src/net/base/nss_cert_database.cc - cobalt - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "net/base/nss_cert_database.h"

 #include <cert.h>
 #include <certdb.h>
 #include <keyhi.h>
 #include <pk11pub.h>
 #include <secmod.h>

 #include "base/logging.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/memory/singleton.h"
 #include "base/observer_list_threadsafe.h"
 #include "crypto/nss_util.h"
 #include "crypto/nss_util_internal.h"
 #include "net/base/cert_database.h"
 #include "net/base/crypto_module.h"
 #include "net/base/net_errors.h"
 #include "net/base/x509_certificate.h"
 #include "net/third_party/mozilla_security_manager/nsNSSCertificateDB.h"
 #include "net/third_party/mozilla_security_manager/nsPKCS12Blob.h"

 // In NSS 3.13, CERTDB_VALID_PEER was renamed CERTDB_TERMINAL_RECORD. So we use
 // the new name of the macro.
 #if !defined(CERTDB_TERMINAL_RECORD)
 #define CERTDB_TERMINAL_RECORD CERTDB_VALID_PEER
 #endif

 // PSM = Mozilla's Personal Security Manager.
 namespace psm = mozilla_security_manager;

 namespace net {

 NSSCertDatabase::ImportCertFailure::ImportCertFailure(
     X509Certificate* cert, int err)
     : certificate(cert),
       net_error(err) {}

 NSSCertDatabase::ImportCertFailure::~ImportCertFailure() {}

 // static
 NSSCertDatabase* NSSCertDatabase::GetInstance() {
   return Singleton<NSSCertDatabase>::get();
 }

 NSSCertDatabase::NSSCertDatabase()
     : observer_list_(new ObserverListThreadSafe<Observer>) {
   crypto::EnsureNSSInit();
   psm::EnsurePKCS12Init();
 }

 NSSCertDatabase::~NSSCertDatabase() {}

 void NSSCertDatabase::ListCerts(CertificateList* certs) {
   certs->clear();

   CERTCertList* cert_list = PK11_ListCerts(PK11CertListUnique, NULL);
   CERTCertListNode* node;
   for (node = CERT_LIST_HEAD(cert_list);
        !CERT_LIST_END(node, cert_list);
        node = CERT_LIST_NEXT(node)) {
     certs->push_back(X509Certificate::CreateFromHandle(
         node->cert, X509Certificate::OSCertHandles()));
   }
   CERT_DestroyCertList(cert_list);
 }

 CryptoModule* NSSCertDatabase::GetPublicModule() const {
   CryptoModule* module =
       CryptoModule::CreateFromHandle(crypto::GetPublicNSSKeySlot());
   // The module is already referenced when returned from
   // GetPublicNSSKeySlot, so we need to deref it once.
   PK11_FreeSlot(module->os_module_handle());

   return module;
 }

 CryptoModule* NSSCertDatabase::GetPrivateModule() const {
   CryptoModule* module =
       CryptoModule::CreateFromHandle(crypto::GetPrivateNSSKeySlot());
   // The module is already referenced when returned from
   // GetPrivateNSSKeySlot, so we need to deref it once.
   PK11_FreeSlot(module->os_module_handle());

   return module;
 }

 void NSSCertDatabase::ListModules(CryptoModuleList* modules,
                                   bool need_rw) const {
   modules->clear();

   PK11SlotList* slot_list = NULL;
   // The wincx arg is unused since we don't call PK11_SetIsLoggedInFunc.
   slot_list = PK11_GetAllTokens(CKM_INVALID_MECHANISM,
                                 need_rw ? PR_TRUE : PR_FALSE,  // needRW
                                 PR_TRUE,  // loadCerts (unused)
                                 NULL);  // wincx
   if (!slot_list) {
     LOG(ERROR) << "PK11_GetAllTokens failed: " << PORT_GetError();
     return;
   }

   PK11SlotListElement* slot_element = PK11_GetFirstSafe(slot_list);
   while (slot_element) {
     modules->push_back(CryptoModule::CreateFromHandle(slot_element->slot));
     slot_element = PK11_GetNextSafe(slot_list, slot_element,
                                     PR_FALSE);  // restart
   }

