"FindCertificateInStore failed.", GetLastError());
}
// Create the ENCRYPTION_CERTIFICATE using the cert context and
// the user's SID.
//
pEfsEncryptionCert = (PENCRYPTION_CERTIFICATE)
malloc(sizeof(ENCRYPTION_CERTIFICATE));
if(!pEfsEncryptionCert)
{
ErrorExit(L"Failed to allocate structure.", GetLastError());
}
pEfsEncryptionCert->cbTotalLength =
sizeof(ENCRYPTION_CERTIFICATE);
pEfsEncryptionCert->pUserSid = (SID *)pSid;
pEfsEncryptionCert->pCertBlob = (PEFS_CERTIFICATE_BLOB)
malloc(sizeof(EFS_CERTIFICATE_BLOB));
if(!pEfsEncryptionCert->pCertBlob)
{
ErrorExit(L"Failed to allocate cert blob.", GetLastError());
}
pEfsEncryptionCert->pCertBlob->dwCertEncodingType =
pCertContext->dwCertEncodingType;
pEfsEncryptionCert->pCertBlob->cbData =
pCertContext->cbCertEncoded;
pEfsEncryptionCert->pCertBlob->pbData =
pCertContext->pbCertEncoded;
// AddUsersToEncryptedFile takes an ENCRYPTION_CERTIFICATE_LIST;
// create one with only one ENCRYPTION_CERTIFICATE in it.
//
pEfsEncryptionCertList = (PENCRYPTION_CERTIFICATE_LIST)
malloc(sizeof(ENCRYPTION_CERTIFICATE_LIST));
if(!pEfsEncryptionCertList)
{
ErrorExit(L"Failed to allocate structure.", GetLastError());
}
pEfsEncryptionCertList->nUsers = 1;
pEfsEncryptionCertList->pUsers = &pEfsEncryptionCert;
// Call the API to add the user.
//
dwResult =
AddUsersToEncryptedFile(wszFile,pEfsEncryptionCertList);
if(ERROR_SUCCESS == dwResult)
{
wprintf(L"The user was successfully added to the file.\n");
}
else
{
ErrorExit(L"AddUsersToEncryptedFile failed.", dwResult);
}
// Clean up all allocated resources.
//
if(wszDomain) free(wszDomain);
if(pSid) free(pSid);
if(pCertContext) CertFreeCertificateContext(pCertContext);
if(hStore) CertCloseStore(hStore,CERT_CLOSE_STORE_FORCE_FLAG);
if(pEfsEncryptionCertList)
{
if (pEfsEncryptionCertList->pUsers)
{
if(pEfsEncryptionCertList->pUsers[0])
{
if((pEfsEncryptionCertList->pUsers[0])->pCertBlob)
free((pEfsEncryptionCertList->pUsers[0])->pCertBlob);
free(pEfsEncryptionCertList->pUsers[0]);
}
free(pEfsEncryptionCertList->pUsers);
}
free(pEfsEncryptionCertList);
}
wprintf(L"The program ran to completion without error.\n");
exit(0);
}
//------------------------------------------------------------------
// A simple error handling function that prints an error message
// and exits the program.
//
// TODO: Replace this function with one that has better error
// reporting.
//
VOID ErrorExit(LPWSTR wszErrorMessage, DWORD dwErrorCode)
{
fwprintf(stderr, L"An error occurred in running the program. \n");
fwprintf(stderr, L"%s\n", wszErrorMessage);
fwprintf(stderr, L"Error code: 0x%08x\n", dwErrorCode);
fwprintf(stderr, L"Program terminating. \n");
exit(1);
}
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