eapol/eapol_framework/eapol_symbian/am/type/tls_peap/symbian/eap_am_type_tls_peap_symbian.cpp
Remove spurious EAP_NO_EXPORTS macros and add missing EAP_FUNC_EXPORT markers, to fix Bug 629 and address Bug 2460
/*
* Copyright (c) 2001-2006 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: EAP and WLAN authentication protocols.
*
*/
/*
* %version: 253 %
*/
// This is enumeration of EAPOL source code.
#if defined(USE_EAP_MINIMUM_RELEASE_TRACES)
#undef EAP_FILE_NUMBER_ENUM
#define EAP_FILE_NUMBER_ENUM 388
#undef EAP_FILE_NUMBER_DATE
#define EAP_FILE_NUMBER_DATE 1127594498
#endif //#if defined(USE_EAP_MINIMUM_RELEASE_TRACES)
#include "eap_am_memory.h"
#include "eap_tools.h"
#include "eap_am_type_tls_peap_symbian.h"
#include "abs_eap_am_crypto.h"
#include "abs_eap_am_mutex.h"
#include "eap_crypto_api.h"
#include "abs_eap_base_type.h"
#include "eap_type_tls_peap_types.h"
#include "eap_am_tools_symbian.h"
#include "abs_tls_am_services.h"
#include "eap_base_type.h"
#include "eap_array_algorithms.h"
#include "EapTlsPeapUtils.h"
#include "EapTlsPeapDbDefaults.h"
#include "EapTlsPeapDbParameterNames.h"
#include "EapTlsPeapCertInterface.h"
#include <x509cert.h>
#include <x509keys.h>
#include "eap_am_dh_primes.h"
#include <asn1dec.h>
#include <asn1enc.h>
#include "EapTlsPeapTimerValues.h"
#include "eap_state_notification.h"
#include "eap_am_trace_symbian.h"
#include "eap_automatic_variable.h"
#if defined(USE_FAST_EAP_TYPE)
#include "abs_tls_am_application_eap_fast.h"
#include "eap_fast_strings.h"
#include "eap_fast_tlv_payloads.h"
//#include "eap_am_async_wait_symbian.h"
#include "EapFastActive.h"
#include "eap_tlv_header.h"
#include "eap_tlv_message_data.h"
#endif
#include "eap_ttls_pap_active.h"
#ifdef USE_PAC_STORE
#include "pac_store_db_symbian.h"
#include <f32file.h>
#endif
#ifdef USE_EAP_EXPANDED_TYPES
#include "eap_header_string.h"
#endif //#ifdef USE_EAP_EXPANDED_TYPES
#if defined(USE_EAP_CONFIGURATION_TO_SKIP_USER_INTERACTIONS)
#include "eap_config.h"
#include "eap_file_config.h"
#include "eap_am_file_input_symbian.h"
#endif
const TUint KMaxSqlQueryLength = 512;
const TUint KMaxDBFieldNameLength = 255;
const TUint KDSASignatureLength = 40;
const TInt KDefaultColumnInView_One = 1; // For DB view.
const TInt KMicroSecsInASecond = 1000000; // 1000000 micro seconds is 1 second.
/**
* Length of the MAC address
*/
#ifdef USE_FAST_EAP_TYPE
const TUint8 KMacAddressLength = 6;
#endif
//--------------------------------------------------
eap_am_type_tls_peap_symbian_c::eap_am_type_tls_peap_symbian_c(
abs_eap_am_tools_c * const aTools,
abs_eap_base_type_c * const aPartner,
const TIndexType aIndexType,
const TInt aIndex,
const eap_type_value_e aTunnelingType,
const eap_type_value_e aEapType,
const bool aIsClient,
const eap_am_network_id_c * const receive_network_id)
: CActive(CActive::EPriorityStandard)
, m_index_type(aIndexType)
, m_index(aIndex)
, m_tunneling_type(aTunnelingType)
, m_partner(aPartner)
, m_am_tools(static_cast<eap_am_tools_symbian_c*> (aTools))
, m_tls_am_partner(0)
#if defined(USE_FAST_EAP_TYPE)
, m_tls_application(0)
//, iWaitNoteCancelled( EFalse )
, iEapFastActiveWaitNote( NULL )
, iEapFastActiveNotes( NULL )
#endif //#if defined(USE_FAST_EAP_TYPE)
, m_is_valid(false)
, m_is_client(aIsClient)
, m_current_eap_type(aEapType)
, m_max_count_of_session_resumes(0ul)
, m_cipher_suite(tls_cipher_suites_TLS_DHE_DSS_WITH_3DES_EDE_CBC_SHA)
, m_ca_certificate(0)
, m_own_certificate(0)
, m_peer_certificate(0)
, m_cert_if(0)
, m_receive_network_id(aTools)
, m_eap_identifier(0u)
, m_subject_key_id(0)
, m_allowed_user_certs(1)
, m_allowed_server_certs(1)
, m_peer_public_key(aTools)
, m_param_p(aTools)
, m_param_q(aTools)
, m_param_g(aTools)
, m_shutdown_was_called(false)
, m_identity_info(0)
, m_tunneled_type(eap_type_none)
, m_verify_certificate_realm(true)
, m_allow_subdomain_matching(false)
, m_latest_alert_description(tls_alert_description_none)
, m_use_manual_username(false)
, m_manual_username(aTools)
, m_use_manual_realm(false)
, m_manual_realm(aTools)
, m_tls_peap_server_authenticates_client_policy_flag(true)
