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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include "nssrenam.h"
#include <cert.h>
#include <secerr.h>
#include <ocsp.h>
#include <sal/config.h>
#include <sal/macros.h>
#include <osl/diagnose.h>
#include "securityenvironment_nssimpl.hxx"
#include <cppuhelper/supportsservice.hxx>
#include <comphelper/servicehelper.hxx>
#include <xmlsec-wrapper.h>
#include <rtl/ustrbuf.hxx>
#include <comphelper/processfactory.hxx>
#include <comphelper/docpasswordrequest.hxx>
#include <sal/log.hxx>
#include <com/sun/star/task/InteractionHandler.hpp>
#include <vector>
#include <memory>
#include <osl/thread.h>
#include <comphelper/sequence.hxx>
#include "x509certificate_nssimpl.hxx"
#include "secerror.hxx"
#include <prerror.h>
#include <keyhi.h>
// added for password exception
#include <com/sun/star/security/NoPasswordException.hpp>
#include <com/sun/star/security/CertificateCharacters.hpp>
#include <com/sun/star/security/CertificateValidity.hpp>
namespace csss = ::com::sun::star::security;
using namespace ::com::sun::star::security;
using namespace com::sun::star;
using namespace ::com::sun::star::uno ;
using namespace ::com::sun::star::lang ;
using ::com::sun::star::xml::crypto::XSecurityEnvironment ;
using ::com::sun::star::security::XCertificate ;
namespace std
{
template <> struct default_delete<PRArenaPool>
{
void operator()(PRArenaPool* ptr) { PORT_FreeArena(ptr, PR_FALSE); }
};
}
static X509Certificate_NssImpl* NssCertToXCert( CERTCertificate* cert ) ;
static X509Certificate_NssImpl* NssPrivKeyToXCert( SECKEYPrivateKey* ) ;
namespace {
struct UsageDescription
{
SECCertificateUsage usage;
char const* description;
UsageDescription()
: usage( certificateUsageCheckAllUsages )
, description( nullptr )
{}
UsageDescription( SECCertificateUsage i_usage, char const* i_description )
: usage( i_usage )
, description( i_description )
{}
};
}
static char* GetPasswordFunction( PK11SlotInfo* pSlot, PRBool bRetry, void* /*arg*/ )
{
uno::Reference< uno::XComponentContext > xContext( ::comphelper::getProcessComponentContext() );
uno::Reference < task::XInteractionHandler2 > xInteractionHandler(
task::InteractionHandler::createWithParent(xContext, nullptr) );
task::PasswordRequestMode eMode = bRetry ? task::PasswordRequestMode_PASSWORD_REENTER : task::PasswordRequestMode_PASSWORD_ENTER;
::comphelper::DocPasswordRequest* pPasswordRequest = new ::comphelper::DocPasswordRequest(
::comphelper::DocPasswordRequestType::Standard, eMode, OUString::createFromAscii(PK11_GetTokenName(pSlot)) );
uno::Reference< task::XInteractionRequest > xRequest( pPasswordRequest );
xInteractionHandler->handle( xRequest );
if ( pPasswordRequest->isPassword() )
{
OString aPassword(OUStringToOString(
pPasswordRequest->getPassword(),
osl_getThreadTextEncoding()));
sal_Int32 nLen = aPassword.getLength();
char* pPassword = static_cast<char*>(PORT_Alloc( nLen+1 ) );
pPassword[nLen] = 0;
memcpy( pPassword, aPassword.getStr(), nLen );
return pPassword;
}
return nullptr;
}
SecurityEnvironment_NssImpl::SecurityEnvironment_NssImpl() :
m_pHandler( nullptr ) , m_tSymKeyList() {
PK11_SetPasswordFunc( GetPasswordFunction ) ;
}
SecurityEnvironment_NssImpl::~SecurityEnvironment_NssImpl() {
PK11_SetPasswordFunc( nullptr ) ;
for (auto& slot : m_Slots)
{
PK11_FreeSlot(slot);
}
for( auto& symKey : m_tSymKeyList )
PK11_FreeSymKey( symKey ) ;
}
/* XServiceInfo */