   PK11_FreeSlotList(slot_list);
 }

 int NSSCertDatabase::ImportFromPKCS12(
     CryptoModule* module,
     const std::string& data,
     const string16& password,
     bool is_extractable,
     net::CertificateList* imported_certs) {
   int result = psm::nsPKCS12Blob_Import(module->os_module_handle(),
                                         data.data(), data.size(),
                                         password,
                                         is_extractable,
                                         imported_certs);
   if (result == net::OK)
     NotifyObserversOfCertAdded(NULL);

   return result;
 }

 int NSSCertDatabase::ExportToPKCS12(
     const CertificateList& certs,
     const string16& password,
     std::string* output) const {
   return psm::nsPKCS12Blob_Export(output, certs, password);
 }

 X509Certificate* NSSCertDatabase::FindRootInList(
     const CertificateList& certificates) const {
   DCHECK_GT(certificates.size(), 0U);

   if (certificates.size() == 1)
     return certificates[0].get();

   X509Certificate* cert0 = certificates[0];
   X509Certificate* cert1 = certificates[1];
   X509Certificate* certn_2 = certificates[certificates.size() - 2];
   X509Certificate* certn_1 = certificates[certificates.size() - 1];

   if (CERT_CompareName(&cert1->os_cert_handle()->issuer,
                        &cert0->os_cert_handle()->subject) == SECEqual)
     return cert0;
   if (CERT_CompareName(&certn_2->os_cert_handle()->issuer,
                        &certn_1->os_cert_handle()->subject) == SECEqual)
     return certn_1;

   VLOG(1) << "certificate list is not a hierarchy";
   return cert0;
 }

 bool NSSCertDatabase::ImportCACerts(const CertificateList& certificates,
                                     TrustBits trust_bits,
                                     ImportCertFailureList* not_imported) {
   X509Certificate* root = FindRootInList(certificates);
   bool success = psm::ImportCACerts(certificates, root, trust_bits,
                                     not_imported);
   if (success)
     NotifyObserversOfCertTrustChanged(NULL);

   return success;
 }

 bool NSSCertDatabase::ImportServerCert(const CertificateList& certificates,
                                        TrustBits trust_bits,
                                        ImportCertFailureList* not_imported) {
   return psm::ImportServerCert(certificates, trust_bits, not_imported);
 }

 NSSCertDatabase::TrustBits NSSCertDatabase::GetCertTrust(
     const X509Certificate* cert,
     CertType type) const {
   CERTCertTrust trust;
   SECStatus srv = CERT_GetCertTrust(cert->os_cert_handle(), &trust);
   if (srv != SECSuccess) {
     LOG(ERROR) << "CERT_GetCertTrust failed with error " << PORT_GetError();
     return TRUST_DEFAULT;
   }
   // We define our own more "friendly" TrustBits, which means we aren't able to
   // round-trip all possible NSS trust flag combinations.  We try to map them in
   // a sensible way.
   switch (type) {
     case CA_CERT: {
       const unsigned kTrustedCA = CERTDB_TRUSTED_CA | CERTDB_TRUSTED_CLIENT_CA;
       const unsigned kCAFlags = kTrustedCA | CERTDB_TERMINAL_RECORD;

       TrustBits trust_bits = TRUST_DEFAULT;
       if ((trust.sslFlags & kCAFlags) == CERTDB_TERMINAL_RECORD)
         trust_bits |= DISTRUSTED_SSL;
       else if (trust.sslFlags & kTrustedCA)
         trust_bits |= TRUSTED_SSL;

       if ((trust.emailFlags & kCAFlags) == CERTDB_TERMINAL_RECORD)
         trust_bits |= DISTRUSTED_EMAIL;
       else if (trust.emailFlags & kTrustedCA)
         trust_bits |= TRUSTED_EMAIL;

       if ((trust.objectSigningFlags & kCAFlags) == CERTDB_TERMINAL_RECORD)
         trust_bits |= DISTRUSTED_OBJ_SIGN;
       else if (trust.objectSigningFlags & kTrustedCA)
         trust_bits |= TRUSTED_OBJ_SIGN;

       return trust_bits;
     }
     case SERVER_CERT:
       if (trust.sslFlags & CERTDB_TERMINAL_RECORD) {
         if (trust.sslFlags & CERTDB_TRUSTED)
           return TRUSTED_SSL;
         return DISTRUSTED_SSL;
       }
       return TRUST_DEFAULT;
     default:
       return TRUST_DEFAULT;
   }
 }

 bool NSSCertDatabase::IsUntrusted(const X509Certificate* cert) const {
   CERTCertTrust nsstrust;
   SECStatus rv = CERT_GetCertTrust(cert->os_cert_handle(), &nsstrust);
   if (rv != SECSuccess) {
     LOG(ERROR) << "CERT_GetCertTrust failed with error " << PORT_GetError();
     return false;
   }