, m_configured(false)
, m_max_session_time(0)
#if defined(USE_EAP_TLS_SESSION_TICKET)
, m_use_session_ticket(false)
#endif //#if defined(USE_EAP_TLS_SESSION_TICKET)
#if defined(USE_FAST_EAP_TYPE)
, m_received_tunnel_pac_in_session_ticket(0)
, m_received_user_authorization_pac_in_session_ticket(0)
, m_saved_pac_type(eap_fast_pac_type_none)
, m_completion_operation(eap_fast_completion_operation_none)
//, m_new_pac_tlv(aTools)
, m_verification_status(eap_status_process_general_error)
, m_pac_type(eap_fast_pac_type_none)
, m_PAC_store_password(aTools)
//, m_PAC_store_device_seed(aTools)
, m_imported_PAC_data_password(aTools)
, m_PAC_store_path(aTools)
, m_EAP_FAST_IAP_reference(aTools)
, m_EAP_FAST_Group_reference(aTools)
, m_EAP_FAST_import_path(aTools)
, m_eap_fast_completion_status(eap_status_process_general_error)
, m_eap_fast_pac_store_pending_operation(eap_fast_pac_store_pending_operation_none)
, m_references_and_data_blocks(aTools)
, m_new_references_and_data_blocks(aTools)
, m_ready_references_and_data_blocks(aTools)
, m_serv_unauth_prov_mode(false)
, m_serv_auth_prov_mode(false)
, m_is_notifier_connected(false)
, m_notifier_data_to_user(NULL)
, m_notifier_data_pckg_to_user(NULL)
, m_notifier_data_from_user(NULL)
, m_notifier_data_pckg_from_user(NULL)
, m_completed_with_zero(false)
, m_verificationStatus(false)
, m_data_reference(m_am_tools)
, m_notifier_complete(false)
, m_userResponse(m_am_tools)
, m_both_completed(0)
, m_both_asked(0)
#endif //#if defined(USE_FAST_EAP_TYPE)
#ifdef USE_PAC_STORE
,iPacStoreDb(NULL)
#endif
#ifdef USE_EAP_CONFIGURATION_TO_SKIP_USER_INTERACTIONS
, m_skip_user_interactions(false)
, m_fileconfig(0)
#endif
, iEapTtlsPapMaxSessionConfigTime( 0 )
, iEapTtlsPapActive( NULL )
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
#ifdef USE_EAP_EXPANDED_TYPES
m_tunneling_vendor_type = m_tunneling_type.get_vendor_type();
m_current_eap_vendor_type = m_current_eap_type.get_vendor_type();
#else
m_tunneling_vendor_type = static_cast<TUint>(m_tunneling_type);
m_current_eap_vendor_type = static_cast<TUint>(m_current_eap_type);
#endif //#ifdef USE_EAP_EXPANDED_TYPES
// Set the database table name based on the type
switch (m_current_eap_vendor_type)
{
case eap_type_tls:
m_db_table_name = KTlsDatabaseTableName;
m_db_user_cert_table_name = KTlsAllowedUserCertsDatabaseTableName;
m_db_ca_cert_table_name = KTlsAllowedCACertsDatabaseTableName;
m_db_cipher_suite_table_name = KTlsAllowedCipherSuitesDatabaseTableName;
m_db_name = KTlsDatabaseName;
break;
case eap_type_peap:
m_db_table_name = KPeapDatabaseTableName;
m_db_user_cert_table_name = KPeapAllowedUserCertsDatabaseTableName;
m_db_ca_cert_table_name = KPeapAllowedCACertsDatabaseTableName;
m_db_cipher_suite_table_name = KPeapAllowedCipherSuitesDatabaseTableName;
m_db_name = KPeapDatabaseName;
break;
case eap_type_ttls_plain_pap:
// use the same case as for eap_type_ttls;
// break is not needed
case eap_type_ttls:
m_db_table_name = KTtlsDatabaseTableName;
m_db_user_cert_table_name = KTtlsAllowedUserCertsDatabaseTableName;
m_db_ca_cert_table_name = KTtlsAllowedCACertsDatabaseTableName;
m_db_cipher_suite_table_name = KTtlsAllowedCipherSuitesDatabaseTableName;
m_db_name = KTtlsDatabaseName;
break;
#if defined (USE_FAST_EAP_TYPE)
case eap_type_fast:
m_db_table_name = KFastGeneralSettingsDBTableName; // General settings
m_db_fast_special_table_name = KFastSpecialSettingsDBTableName; // Special settings for only FAST
m_db_user_cert_table_name = KFastAllowedUserCertsDatabaseTableName;
m_db_ca_cert_table_name = KFastAllowedCACertsDatabaseTableName;
m_db_cipher_suite_table_name = KFastAllowedCipherSuitesDatabaseTableName;
m_db_name = KFastDatabaseName;
break;
#endif // #if defined (USE_FAST_EAP_TYPE)
default:
{
// Unsupported type
// Should never happen
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("Unsupported EAP type, m_current_eap_vendor_type=%d \n"),
m_current_eap_vendor_type));
return;
}
}
if (receive_network_id != 0
&& receive_network_id->get_is_valid_data() == true)
{
eap_status_e status = m_receive_network_id.set_copy_of_network_id(