OUString SAL_CALL SecurityEnvironment_NssImpl::getImplementationName() {
return "com.sun.star.xml.crypto.SecurityEnvironment";
}
/* XServiceInfo */
sal_Bool SAL_CALL SecurityEnvironment_NssImpl::supportsService( const OUString& serviceName) {
return cppu::supportsService(this, serviceName);
}
/* XServiceInfo */
Sequence< OUString > SAL_CALL SecurityEnvironment_NssImpl::getSupportedServiceNames() {
Sequence<OUString> seqServiceNames{ "com.sun.star.xml.crypto.SecurityEnvironment" };
return seqServiceNames;
}
/* XUnoTunnel */
sal_Int64 SAL_CALL SecurityEnvironment_NssImpl::getSomething( const Sequence< sal_Int8 >& aIdentifier )
{
if( isUnoTunnelId<SecurityEnvironment_NssImpl>(aIdentifier) ) {
return sal::static_int_cast<sal_Int64>(reinterpret_cast<sal_uIntPtr>(this));
}
return 0 ;
}
/* XUnoTunnel extension */
namespace
{
class theSecurityEnvironment_NssImplUnoTunnelId : public rtl::Static< UnoTunnelIdInit, theSecurityEnvironment_NssImplUnoTunnelId > {};
}
const Sequence< sal_Int8>& SecurityEnvironment_NssImpl::getUnoTunnelId() {
return theSecurityEnvironment_NssImplUnoTunnelId::get().getSeq();
}
OUString SecurityEnvironment_NssImpl::getSecurityEnvironmentInformation()
{
OUStringBuffer buff;
for (auto& slot : m_Slots)
{
buff.append(OUString::createFromAscii(PK11_GetTokenName(slot)));
buff.append("\n");
}
return buff.makeStringAndClear();
}
void SecurityEnvironment_NssImpl::addCryptoSlot( PK11SlotInfo* aSlot)
{
PK11_ReferenceSlot(aSlot);
m_Slots.push_back(aSlot);
}
//Could we have multiple cert dbs?
void SecurityEnvironment_NssImpl::setCertDb( CERTCertDBHandle* aCertDb ) {
m_pHandler = aCertDb ;
}
void SecurityEnvironment_NssImpl::adoptSymKey( PK11SymKey* aSymKey ) {
if( aSymKey != nullptr ) {
//First try to find the key in the list
if (std::find(m_tSymKeyList.begin(), m_tSymKeyList.end(), aSymKey) != m_tSymKeyList.end())
return;
//If we do not find the key in the list, add a new node
PK11SymKey* symkey = PK11_ReferenceSymKey( aSymKey ) ;
if( symkey == nullptr )
throw RuntimeException() ;
try {
m_tSymKeyList.push_back( symkey ) ;
} catch ( Exception& ) {
PK11_FreeSymKey( symkey ) ;
}
}
}
void SecurityEnvironment_NssImpl::updateSlots()
{
//In case new tokens are present then we can obtain the corresponding slot
osl::MutexGuard guard(m_mutex);
m_Slots.clear();
m_tSymKeyList.clear();
PK11SlotList * soltList = PK11_GetAllTokens( CKM_INVALID_MECHANISM, PR_FALSE, PR_FALSE, nullptr ) ;
if( soltList != nullptr )
{
for (PK11SlotListElement* soltEle = soltList->head ; soltEle != nullptr; soltEle = soltEle->next)
{
PK11SlotInfo * pSlot = soltEle->slot ;
if(pSlot != nullptr)
{
SAL_INFO(
"xmlsecurity.xmlsec",
"Found a slot: SlotName=" << PK11_GetSlotName(pSlot)
<< ", TokenName=" << PK11_GetTokenName(pSlot));
//The following code which is commented out checks if a slot, that is a smart card for example, is
// able to generate a symmetric key of type CKM_DES3_CBC. If this fails then this token
// will not be used. This key is possibly used for the encryption service. However, all
// interfaces and services used for public key signature and encryption are not published
// and the encryption is not used in OOo. Therefore it does not do any harm to remove
// this code, hence allowing smart cards which cannot generate this type of key.
//
// By doing this, the encryption may fail if a smart card is being used which does not
// support this key generation.