   // The CERTCertTrust structure contains three trust records:
   // sslFlags, emailFlags, and objectSigningFlags.  The three
   // trust records are independent of each other.
   //
   // If the CERTDB_TERMINAL_RECORD bit in a trust record is set,
   // then that trust record is a terminal record.  A terminal
   // record is used for explicit trust and distrust of an
   // end-entity or intermediate CA cert.
   //
   // In a terminal record, if neither CERTDB_TRUSTED_CA nor
   // CERTDB_TRUSTED is set, then the terminal record means
   // explicit distrust.  On the other hand, if the terminal
   // record has either CERTDB_TRUSTED_CA or CERTDB_TRUSTED bit
   // set, then the terminal record means explicit trust.
   //
   // For a root CA, the trust record does not have
   // the CERTDB_TERMINAL_RECORD bit set.

   static const unsigned int kTrusted = CERTDB_TRUSTED_CA | CERTDB_TRUSTED;
   if ((nsstrust.sslFlags & CERTDB_TERMINAL_RECORD) != 0 &&
       (nsstrust.sslFlags & kTrusted) == 0) {
     return true;
   }
   if ((nsstrust.emailFlags & CERTDB_TERMINAL_RECORD) != 0 &&
       (nsstrust.emailFlags & kTrusted) == 0) {
     return true;
   }
   if ((nsstrust.objectSigningFlags & CERTDB_TERMINAL_RECORD) != 0 &&
       (nsstrust.objectSigningFlags & kTrusted) == 0) {
     return true;
   }

   // Self-signed certificates that don't have any trust bits set are untrusted.
   // Other certificates that don't have any trust bits set may still be trusted
   // if they chain up to a trust anchor.
   if (CERT_CompareName(&cert->os_cert_handle()->issuer,
                        &cert->os_cert_handle()->subject) == SECEqual) {
     return (nsstrust.sslFlags & kTrusted) == 0 &&
            (nsstrust.emailFlags & kTrusted) == 0 &&
            (nsstrust.objectSigningFlags & kTrusted) == 0;
   }

   return false;
 }

 bool NSSCertDatabase::SetCertTrust(const X509Certificate* cert,
                                 CertType type,
                                 TrustBits trust_bits) {
   bool success = psm::SetCertTrust(cert, type, trust_bits);
   if (success)
     NotifyObserversOfCertTrustChanged(cert);

   return success;
 }

 bool NSSCertDatabase::DeleteCertAndKey(const X509Certificate* cert) {
   // For some reason, PK11_DeleteTokenCertAndKey only calls
   // SEC_DeletePermCertificate if the private key is found.  So, we check
   // whether a private key exists before deciding which function to call to
   // delete the cert.
   SECKEYPrivateKey *privKey = PK11_FindKeyByAnyCert(cert->os_cert_handle(),
                                                     NULL);
   if (privKey) {
     SECKEY_DestroyPrivateKey(privKey);
     if (PK11_DeleteTokenCertAndKey(cert->os_cert_handle(), NULL)) {
       LOG(ERROR) << "PK11_DeleteTokenCertAndKey failed: " << PORT_GetError();
       return false;
     }
   } else {
     if (SEC_DeletePermCertificate(cert->os_cert_handle())) {
       LOG(ERROR) << "SEC_DeletePermCertificate failed: " << PORT_GetError();
       return false;
     }
   }

   NotifyObserversOfCertRemoved(cert);

   return true;
 }

 bool NSSCertDatabase::IsReadOnly(const X509Certificate* cert) const {
   PK11SlotInfo* slot = cert->os_cert_handle()->slot;
   return slot && PK11_IsReadOnly(slot);
 }

 void NSSCertDatabase::AddObserver(Observer* observer) {
   observer_list_->AddObserver(observer);
 }

 void NSSCertDatabase::RemoveObserver(Observer* observer) {
   observer_list_->RemoveObserver(observer);
 }

 void NSSCertDatabase::NotifyObserversOfCertAdded(const X509Certificate* cert) {
   observer_list_->Notify(&Observer::OnCertAdded, make_scoped_refptr(cert));
 }

 void NSSCertDatabase::NotifyObserversOfCertRemoved(
     const X509Certificate* cert) {
   observer_list_->Notify(&Observer::OnCertRemoved, make_scoped_refptr(cert));
 }

 void NSSCertDatabase::NotifyObserversOfCertTrustChanged(
     const X509Certificate* cert) {
   observer_list_->Notify(
       &Observer::OnCertTrustChanged, make_scoped_refptr(cert));
 }