receive_network_id);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
(void)EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
return;
}
}
set_is_valid();
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
//
eap_am_type_tls_peap_symbian_c* eap_am_type_tls_peap_symbian_c::NewL(
abs_eap_am_tools_c * const aTools,
abs_eap_base_type_c * const aPartner,
const TIndexType aIndexType,
const TInt aIndex,
const eap_type_value_e aTunnelingType,
const eap_type_value_e aEapType,
const bool aIsClient,
const eap_am_network_id_c * const receive_network_id)
{
if (aEapType != eap_type_tls
&& aEapType != eap_type_peap
#if defined(USE_TTLS_EAP_TYPE)
&& aEapType != eap_type_ttls
#endif // #if defined(USE_TTLS_EAP_TYPE)
&& aEapType != eap_type_ttls_plain_pap
#if defined (USE_FAST_EAP_TYPE)
&& aEapType != eap_type_fast
#endif // #if defined (USE_FAST_EAP_TYPE)
)
{
User::Leave(KErrNotSupported);
}
eap_am_type_tls_peap_symbian_c* self = new(ELeave) eap_am_type_tls_peap_symbian_c(
aTools,
aPartner,
aIndexType,
aIndex,
aTunnelingType,
aEapType,
aIsClient,
receive_network_id);
CleanupStack::PushL(self);
if (self->get_is_valid() != true)
{
User::Leave(KErrGeneral);
}
self->ConstructL();
CleanupStack::Pop();
return self;
}
//--------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::ConstructL()
{
// Open/create database
EapTlsPeapUtils::OpenDatabaseL(m_database, m_session, m_index_type, m_index, m_tunneling_type, m_current_eap_type);
m_cert_if = CEapTlsPeapCertInterface::NewL(m_am_tools, this);
CActiveScheduler::Add(this);
// Create and open PAC store (only for EAP-FAST at the moment)
#ifdef USE_PAC_STORE
#ifdef USE_FAST_EAP_TYPE
if(m_current_eap_type == eap_type_fast && iPacStoreDb == NULL)
{
iPacStoreDb = CPacStoreDatabase::NewL( this );
User::LeaveIfNull(iPacStoreDb);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ConstructL Created PAC store")));
iPacStoreDb->OpenPacStoreL();
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ConstructL Opened PAC store")));
}
m_info_array.Reset();
#endif // End: #ifdef USE_FAST_EAP_TYPE
#endif // End: #ifdef USE_PAC_STORE
#ifdef USE_FAST_EAP_TYPE
if(m_current_eap_type == eap_type_fast)
{
m_notifier_data_to_user = new(ELeave) TEapFastNotifierStruct;
m_notifier_data_pckg_to_user = new(ELeave) TPckg<TEapFastNotifierStruct> (*m_notifier_data_to_user);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::ConstructL m_notifier_data_pckg_to_user"),
m_notifier_data_pckg_to_user->Ptr(),
m_notifier_data_pckg_to_user->Size()));
m_notifier_data_from_user = new(ELeave) TEapFastNotifierStruct;
m_notifier_data_pckg_from_user = new(ELeave) TPckg<TEapFastNotifierStruct> (*m_notifier_data_from_user);
}
#endif // End: #ifdef USE_FAST_EAP_TYPE
}
//--------------------------------------------------
//
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::shutdown()
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: %s: function: eap_am_type_tls_peap_symbian_c::shutdown()\n"),
(m_is_client == true ? "client": "server")));
if(IsActive())
{
RDebug::Print( _L("eap_am_type_tls_peap_symbian_c::shutdown() cancelling active object") );
Cancel();
}
else
{
if(m_cert_if->IsActive())
{
m_cert_if->Cancel();
}
}
if ( iEapTtlsPapActive )
{
if ( iEapTtlsPapActive->IsActive() )
{
EAP_TRACE_DEBUG_SYMBIAN(
( _L( " eap_am_type_tls_peap_symbian_c::shutdown() \
Cancelling iEapTtlsPapActive." ) ) );
iEapTtlsPapActive->Cancel();
}
EAP_TRACE_DEBUG_SYMBIAN(
( _L( " eap_am_type_tls_peap_symbian_c::shutdown() \
Deleting iEapTtlsPapActive." ) ) );
delete iEapTtlsPapActive;
iEapTtlsPapActive = NULL;
}
#if defined(USE_FAST_EAP_TYPE)
if( m_is_notifier_connected )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L(" eap_am_type_tls_peap_symbian_c::shutdown - calling m_notifier.CancelNotifier")));
if(IsActive())
{
TInt error = m_notifier.CancelNotifier(KEapFastNotifierUid);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::shutdown - CancelNotifier=%d"), error));
}
EAP_TRACE_DEBUG_SYMBIAN(
(_L(" eap_am_type_securid_symbian_c::shutdown - calling m_notifier.Close()")));
m_notifier.Close(); // Call close only if it is connected.