//
PK11SymKey * pSymKey = PK11_KeyGen( pSlot , CKM_DES3_CBC, nullptr, 128, nullptr ) ;
// if( pSymKey == NULL )
// {
// PK11_FreeSlot( pSlot ) ;
// SAL_INFO( "xmlsecurity", "XMLSEC: Error - pSymKey is NULL" );
// continue;
// }
addCryptoSlot(pSlot);
PK11_FreeSlot( pSlot ) ;
pSlot = nullptr;
if (pSymKey != nullptr)
{
adoptSymKey( pSymKey ) ;
PK11_FreeSymKey( pSymKey ) ;
pSymKey = nullptr;
}
}// end of if(pSlot != NULL)
}// end of for
}// end of if( soltList != NULL )
}
Sequence< Reference < XCertificate > >
SecurityEnvironment_NssImpl::getPersonalCertificates()
{
sal_Int32 length ;
X509Certificate_NssImpl* xcert ;
std::vector< X509Certificate_NssImpl* > certsList ;
updateSlots();
//firstly, we try to find private keys in slot
for (auto& slot : m_Slots)
{
SECKEYPrivateKeyList* priKeyList ;
if( PK11_NeedLogin(slot ) ) {
SECStatus nRet = PK11_Authenticate(slot, PR_TRUE, nullptr);
//PK11_Authenticate may fail in case the a slot has not been initialized.
//this is the case if the user has a new profile, so that they have never
//added a personal certificate.
if( nRet != SECSuccess && PORT_GetError() != SEC_ERROR_IO) {
throw NoPasswordException();
}
}
priKeyList = PK11_ListPrivateKeysInSlot(slot) ;
if( priKeyList != nullptr )
{
for (SECKEYPrivateKeyListNode* curPri = PRIVKEY_LIST_HEAD(priKeyList);
!PRIVKEY_LIST_END( curPri, priKeyList ) && curPri != nullptr;
curPri = PRIVKEY_LIST_NEXT(curPri))
{
xcert = NssPrivKeyToXCert( curPri->key ) ;
if( xcert != nullptr )
certsList.push_back( xcert ) ;
}
SECKEY_DestroyPrivateKeyList( priKeyList ) ;
}
}
length = certsList.size() ;
if( length != 0 ) {
int i = 0;
Sequence< Reference< XCertificate > > certSeq( length ) ;
for( const auto& rXCert : certsList ) {
certSeq[i] = rXCert ;
++i;
}
return certSeq ;
}
return Sequence< Reference < XCertificate > > ();
}
Reference< XCertificate > SecurityEnvironment_NssImpl::getCertificate( const OUString& issuerName, const Sequence< sal_Int8 >& serialNumber )
{
X509Certificate_NssImpl* xcert = nullptr;
if( m_pHandler != nullptr ) {
CERTIssuerAndSN issuerAndSN ;
CERTCertificate* cert ;
CERTName* nmIssuer ;
char* chIssuer ;
SECItem* derIssuer ;
std::unique_ptr<PRArenaPool> arena(PORT_NewArena(DER_DEFAULT_CHUNKSIZE));
if( arena == nullptr )
throw RuntimeException() ;
// Create cert info from issue and serial
OString ostr = OUStringToOString( issuerName , RTL_TEXTENCODING_UTF8 ) ;
chIssuer = PL_strndup( ostr.getStr(), static_cast<int>(ostr.getLength()) ) ;
nmIssuer = CERT_AsciiToName( chIssuer ) ;
if( nmIssuer == nullptr ) {
PL_strfree( chIssuer ) ;
return nullptr; // no need for exception cf. i40394
}
derIssuer = SEC_ASN1EncodeItem( arena.get(), nullptr, static_cast<void*>(nmIssuer), SEC_ASN1_GET( CERT_NameTemplate ) ) ;
if( derIssuer == nullptr ) {
PL_strfree( chIssuer ) ;
CERT_DestroyName( nmIssuer ) ;
throw RuntimeException() ;
}
memset( &issuerAndSN, 0, sizeof( issuerAndSN ) ) ;
issuerAndSN.derIssuer.data = derIssuer->data ;
issuerAndSN.derIssuer.len = derIssuer->len ;
issuerAndSN.serialNumber.data = reinterpret_cast<unsigned char *>(const_cast<sal_Int8 *>(serialNumber.getConstArray()));
issuerAndSN.serialNumber.len = serialNumber.getLength() ;
cert = CERT_FindCertByIssuerAndSN( m_pHandler, &issuerAndSN ) ;
if( cert != nullptr ) {
xcert = NssCertToXCert( cert ) ;
} else {
xcert = nullptr ;
}
PL_strfree( chIssuer ) ;
CERT_DestroyName( nmIssuer ) ;
//SECITEM_FreeItem( derIssuer, PR_FALSE ) ;
CERT_DestroyCertificate( cert ) ;
} else {
xcert = nullptr ;
}
return xcert ;
}
Sequence< Reference < XCertificate > > SecurityEnvironment_NssImpl::buildCertificatePath( const Reference< XCertificate >& begin ) {
// Remember the signing certificate.