 }  // namespace net
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "net/base/nss_cert_database.h"

	#include <cert.h>
	#include <certdb.h>
	#include <keyhi.h>
	#include <pk11pub.h>
	#include <secmod.h>

	#include "base/logging.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/memory/singleton.h"
	#include "base/observer_list_threadsafe.h"
	#include "crypto/nss_util.h"
	#include "crypto/nss_util_internal.h"
	#include "net/base/cert_database.h"
	#include "net/base/crypto_module.h"
	#include "net/base/net_errors.h"
	#include "net/base/x509_certificate.h"
	#include "net/third_party/mozilla_security_manager/nsNSSCertificateDB.h"
	#include "net/third_party/mozilla_security_manager/nsPKCS12Blob.h"

	// In NSS 3.13, CERTDB_VALID_PEER was renamed CERTDB_TERMINAL_RECORD. So we use
	// the new name of the macro.
	#if !defined(CERTDB_TERMINAL_RECORD)
	#define CERTDB_TERMINAL_RECORD CERTDB_VALID_PEER
	#endif

	// PSM = Mozilla's Personal Security Manager.
	namespace psm = mozilla_security_manager;

	namespace net {

	NSSCertDatabase::ImportCertFailure::ImportCertFailure(
	X509Certificate* cert, int err)
	: certificate(cert),
	net_error(err) {}

	NSSCertDatabase::ImportCertFailure::~ImportCertFailure() {}

	// static
	NSSCertDatabase* NSSCertDatabase::GetInstance() {
	return Singleton<NSSCertDatabase>::get();
	}

	NSSCertDatabase::NSSCertDatabase()
	: observer_list_(new ObserverListThreadSafe<Observer>) {
	crypto::EnsureNSSInit();
	psm::EnsurePKCS12Init();
	}

	NSSCertDatabase::~NSSCertDatabase() {}

	void NSSCertDatabase::ListCerts(CertificateList* certs) {
	certs->clear();

	CERTCertList* cert_list = PK11_ListCerts(PK11CertListUnique, NULL);
	CERTCertListNode* node;
	for (node = CERT_LIST_HEAD(cert_list);
	!CERT_LIST_END(node, cert_list);
	node = CERT_LIST_NEXT(node)) {
	certs->push_back(X509Certificate::CreateFromHandle(
	node->cert, X509Certificate::OSCertHandles()));
	}
	CERT_DestroyCertList(cert_list);
	}

	CryptoModule* NSSCertDatabase::GetPublicModule() const {
	CryptoModule* module =
	CryptoModule::CreateFromHandle(crypto::GetPublicNSSKeySlot());
	// The module is already referenced when returned from
	// GetPublicNSSKeySlot, so we need to deref it once.
	PK11_FreeSlot(module->os_module_handle());

	return module;
	}

	CryptoModule* NSSCertDatabase::GetPrivateModule() const {
	CryptoModule* module =
	CryptoModule::CreateFromHandle(crypto::GetPrivateNSSKeySlot());
	// The module is already referenced when returned from
	// GetPrivateNSSKeySlot, so we need to deref it once.
	PK11_FreeSlot(module->os_module_handle());

	return module;
	}

	void NSSCertDatabase::ListModules(CryptoModuleList* modules,
	bool need_rw) const {
	modules->clear();

	PK11SlotList* slot_list = NULL;
	// The wincx arg is unused since we don't call PK11_SetIsLoggedInFunc.
	slot_list = PK11_GetAllTokens(CKM_INVALID_MECHANISM,
	need_rw ? PR_TRUE : PR_FALSE, // needRW
	PR_TRUE, // loadCerts (unused)
	NULL); // wincx
	if (!slot_list) {
	LOG(ERROR) << "PK11_GetAllTokens failed: " << PORT_GetError();
	return;
	}

	PK11SlotListElement* slot_element = PK11_GetFirstSafe(slot_list);
	while (slot_element) {
	modules->push_back(CryptoModule::CreateFromHandle(slot_element->slot));
	slot_element = PK11_GetNextSafe(slot_list, slot_element,
	PR_FALSE); // restart
	}