m_is_notifier_connected = false;
} // End: if( m_is_notifier_connected )
if (m_partner != NULL)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L(" eap_am_type_tls_peap_symbian_c::shutdown - Cancel timers ...")));
m_partner->cancel_timer(
this,
KRemoveIAPReferenceTimerID);
m_partner->cancel_timer(
this,
KImportFileTimerID);
m_partner->cancel_timer(
this,
KCompleteReadPacstoreTimerID);
m_partner->cancel_timer(
this,
KHandleReadPacstoreTimerID);
EAP_TRACE_DEBUG_SYMBIAN(
(_L(" eap_am_type_tls_peap_symbian_c::shutdown - Timers canceled")));
}
if ( iEapFastActiveWaitNote )
{
if ( iEapFastActiveWaitNote->IsActive() )
{
iEapFastActiveWaitNote->Cancel();
}
delete iEapFastActiveWaitNote;
iEapFastActiveWaitNote = NULL;
}
if ( iEapFastActiveNotes )
{
if ( iEapFastActiveNotes->IsActive() )
{
iEapFastActiveNotes->Cancel();
}
delete iEapFastActiveNotes;
iEapFastActiveNotes = NULL;
}
#endif // #if defined(USE_FAST_EAP_TYPE)
m_allowed_server_certs.Reset();
m_allowed_ca_certs.Close();
m_allowed_cipher_suites.Close();
m_allowed_user_certs.Reset();
#ifdef USE_PAC_STORE
#ifdef USE_FAST_EAP_TYPE
if(m_current_eap_type == eap_type_fast && iPacStoreDb != NULL)
{
iPacStoreDb->Close();
}
TInt count=0;
while (count < m_info_array.Count())
{
delete m_info_array[count].iData;
delete m_info_array[count].iReference;
}
m_info_array.Reset();
EAP_TRACE_DEBUG_SYMBIAN(
(_L(" eap_am_type_tls_peap_symbian_c::shutdown - Arrays cleared")));
#endif // End: #ifdef USE_FAST_EAP_TYPE
#endif // End: #ifdef USE_PAC_STORE
m_shutdown_was_called = true;
#if defined(USE_EAP_CONFIGURATION_TO_SKIP_USER_INTERACTIONS)
delete m_fileconfig;
m_fileconfig = 0;
#endif
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: %s: function: eap_am_type_tls_peap_symbian_c::shutdown() returns\n"),
(m_is_client == true ? "client": "server")));
return eap_status_ok;
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_am_type_tls_peap_symbian_c::~eap_am_type_tls_peap_symbian_c()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_RETURN_STRING(m_am_tools, "returns: eap_am_type_tls_peap_symbian_c::~eap_am_type_tls_peap_symbian_c()");
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: %s: function: eap_am_type_tls_peap_symbian_c::~eap_am_type_tls_peap_symbian_c()\n"),
(m_is_client == true ? "client": "server")));
EAP_ASSERT(m_shutdown_was_called == true);
m_database.Close();
m_session.Close();
#ifdef USE_FAST_EAP_TYPE
if(m_current_eap_type == eap_type_fast)
{
delete m_notifier_data_to_user;
delete m_notifier_data_pckg_to_user;
delete m_notifier_data_from_user;
delete m_notifier_data_pckg_from_user;
}
#endif // End: #ifdef USE_FAST_EAP_TYPE
delete m_cert_if;
delete m_ca_certificate;
delete m_own_certificate;
delete m_peer_certificate;
delete m_identity_info;
#ifdef USE_EAP_EXPANDED_TYPES
m_enabled_tunneling_exp_eap_array.ResetAndDestroy();
m_disabled_tunneling_exp_eap_array.ResetAndDestroy();
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::~eap_am_type_tls_peap_symbian_c() tunneling done.\n")));
#else
m_iap_eap_array.ResetAndDestroy();
#endif // #ifdef USE_EAP_EXPANDED_TYPES
#ifdef USE_PAC_STORE
delete iPacStoreDb;
#endif // End: #ifdef USE_PAC_STORE
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::RunL()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::RunL - iStatus.Int()=%d, m_state=%d "),
iStatus.Int() , m_state));
#ifdef USE_FAST_EAP_TYPE
eap_status_e status(eap_status_ok);
if (m_notifier_complete)
{
TRAPD(err, CompleteNotifierL());// Only for the notifiers.