m_xSigningCertificate = begin;
const X509Certificate_NssImpl* xcert ;
const CERTCertificate* cert ;
CERTCertList* certChain ;
Reference< XUnoTunnel > xCertTunnel( begin, UNO_QUERY_THROW ) ;
xcert = reinterpret_cast<X509Certificate_NssImpl*>(
sal::static_int_cast<sal_uIntPtr>(xCertTunnel->getSomething( X509Certificate_NssImpl::getUnoTunnelId() ))) ;
if( xcert == nullptr ) {
throw RuntimeException() ;
}
cert = xcert->getNssCert() ;
if( cert != nullptr ) {
int64 timeboundary ;
//Get the system clock time
timeboundary = PR_Now() ;
certChain = CERT_GetCertChainFromCert( const_cast<CERTCertificate*>(cert), timeboundary, certUsageAnyCA ) ;
} else {
certChain = nullptr ;
}
if( certChain != nullptr ) {
std::vector<uno::Reference<security::XCertificate>> aCertChain;
for (CERTCertListNode* node = CERT_LIST_HEAD(certChain); !CERT_LIST_END(node, certChain); node = CERT_LIST_NEXT(node)) {
X509Certificate_NssImpl* pCert = new X509Certificate_NssImpl();
if( pCert == nullptr ) {
CERT_DestroyCertList( certChain ) ;
throw RuntimeException() ;
}
pCert->setCert( node->cert ) ;
aCertChain.push_back(pCert);
}
CERT_DestroyCertList( certChain ) ;
return comphelper::containerToSequence(aCertChain);
}
return Sequence< Reference < XCertificate > >();
}
X509Certificate_NssImpl* SecurityEnvironment_NssImpl::createAndAddCertificateFromPackage(
const css::uno::Sequence<sal_Int8>& raDERCertificate,
OUString const & raString)
{
auto pCertificateBytes = reinterpret_cast<char *>(const_cast<sal_Int8 *>(raDERCertificate.getConstArray()));
CERTCertificate* pCERTCertificate = CERT_DecodeCertFromPackage(pCertificateBytes, raDERCertificate.getLength());
if (!pCERTCertificate)
return nullptr;
SECStatus aStatus;
OString aTrustString = OUStringToOString(raString, RTL_TEXTENCODING_ASCII_US);
CERTCertTrust aTrust;
aStatus = CERT_DecodeTrustString(&aTrust, aTrustString.getStr());
if (aStatus != SECSuccess)
return nullptr;
PK11SlotInfo* pSlot = PK11_GetInternalKeySlot();
if (!pSlot)
return nullptr;
aStatus = PK11_ImportCert(pSlot, pCERTCertificate, CK_INVALID_HANDLE, nullptr, PR_FALSE);
if (aStatus != SECSuccess)
return nullptr;
aStatus = CERT_ChangeCertTrust(CERT_GetDefaultCertDB(), pCERTCertificate, &aTrust);
if (aStatus != SECSuccess)
return nullptr;
PK11_FreeSlot(pSlot);
X509Certificate_NssImpl* pX509Certificate = new X509Certificate_NssImpl();
pX509Certificate->setCert(pCERTCertificate);
return pX509Certificate;
}
X509Certificate_NssImpl* SecurityEnvironment_NssImpl::createX509CertificateFromDER(const css::uno::Sequence<sal_Int8>& aDerCertificate)
{
X509Certificate_NssImpl* pX509Certificate = nullptr;
if (aDerCertificate.hasElements())
{
pX509Certificate = new X509Certificate_NssImpl();
if (pX509Certificate == nullptr)
throw RuntimeException();
pX509Certificate->setRawCert(aDerCertificate);
}
return pX509Certificate;
}
Reference<XCertificate> SecurityEnvironment_NssImpl::createCertificateFromRaw(const Sequence< sal_Int8 >& rawCertificate)
{
return createX509CertificateFromDER(rawCertificate);
}
Reference< XCertificate > SecurityEnvironment_NssImpl::createCertificateFromAscii( const OUString& asciiCertificate )
{
OString oscert = OUStringToOString( asciiCertificate , RTL_TEXTENCODING_ASCII_US ) ;
xmlChar* chCert = xmlStrndup( reinterpret_cast<const xmlChar*>(oscert.getStr()), static_cast<int>(oscert.getLength()) ) ;
int certSize = xmlSecBase64Decode( chCert, reinterpret_cast<xmlSecByte*>(chCert), xmlStrlen( chCert ) ) ;