	PK11_FreeSlotList(slot_list);
	}

	int NSSCertDatabase::ImportFromPKCS12(
	CryptoModule* module,
	const std::string& data,
	const string16& password,
	bool is_extractable,
	net::CertificateList* imported_certs) {
	int result = psm::nsPKCS12Blob_Import(module->os_module_handle(),
	data.data(), data.size(),
	password,
	is_extractable,
	imported_certs);
	if (result == net::OK)
	NotifyObserversOfCertAdded(NULL);

	return result;
	}

	int NSSCertDatabase::ExportToPKCS12(
	const CertificateList& certs,
	const string16& password,
	std::string* output) const {
	return psm::nsPKCS12Blob_Export(output, certs, password);
	}

	X509Certificate* NSSCertDatabase::FindRootInList(
	const CertificateList& certificates) const {
	DCHECK_GT(certificates.size(), 0U);

	if (certificates.size() == 1)
	return certificates[0].get();

	X509Certificate* cert0 = certificates[0];
	X509Certificate* cert1 = certificates[1];
	X509Certificate* certn_2 = certificates[certificates.size() - 2];
	X509Certificate* certn_1 = certificates[certificates.size() - 1];

	if (CERT_CompareName(&cert1->os_cert_handle()->issuer,
	&cert0->os_cert_handle()->subject) == SECEqual)
	return cert0;
	if (CERT_CompareName(&certn_2->os_cert_handle()->issuer,
	&certn_1->os_cert_handle()->subject) == SECEqual)
	return certn_1;

	VLOG(1) << "certificate list is not a hierarchy";
	return cert0;
	}

	bool NSSCertDatabase::ImportCACerts(const CertificateList& certificates,
	TrustBits trust_bits,
	ImportCertFailureList* not_imported) {
	X509Certificate* root = FindRootInList(certificates);
	bool success = psm::ImportCACerts(certificates, root, trust_bits,
	not_imported);
	if (success)
	NotifyObserversOfCertTrustChanged(NULL);

	return success;
	}

	bool NSSCertDatabase::ImportServerCert(const CertificateList& certificates,
	TrustBits trust_bits,
	ImportCertFailureList* not_imported) {
	return psm::ImportServerCert(certificates, trust_bits, not_imported);
	}

	NSSCertDatabase::TrustBits NSSCertDatabase::GetCertTrust(
	const X509Certificate* cert,
	CertType type) const {
	CERTCertTrust trust;
	SECStatus srv = CERT_GetCertTrust(cert->os_cert_handle(), &trust);
	if (srv != SECSuccess) {
	LOG(ERROR) << "CERT_GetCertTrust failed with error " << PORT_GetError();
	return TRUST_DEFAULT;
	}
	// We define our own more "friendly" TrustBits, which means we aren't able to
	// round-trip all possible NSS trust flag combinations. We try to map them in
	// a sensible way.
	switch (type) {
	case CA_CERT: {
	const unsigned kTrustedCA = CERTDB_TRUSTED_CA \| CERTDB_TRUSTED_CLIENT_CA;
	const unsigned kCAFlags = kTrustedCA \| CERTDB_TERMINAL_RECORD;

	TrustBits trust_bits = TRUST_DEFAULT;
	if ((trust.sslFlags & kCAFlags) == CERTDB_TERMINAL_RECORD)
	trust_bits \|= DISTRUSTED_SSL;
	else if (trust.sslFlags & kTrustedCA)
	trust_bits \|= TRUSTED_SSL;

	if ((trust.emailFlags & kCAFlags) == CERTDB_TERMINAL_RECORD)
	trust_bits \|= DISTRUSTED_EMAIL;
	else if (trust.emailFlags & kTrustedCA)
	trust_bits \|= TRUSTED_EMAIL;

	if ((trust.objectSigningFlags & kCAFlags) == CERTDB_TERMINAL_RECORD)
	trust_bits \|= DISTRUSTED_OBJ_SIGN;
	else if (trust.objectSigningFlags & kTrustedCA)
	trust_bits \|= TRUSTED_OBJ_SIGN;

	return trust_bits;
	}
	case SERVER_CERT:
	if (trust.sslFlags & CERTDB_TERMINAL_RECORD) {
	if (trust.sslFlags & CERTDB_TRUSTED)
	return TRUSTED_SSL;
	return DISTRUSTED_SSL;
	}
	return TRUST_DEFAULT;
	default:
	return TRUST_DEFAULT;
	}
	}

	bool NSSCertDatabase::IsUntrusted(const X509Certificate* cert) const {
	CERTCertTrust nsstrust;
	SECStatus rv = CERT_GetCertTrust(cert->os_cert_handle(), &nsstrust);
	if (rv != SECSuccess) {
	LOG(ERROR) << "CERT_GetCertTrust failed with error " << PORT_GetError();
	return false;
	}