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::RunL LEAVE from CompleteNotifierL, Error =%d \n"),
err));
}
m_notifier_complete = EFalse;
}
if ( m_state == EPasswordCancel ||
m_state == EMasterkeyQuery ||
m_state == EPasswordQuery ||
m_state == EWrongPassword ||
m_state == EFilePasswordQuery )
{
m_eap_fast_completion_status = m_partner->set_timer(
this,
KHandleReadPacstoreTimerID,
&status,
0);
return;
}
if (m_state == ENone)
{
return;
}
#endif // #ifdef USE_FAST_EAP_TYPE
if (iStatus.Int() != KErrNone)
{
// Notifier was cancelled or something went wrong
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: Certificate selection notifier was cancelled or failed, error=%d, m_state=%d.\n"),
iStatus.Int(),
m_state));
switch (m_state)
{
case EHandlingIdentityQuery:
case EHandlingManualIdentityQuery:
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: Cannot read user certificate.\n")));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_process_general_error,
false,
0,
false,
0);
return;
case EHandlingChainQuery:
// Notifier was cancelled or something went wrong
get_tls_am_partner()->complete_query_certificate_chain(
0,
eap_status_process_general_error);
return;
default:
return;
}
}
if (m_state == EHandlingIdentityQuery
|| m_state == EHandlingChainQuery)
{
TUint index(0);
if (m_selector_output.Length() > 0)
{
TPckg<TUint> data(index);
data.Copy(m_selector_output);
}
else
{
// There is only one certificate. Use that.
index = 0;
}
if(m_allowed_user_certs.Count() > 0)
{
m_own_certificate_info = m_allowed_user_certs[index];
}
TBool retrieve_chain;
if (m_state == EHandlingChainQuery)
{
retrieve_chain = true;
}
else
{
retrieve_chain = false;
}
TInt allowed_user_cert_count = m_allowed_user_certs.Count();
TInt err(KErrNone);
if(allowed_user_cert_count > 0)
{
TRAP(err, m_cert_if->ReadCertificateL(m_allowed_user_certs[index], retrieve_chain));
}
if (err != KErrNone || allowed_user_cert_count <= 0)
{
EAP_TRACE_ERROR(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Certificate reading failed or no user cert, user cert count=%d\n"),
allowed_user_cert_count));
switch (m_state)
{
case EHandlingIdentityQuery:
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: EHandlingIdentityQuery: Cannot read user certificate.\n")));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_process_general_error,
false,
0,
false,
0);
return;
case EHandlingChainQuery:
// Notifier was cancelled or something went wrong
get_tls_am_partner()->complete_query_certificate_chain(
0,
eap_status_process_general_error);
return;
default:
return;
}
}
}
else if (m_state == EHandlingManualIdentityQuery)
{
// Convert to 8-bit text
TBuf8<KIdentityFieldLength> buf;
buf.Copy(m_identity_info->iUsername);
eap_status_e status = m_manual_username.set_copy_of_buffer(
buf.Ptr(),
buf.Size());
if (status != eap_status_ok)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: EHandlingIdentityQuery: Cannot read manual username.\n")));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
status,
false,
0,
false,
0);
}
buf.Copy(m_identity_info->iRealm);
status = m_manual_realm.set_copy_of_buffer(
buf.Ptr(),
buf.Size());
if (status != eap_status_ok)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: EHandlingIdentityQuery: Cannot read manual realm.\n")));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
status,
false,
0,
false,
0);
}
// This must be true
m_use_manual_realm = true;
if (m_identity_info->iUseManualUsername)
{
m_use_manual_username = true;
}
else
{
m_use_manual_username = false;
}
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_ok,
m_use_manual_username,
&m_manual_username,
m_use_manual_realm,
&m_manual_realm);
TRAPD(err, SaveManualIdentityL(
m_identity_info->iUseManualUsername,
m_identity_info->iUsername,
ETrue,
m_identity_info->iRealm));
(void)EAP_STATUS_RETURN(m_am_tools, m_am_tools->convert_am_error_to_eapol_error(err));
// Ignore return value on purpose. It's not fatal if saving fails.