if (certSize > 0)
{
Sequence< sal_Int8 > rawCert(certSize) ;
for (int i = 0 ; i < certSize; ++i)
rawCert[i] = *( chCert + i ) ;
xmlFree( chCert ) ;
return createCertificateFromRaw( rawCert ) ;
}
else
{
return nullptr;
}
}
sal_Int32 SecurityEnvironment_NssImpl ::
verifyCertificate( const Reference< csss::XCertificate >& aCert,
const Sequence< Reference< csss::XCertificate > >& intermediateCerts )
{
sal_Int32 validity = csss::CertificateValidity::INVALID;
const X509Certificate_NssImpl* xcert ;
const CERTCertificate* cert ;
::std::vector<CERTCertificate*> vecTmpNSSCertificates;
Reference< XUnoTunnel > xCertTunnel( aCert, UNO_QUERY_THROW ) ;
SAL_INFO("xmlsecurity.xmlsec", "Start verification of certificate: " << aCert->getSubjectName());
xcert = reinterpret_cast<X509Certificate_NssImpl*>(
sal::static_int_cast<sal_uIntPtr>(xCertTunnel->getSomething( X509Certificate_NssImpl::getUnoTunnelId() ))) ;
if( xcert == nullptr ) {
throw RuntimeException() ;
}
//CERT_PKIXVerifyCert does not take a db as argument. It will therefore
//internally use CERT_GetDefaultCertDB
//Make sure m_pHandler is the default DB
OSL_ASSERT(m_pHandler == CERT_GetDefaultCertDB());
CERTCertDBHandle * certDb = m_pHandler != nullptr ? m_pHandler : CERT_GetDefaultCertDB();
cert = xcert->getNssCert() ;
if( cert != nullptr )
{
//prepare the intermediate certificates
for (const auto& rIntermediateCert : intermediateCerts)
{
Sequence<sal_Int8> der = rIntermediateCert->getEncoded();
SECItem item;
item.type = siBuffer;
item.data = reinterpret_cast<unsigned char*>(der.getArray());
item.len = der.getLength();
CERTCertificate* certTmp = CERT_NewTempCertificate(certDb, &item,
nullptr /* nickname */,
PR_FALSE /* isPerm */,
PR_TRUE /* copyDER */);
if (!certTmp)
{
SAL_INFO("xmlsecurity.xmlsec", "Failed to add a temporary certificate: " << rIntermediateCert->getIssuerName());
}
else
{
SAL_INFO("xmlsecurity.xmlsec", "Added temporary certificate: " <<
(certTmp->subjectName ? certTmp->subjectName : ""));
vecTmpNSSCertificates.push_back(certTmp);
}
}
SECStatus status ;
CERTVerifyLog log;
log.arena = PORT_NewArena(512);
log.head = log.tail = nullptr;
log.count = 0;
CERT_EnableOCSPChecking(certDb);
CERT_DisableOCSPDefaultResponder(certDb);
CERTValOutParam cvout[5];
CERTValInParam cvin[3];
int ncvinCount=0;
#if ( NSS_VMAJOR > 3 ) || ( NSS_VMAJOR == 3 && NSS_VMINOR > 12 ) || ( NSS_VMAJOR == 3 && NSS_VMINOR == 12 && NSS_VPATCH > 0 )
cvin[ncvinCount].type = cert_pi_useAIACertFetch;
cvin[ncvinCount].value.scalar.b = PR_TRUE;
ncvinCount++;
#endif
PRUint64 revFlagsLeaf[2];
PRUint64 revFlagsChain[2];
CERTRevocationFlags rev;
rev.leafTests.number_of_defined_methods = 2;
rev.leafTests.cert_rev_flags_per_method = revFlagsLeaf;
//the flags are defined in cert.h
//We check both leaf and chain.
//It is enough if one revocation method has fresh info,
//but at least one must have some. Otherwise validation fails.
//!!! using leaf test and CERT_REV_MI_REQUIRE_SOME_FRESH_INFO_AVAILABLE
// when validating a root certificate will result in "revoked". Usually
//there is no revocation information available for the root cert because
//it must be trusted anyway and it does itself issue revocation information.
//When we use the flag here and OOo shows the certification path then the root
//cert is invalid while all other can be valid. It would probably best if
//this interface method returned the whole chain.