	// The CERTCertTrust structure contains three trust records:
	// sslFlags, emailFlags, and objectSigningFlags. The three
	// trust records are independent of each other.
	//
	// If the CERTDB_TERMINAL_RECORD bit in a trust record is set,
	// then that trust record is a terminal record. A terminal
	// record is used for explicit trust and distrust of an
	// end-entity or intermediate CA cert.
	//
	// In a terminal record, if neither CERTDB_TRUSTED_CA nor
	// CERTDB_TRUSTED is set, then the terminal record means
	// explicit distrust. On the other hand, if the terminal
	// record has either CERTDB_TRUSTED_CA or CERTDB_TRUSTED bit
	// set, then the terminal record means explicit trust.
	//
	// For a root CA, the trust record does not have
	// the CERTDB_TERMINAL_RECORD bit set.

	static const unsigned int kTrusted = CERTDB_TRUSTED_CA \| CERTDB_TRUSTED;
	if ((nsstrust.sslFlags & CERTDB_TERMINAL_RECORD) != 0 &&
	(nsstrust.sslFlags & kTrusted) == 0) {
	return true;
	}
	if ((nsstrust.emailFlags & CERTDB_TERMINAL_RECORD) != 0 &&
	(nsstrust.emailFlags & kTrusted) == 0) {
	return true;
	}
	if ((nsstrust.objectSigningFlags & CERTDB_TERMINAL_RECORD) != 0 &&
	(nsstrust.objectSigningFlags & kTrusted) == 0) {
	return true;
	}

	// Self-signed certificates that don't have any trust bits set are untrusted.
	// Other certificates that don't have any trust bits set may still be trusted
	// if they chain up to a trust anchor.
	if (CERT_CompareName(&cert->os_cert_handle()->issuer,
	&cert->os_cert_handle()->subject) == SECEqual) {
	return (nsstrust.sslFlags & kTrusted) == 0 &&
	(nsstrust.emailFlags & kTrusted) == 0 &&
	(nsstrust.objectSigningFlags & kTrusted) == 0;
	}

	return false;
	}

	bool NSSCertDatabase::SetCertTrust(const X509Certificate* cert,
	CertType type,
	TrustBits trust_bits) {
	bool success = psm::SetCertTrust(cert, type, trust_bits);
	if (success)
	NotifyObserversOfCertTrustChanged(cert);

	return success;
	}

	bool NSSCertDatabase::DeleteCertAndKey(const X509Certificate* cert) {
	// For some reason, PK11_DeleteTokenCertAndKey only calls
	// SEC_DeletePermCertificate if the private key is found. So, we check
	// whether a private key exists before deciding which function to call to
	// delete the cert.
	SECKEYPrivateKey *privKey = PK11_FindKeyByAnyCert(cert->os_cert_handle(),
	NULL);
	if (privKey) {
	SECKEY_DestroyPrivateKey(privKey);
	if (PK11_DeleteTokenCertAndKey(cert->os_cert_handle(), NULL)) {
	LOG(ERROR) << "PK11_DeleteTokenCertAndKey failed: " << PORT_GetError();
	return false;
	}
	} else {
	if (SEC_DeletePermCertificate(cert->os_cert_handle())) {
	LOG(ERROR) << "SEC_DeletePermCertificate failed: " << PORT_GetError();
	return false;
	}
	}

	NotifyObserversOfCertRemoved(cert);

	return true;
	}

	bool NSSCertDatabase::IsReadOnly(const X509Certificate* cert) const {
	PK11SlotInfo* slot = cert->os_cert_handle()->slot;
	return slot && PK11_IsReadOnly(slot);
	}

	void NSSCertDatabase::AddObserver(Observer* observer) {
	observer_list_->AddObserver(observer);
	}

	void NSSCertDatabase::RemoveObserver(Observer* observer) {
	observer_list_->RemoveObserver(observer);
	}

	void NSSCertDatabase::NotifyObserversOfCertAdded(const X509Certificate* cert) {
	observer_list_->Notify(&Observer::OnCertAdded, make_scoped_refptr(cert));
	}

	void NSSCertDatabase::NotifyObserversOfCertRemoved(
	const X509Certificate* cert) {
	observer_list_->Notify(&Observer::OnCertRemoved, make_scoped_refptr(cert));
	}

	void NSSCertDatabase::NotifyObserversOfCertTrustChanged(
	const X509Certificate* cert) {
	observer_list_->Notify(
	&Observer::OnCertTrustChanged, make_scoped_refptr(cert));
	}

	} // namespace net