delete m_identity_info;
m_identity_info = 0;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::DoCancel()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
RDebug::Print( _L("eap_am_type_tls_peap_symbian_c::DoCancel()\n") );
if(m_cert_if->IsActive())
{
m_cert_if->Cancel();
}
if ( iEapTtlsPapActive )
{
if ( iEapTtlsPapActive->IsActive() )
{
EAP_TRACE_DEBUG_SYMBIAN(
( _L( " eap_am_type_tls_peap_symbian_c::DoCancel() \
Cancelling iEapTtlsPapActive." ) ) );
iEapTtlsPapActive->Cancel();
}
}
#if defined(USE_FAST_EAP_TYPE)
m_partner->cancel_timer(
this,
KRemoveIAPReferenceTimerID);
m_partner->cancel_timer(
this,
KImportFileTimerID);
m_partner->cancel_timer(
this,
KCompleteReadPacstoreTimerID);
m_partner->cancel_timer(
this,
KHandleReadPacstoreTimerID);
if( m_is_notifier_connected )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L(" eap_am_type_tls_peap_symbian_c::DoCancel - calling m_notifier.CancelNotifier")));
if(IsActive())
{
TInt error = m_notifier.CancelNotifier(KEapFastNotifierUid);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::DoCancel:CancelNotifier=%d"),
error));
}
m_notifier.Close(); // Call close only if it is connected.
m_is_notifier_connected = false;
} // End: if( m_is_notifier_connected )
#endif // #if defined(USE_FAST_EAP_TYPE)
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
//
eap_status_e eap_am_type_tls_peap_symbian_c::SaveManualIdentityL(
const TBool use_manual_username,
TDesC& manual_username,
const TBool use_manual_realm,
TDesC& manual_realm)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
// Validate length.
if(manual_username.Length() > KMaxManualUsernameLengthInDB
|| manual_realm.Length() > KMaxManualRealmLengthInDB)
{
// Username or realm too long. Can not be stored in DB.
EAP_TRACE_DEBUG_SYMBIAN((_L("eap_am_type_tls_peap_symbian_c::SaveManualIdentityL: Too long username or realm. Length: UN=%d, Realm=%d\n"),
manual_username.Length(), manual_realm.Length()));
User::Leave(KErrArgument);
}
HBufC* sqlbuf = HBufC::NewLC(KMaxSqlQueryLength);
TPtr sqlStatement = sqlbuf->Des();
RDbView view;
_LIT(KSQL, "SELECT * FROM %S WHERE %S=%d AND %S=%d AND %S=%d");
sqlStatement.Format(KSQL, &m_db_table_name,
&KServiceType, m_index_type, &KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
User::LeaveIfError(view.Prepare(m_database, TDbQuery(sqlStatement), TDbWindow::EUnlimited));
CleanupClosePushL(view);
User::LeaveIfError(view.EvaluateAll());
// Get column set so we get the correct column numbers
CDbColSet* colSet = view.ColSetL();
CleanupStack::PushL(colSet);
view.FirstL();
view.UpdateL();
view.SetColL(colSet->ColNo(cf_str_EAP_TLS_PEAP_use_manual_realm_literal), static_cast<TUint>(use_manual_realm) );
view.SetColL(colSet->ColNo(cf_str_EAP_TLS_PEAP_manual_realm_literal), manual_realm); // realm
view.SetColL(colSet->ColNo(cf_str_EAP_TLS_PEAP_use_manual_username_literal), static_cast<TUint>(use_manual_username) );
view.SetColL(colSet->ColNo(cf_str_EAP_TLS_PEAP_manual_username_literal), manual_username);
view.PutL();
CleanupStack::PopAndDestroy(3); // colset, view, session
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
abs_eap_am_type_tls_peap_c * eap_am_type_tls_peap_symbian_c::get_am_partner()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return m_am_partner;
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::set_am_partner(abs_eap_am_type_tls_peap_c * const partner)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
m_am_partner = partner;
}
//--------------------------------------------------
EAP_FUNC_EXPORT abs_tls_am_services_c * eap_am_type_tls_peap_symbian_c::get_tls_am_partner()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_ASSERT_ALWAYS(m_tls_am_partner != 0);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return m_tls_am_partner;
}
//--------------------------------------------------
EAP_FUNC_EXPORT void eap_am_type_tls_peap_symbian_c::set_tls_am_partner(abs_tls_am_services_c * const tls_am_partner)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
m_tls_am_partner = tls_am_partner;
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::SendErrorNotification()
// ---------------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::SendErrorNotification(
const eap_status_e aError )
{
send_error_notification( aError );
}
//--------------------------------------------------
#if defined(USE_FAST_EAP_TYPE)
EAP_FUNC_EXPORT void eap_am_type_tls_peap_symbian_c::set_tls_application(
abs_tls_am_application_eap_fast_c * const tls_application)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
m_tls_application = tls_application;
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::IsProvisioningMode()