//Otherwise we need to check if the certificate is self-signed and if it is
//then not use the flag when doing the leaf-test.
rev.leafTests.cert_rev_flags_per_method[cert_revocation_method_crl] =
CERT_REV_M_TEST_USING_THIS_METHOD
| CERT_REV_M_IGNORE_IMPLICIT_DEFAULT_SOURCE;
rev.leafTests.cert_rev_flags_per_method[cert_revocation_method_ocsp] =
CERT_REV_M_TEST_USING_THIS_METHOD
| CERT_REV_M_IGNORE_IMPLICIT_DEFAULT_SOURCE;
rev.leafTests.number_of_preferred_methods = 0;
rev.leafTests.preferred_methods = nullptr;
rev.leafTests.cert_rev_method_independent_flags =
CERT_REV_MI_TEST_ALL_LOCAL_INFORMATION_FIRST;
rev.chainTests.number_of_defined_methods = 2;
rev.chainTests.cert_rev_flags_per_method = revFlagsChain;
rev.chainTests.cert_rev_flags_per_method[cert_revocation_method_crl] =
CERT_REV_M_TEST_USING_THIS_METHOD
| CERT_REV_M_IGNORE_IMPLICIT_DEFAULT_SOURCE;
rev.chainTests.cert_rev_flags_per_method[cert_revocation_method_ocsp] =
CERT_REV_M_TEST_USING_THIS_METHOD
| CERT_REV_M_IGNORE_IMPLICIT_DEFAULT_SOURCE;
rev.chainTests.number_of_preferred_methods = 0;
rev.chainTests.preferred_methods = nullptr;
rev.chainTests.cert_rev_method_independent_flags =
CERT_REV_MI_TEST_ALL_LOCAL_INFORMATION_FIRST;
cvin[ncvinCount].type = cert_pi_revocationFlags;
cvin[ncvinCount].value.pointer.revocation = &rev;
ncvinCount++;
// does not work, not implemented yet in 3.12.4
// cvin[ncvinCount].type = cert_pi_keyusage;
// cvin[ncvinCount].value.scalar.ui = KU_DIGITAL_SIGNATURE;
// ncvinCount++;
cvin[ncvinCount].type = cert_pi_end;
cvout[0].type = cert_po_trustAnchor;
cvout[0].value.pointer.cert = nullptr;
cvout[1].type = cert_po_errorLog;
cvout[1].value.pointer.log = &log;
cvout[2].type = cert_po_end;
// We check SSL server certificates, CA certificates and signing certificates.
//
// ToDo check keyusage, looking at CERT_KeyUsageAndTypeForCertUsage (
// mozilla/security/nss/lib/certdb/certdb.c indicates that
// certificateUsageSSLClient, certificateUsageSSLServer and certificateUsageSSLCA
// are sufficient. They cover the key usages for digital signature, key agreement
// and encipherment and certificate signature
//never use the following usages because they are not checked properly
// certificateUsageUserCertImport
// certificateUsageVerifyCA
// certificateUsageAnyCA
// certificateUsageProtectedObjectSigner
UsageDescription arUsages[5];
arUsages[0] = UsageDescription( certificateUsageSSLClient, "certificateUsageSSLClient" );
arUsages[1] = UsageDescription( certificateUsageSSLServer, "certificateUsageSSLServer" );
arUsages[2] = UsageDescription( certificateUsageSSLCA, "certificateUsageSSLCA" );
arUsages[3] = UsageDescription( certificateUsageEmailSigner, "certificateUsageEmailSigner" );
arUsages[4] = UsageDescription( certificateUsageEmailRecipient, "certificateUsageEmailRecipient" );
int numUsages = SAL_N_ELEMENTS(arUsages);
for (int i = 0; i < numUsages; i++)
{
SAL_INFO("xmlsecurity.xmlsec", "Testing usage " << i+1 <<
" of " << numUsages << ": " <<
arUsages[i].description <<
" (0x" << std::hex << static_cast<int>(arUsages[i].usage) << ")" << std::dec);
status = CERT_PKIXVerifyCert(const_cast<CERTCertificate *>(cert), arUsages[i].usage,
cvin, cvout, nullptr);
if( status == SECSuccess )
{
SAL_INFO("xmlsecurity.xmlsec", "CERT_PKIXVerifyCert returned SECSuccess.");
//When an intermediate or root certificate is checked then we expect the usage
//certificateUsageSSLCA. This, however, will be only set when in the trust settings dialog
//the button "This certificate can identify websites" is checked. If for example only
//"This certificate can identify mail users" is set then the end certificate can
//be validated and the returned usage will contain certificateUsageEmailRecipient.