// ---------------------------------------------------------
//
TBool eap_am_type_tls_peap_symbian_c::IsProvisioningMode()
{
return ( m_provisioning_mode ==
eap_fast_completion_operation_server_authenticated_provisioning_mode ) ? ETrue : EFalse;
}
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::CompleteQueryUserPermissionForAid()
// ---------------------------------------------------------
//
eap_status_e
eap_am_type_tls_peap_symbian_c::CompleteQueryUserPermissionForAid(
EEapFastNotifierUserAction aUserAction )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::CompleteQueryUserPermissionForAid")));
if ( aUserAction == EEapFastNotifierUserActionOk )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::CompleteQueryUserPermissionForAid eap_status_ok")));
m_eap_fast_completion_status = m_tls_application->
complete_query_user_permission_for_A_ID(
eap_status_ok,
m_pending_operation );
}
else //if (userAction == EEapFastNotifierUserActionCancel)
{
EAP_TRACE_DEBUG_SYMBIAN(
_L("eap_am_type_tls_peap_symbian_c::CompleteQueryUserPermissionForAid eap_status_user_cancel_authentication"));
// comlete query
m_eap_fast_completion_status = m_tls_application->
complete_query_user_permission_for_A_ID(
eap_status_user_cancel_authentication,
m_pending_operation );
}
return m_eap_fast_completion_status;
}
#endif //#if defined(USE_FAST_EAP_TYPE)
//--------------------------------------------------
//
EAP_FUNC_EXPORT void eap_am_type_tls_peap_symbian_c::notify_configuration_error(
const eap_status_e configuration_status)
{
if (m_is_client == true)
{
EAP_UNREFERENCED_PARAMETER(configuration_status); // in release
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("EAP-TLS: Configuration error notification, %d.\n"),
configuration_status));
// Here we swap the addresses.
eap_am_network_id_c send_network_id(m_am_tools,
m_receive_network_id.get_destination_id(),
m_receive_network_id.get_source_id(),
m_receive_network_id.get_type());
// Send a notification that configuration is incorrect.
eap_state_notification_c notification(
m_am_tools,
&send_network_id,
m_is_client,
eap_state_notification_eap,
eap_protocol_layer_general, // This must be used with eap_general_state_configuration_error.
m_current_eap_type,
eap_state_none,
eap_general_state_configuration_error,
0,
false);
notification.set_authentication_error(configuration_status);
m_partner->state_notification(¬ification);
}
}
//--------------------------------------------------
//
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::configure()
{
eap_status_e status(eap_status_ok);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: %s: function: eap_am_type_tls_peap_symbian_c::configure()\n"),
(m_is_client == true ? "client": "server")));
if (m_configured == true)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: %s: function: eap_am_type_tls_peap_symbian_c::configure(): Already configured.\n"),
(m_is_client == true ? "client": "server")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//----------------------------------------------------------
{
TRAPD(err, EapTlsPeapUtils::ReadCertRowsToArrayL(
m_database,
m_am_tools,
m_db_user_cert_table_name,
m_index_type,
m_index,
m_tunneling_type,
m_allowed_user_certs));
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - ReadCertRowsToArrayL, User cert, Error =%d \n"),
err));
// Convert the leave error code to EAPOL stack error code.
status = m_am_tools->convert_am_error_to_eapol_error(err);
return EAP_STATUS_RETURN(m_am_tools, status);
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::configure, EapTlsPeapUtils::ReadCertRowsToArrayL success, m_allowed_user_certs count=%d"),
m_allowed_user_certs.Count()));
}
TRAP(err, EapTlsPeapUtils::ReadCertRowsToArrayL(
m_database,
m_am_tools,
m_db_ca_cert_table_name,
m_index_type,
m_index,
m_tunneling_type,
m_allowed_ca_certs));
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - ReadCertRowsToArrayL, CA cert, Error =%d \n"),
err));
// Convert the leave error code to EAPOL stack error code.
status = m_am_tools->convert_am_error_to_eapol_error(err);
return EAP_STATUS_RETURN(m_am_tools, status);
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::configure, EapTlsPeapUtils::ReadCertRowsToArrayL success, m_allowed_ca_certs count=%d"),
m_allowed_ca_certs.Count()));
}
TRAP(err, EapTlsPeapUtils::ReadUintRowsToArrayL(
m_database,
m_am_tools,
m_db_cipher_suite_table_name,
KCipherSuite,
m_index_type,
m_index,
m_tunneling_type,
m_allowed_cipher_suites));
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - ReadUintRowsToArrayL, CipherSuit, Error =%d \n"),
err));
// Convert the leave error code to EAPOL stack error code.