//But checking directly the root or intermediate certificate will fail. In the
//certificate path view the end certificate will be shown as valid but the others
//will be displayed as invalid.
validity = csss::CertificateValidity::VALID;
SAL_INFO("xmlsecurity.xmlsec", "Certificate is valid.");
CERTCertificate * issuerCert = cvout[0].value.pointer.cert;
if (issuerCert)
{
SAL_INFO("xmlsecurity.xmlsec", "Root certificate: " << issuerCert->subjectName);
CERT_DestroyCertificate(issuerCert);
};
break;
}
else
{
PRIntn err = PR_GetError();
SAL_INFO("xmlsecurity.xmlsec", "Error: " << err << ": " << getCertError(err));
/* Display validation results */
if ( log.count > 0)
{
CERTVerifyLogNode *node = nullptr;
printChainFailure(&log);
for (node = log.head; node; node = node->next) {
if (node->cert)
CERT_DestroyCertificate(node->cert);
}
log.head = log.tail = nullptr;
log.count = 0;
}
SAL_INFO("xmlsecurity.xmlsec", "Certificate is invalid.");
}
}
}
else
{
validity = css::security::CertificateValidity::INVALID ;
}
//Destroying the temporary certificates
for (auto& tmpCert : vecTmpNSSCertificates)
{
SAL_INFO("xmlsecurity.xmlsec", "Destroying temporary certificate");
CERT_DestroyCertificate(tmpCert);
}
return validity ;
}
sal_Int32 SecurityEnvironment_NssImpl::getCertificateCharacters(
const css::uno::Reference< css::security::XCertificate >& aCert ) {
sal_Int32 characters ;
const X509Certificate_NssImpl* xcert ;
const CERTCertificate* cert ;
Reference< XUnoTunnel > xCertTunnel( aCert, UNO_QUERY_THROW ) ;
xcert = reinterpret_cast<X509Certificate_NssImpl*>(
sal::static_int_cast<sal_uIntPtr>(xCertTunnel->getSomething( X509Certificate_NssImpl::getUnoTunnelId() ))) ;
if( xcert == nullptr ) {
throw RuntimeException() ;
}
cert = xcert->getNssCert() ;
characters = 0x00000000 ;
//Firstly, find out whether or not the cert is self-signed.
if( SECITEM_CompareItem( &(cert->derIssuer), &(cert->derSubject) ) == SECEqual ) {
characters |= css::security::CertificateCharacters::SELF_SIGNED ;
} else {
characters &= ~ css::security::CertificateCharacters::SELF_SIGNED ;
}
//Secondly, find out whether or not the cert has a private key.
/*
* i40394
*
* mmi : need to check whether the cert's slot is valid first
*/
SECKEYPrivateKey* priKey = nullptr;
if (cert->slot != nullptr)
{
priKey = PK11_FindPrivateKeyFromCert( cert->slot, const_cast<CERTCertificate*>(cert), nullptr ) ;
}
if(priKey == nullptr)
{
for (auto& slot : m_Slots)
{
priKey = PK11_FindPrivateKeyFromCert(slot, const_cast<CERTCertificate*>(cert), nullptr);
if (priKey)
break;
}
}
if( priKey != nullptr ) {
characters |= css::security::CertificateCharacters::HAS_PRIVATE_KEY ;
SECKEY_DestroyPrivateKey( priKey ) ;
} else {
characters &= ~ css::security::CertificateCharacters::HAS_PRIVATE_KEY ;
}
return characters ;
}
X509Certificate_NssImpl* NssCertToXCert( CERTCertificate* cert )
{
X509Certificate_NssImpl* xcert ;
if( cert != nullptr ) {
xcert = new X509Certificate_NssImpl() ;
xcert->setCert( cert ) ;
} else {
xcert = nullptr ;
}
return xcert ;
}
X509Certificate_NssImpl* NssPrivKeyToXCert( SECKEYPrivateKey* priKey )
{
X509Certificate_NssImpl* xcert ;
if( priKey != nullptr ) {
CERTCertificate* cert = PK11_GetCertFromPrivateKey( priKey ) ;
if( cert != nullptr ) {
xcert = NssCertToXCert( cert ) ;
} else {
xcert = nullptr ;
}
CERT_DestroyCertificate( cert ) ;
} else {
xcert = nullptr ;
}
return xcert ;
}
xmlSecKeysMngrPtr SecurityEnvironment_NssImpl::createKeysManager() {
/*-
* The following lines is based on the private version of xmlSec-NSS
* crypto engine
*/
int cSlots = m_Slots.size();
std::unique_ptr<PK11SlotInfo*[]> sarSlots(new PK11SlotInfo*[cSlots]);
PK11SlotInfo** slots = sarSlots.get();
int count = 0;
for (const auto& slot : m_Slots)
{
slots[count] = slot;
++count;
}
xmlSecKeysMngrPtr pKeysMngr = xmlSecKeysMngrCreate();
if (!pKeysMngr)
throw RuntimeException();
if (xmlSecNssAppDefaultKeysMngrInit(pKeysMngr) < 0)
throw RuntimeException();
// Adopt the private key of the signing certificate, if it has any.
if (auto pCertificate = dynamic_cast<X509Certificate_NssImpl*>(m_xSigningCertificate.get()))
{
SECKEYPrivateKey* pPrivateKey = SECKEY_CopyPrivateKey(pCertificate->getPrivateKey());
if (pPrivateKey)
{
xmlSecKeyDataPtr pKeyData = xmlSecNssPKIAdoptKey(pPrivateKey, nullptr);
xmlSecKeyPtr pKey = xmlSecKeyCreate();
xmlSecKeySetValue(pKey, pKeyData);
xmlSecNssAppDefaultKeysMngrAdoptKey(pKeysMngr, pKey);
}
else
{
SAL_WARN("xmlsecurity.xmlsec", "Can't get the private key from the certificate.");
}
}
return pKeysMngr;
}
void SecurityEnvironment_NssImpl::destroyKeysManager(xmlSecKeysMngrPtr pKeysMngr) {
if( pKeysMngr != nullptr ) {
xmlSecKeysMngrDestroy( pKeysMngr ) ;
}
}
SECKEYPrivateKey* SecurityEnvironment_NssImpl::insertPrivateKey(css::uno::Sequence<sal_Int8> const & raPrivateKey)
{
PK11SlotInfo* pSlot = PK11_GetInternalKeySlot();
if (!pSlot)
return nullptr;
SECItem aDerPrivateKeyInfo;
aDerPrivateKeyInfo.data = reinterpret_cast<unsigned char *>(const_cast<sal_Int8 *>(raPrivateKey.getConstArray()));
aDerPrivateKeyInfo.len = raPrivateKey.getLength();
const unsigned int aKeyUsage = KU_ALL;
SECKEYPrivateKey* pPrivateKey = nullptr;
bool bPermanent = PR_FALSE;
bool bPrivate = PR_TRUE;
SECStatus nStatus = PK11_ImportDERPrivateKeyInfoAndReturnKey(
pSlot, &aDerPrivateKeyInfo, nullptr, nullptr, bPermanent, bPrivate,
aKeyUsage, &pPrivateKey, nullptr);
if (nStatus != SECSuccess)
return nullptr;
PK11_FreeSlot(pSlot);
return pPrivateKey;
}
uno::Reference<security::XCertificate> SecurityEnvironment_NssImpl::createDERCertificateWithPrivateKey(
Sequence<sal_Int8> const & raDERCertificate, Sequence<sal_Int8> const & raPrivateKey)
{
SECKEYPrivateKey* pPrivateKey = insertPrivateKey(raPrivateKey);
if (!pPrivateKey)
return uno::Reference<security::XCertificate>();
X509Certificate_NssImpl* pX509Certificate = createAndAddCertificateFromPackage(raDERCertificate, "TCu,TCu,TCu");
if (!pX509Certificate)
return uno::Reference<security::XCertificate>();
return pX509Certificate;
}
uno::Reference<security::XCertificate> SecurityEnvironment_NssImpl::addDERCertificateToTheDatabase(
uno::Sequence<sal_Int8> const & raDERCertificate, OUString const & raTrustString)
{
X509Certificate_NssImpl* pX509Certificate = createAndAddCertificateFromPackage(raDERCertificate, raTrustString);
return pX509Certificate;
}
extern "C" SAL_DLLPUBLIC_EXPORT uno::XInterface*
com_sun_star_xml_crypto_SecurityEnvironment_get_implementation(
uno::XComponentContext* /*pCtx*/, uno::Sequence<uno::Any> const& /*rSeq*/)
{
return cppu::acquire(new SecurityEnvironment_NssImpl);
}
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