status = m_am_tools->convert_am_error_to_eapol_error(err);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
//----------------------------------------------------------
if (m_current_eap_type == eap_type_peap
#if defined(USE_TTLS_EAP_TYPE)
|| m_current_eap_type == eap_type_ttls
#endif
#if defined(USE_FAST_EAP_TYPE)
|| m_current_eap_type == eap_type_fast
#endif
)
{
#ifdef USE_EAP_EXPANDED_TYPES
TRAPD(err, EapTlsPeapUtils::GetTunnelingExpandedEapDataL(
m_database,
m_am_tools,
m_enabled_tunneling_exp_eap_array,
m_disabled_tunneling_exp_eap_array,
m_index_type,
m_index,
m_tunneling_type,
m_current_eap_type));
#else
TRAPD(err, EapTlsPeapUtils::GetEapDataL(
m_database,
m_am_tools,
m_iap_eap_array,
m_index_type,
m_index,
m_tunneling_type,
m_current_eap_type));
#endif //#ifdef USE_EAP_EXPANDED_TYPES
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - GetEapDataL or GetTunnelingExpandedEapDataL, Error =%d \n"),
err));
// Convert the leave error code to EAPOL stack error code.
status = m_am_tools->convert_am_error_to_eapol_error(err);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
//----------------------------------------------------------
{
eap_variable_data_c verify_certificate_realm(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_verify_certificate_realm.get_field(),
&verify_certificate_realm);
if (status == eap_status_ok
&& verify_certificate_realm.get_is_valid_data() == true
&& verify_certificate_realm.get_data_length() == sizeof(u32_t)
&& verify_certificate_realm.get_data(sizeof(u32_t)) != 0)
{
// OK
// This is optional value.
if (*(reinterpret_cast<u32_t *>(
verify_certificate_realm.get_data(sizeof(u32_t)))) == 1)
{
m_verify_certificate_realm = true;
}
else
{
m_verify_certificate_realm = false;
}
}
}
//----------------------------------------------------------
{
eap_variable_data_c allow_subdomain_matching(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_allow_subdomain_matching.get_field(),
&allow_subdomain_matching);
if (status == eap_status_ok
&& allow_subdomain_matching.get_is_valid_data() == true
&& allow_subdomain_matching.get_data_length() == sizeof(u32_t)
&& allow_subdomain_matching.get_data(sizeof(u32_t)) != 0)
{
// OK
// This is optional value.
if (*(reinterpret_cast<u32_t *>(
allow_subdomain_matching.get_data(sizeof(u32_t)))) == 1)
{
m_allow_subdomain_matching = true;
}
else
{
m_allow_subdomain_matching = false;
}
}
}
//----------------------------------------------------------
// This is only for server
{
eap_variable_data_c cipher_suite(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_cipher_suite.get_field(),
&cipher_suite);
if (status == eap_status_ok
&& cipher_suite.get_is_valid_data() == true
&& cipher_suite.get_data_length() == sizeof(u32_t)
&& cipher_suite.get_data(sizeof(u32_t)) != 0)
{
// OK
// This is optional value.
m_cipher_suite = (tls_cipher_suites_e)*reinterpret_cast<u32_t *>(
cipher_suite.get_data(sizeof(u32_t)));
}
}
//----------------------------------------------------------
#ifndef USE_EAP_EXPANDED_TYPES // This is not needed it seems. Still keeping it for normal EAP types.
// Intention of this is to get tunneled EAP types, but m_tunneled_type is not used
// anywhere other than this place.
if (m_current_eap_type == eap_type_peap
#if defined(USE_TTLS_EAP_TYPE)
|| m_current_eap_type == eap_type_ttls
#endif // #if defined(USE_TTLS_EAP_TYPE)
#if defined(USE_FAST_EAP_TYPE)
|| m_current_eap_type == eap_type_fast
#endif
)
{
eap_variable_data_c tunneled_type(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_PEAP_tunneled_eap_type_hex_data.get_field(),
&tunneled_type);
if (status == eap_status_illegal_configure_type)
{
status = m_partner->read_configure(
cf_str_PEAP_tunneled_eap_type_u32_t.get_field(),
&tunneled_type);
}
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
else if (tunneled_type.get_is_valid_data() == true
&& tunneled_type.get_data_length() == sizeof(u32_t)
&& tunneled_type.get_data(sizeof(u32_t)) != 0)
{
m_tunneled_type = static_cast<eap_type_value_e>(
*reinterpret_cast<u32_t *>(tunneled_type.get_data(sizeof(u32_t))));
}
else if (tunneled_type.get_data_length()
== eap_expanded_type_c::get_eap_expanded_type_size()
&& tunneled_type.get_data(tunneled_type.get_data_length()) != 0)
{
eap_expanded_type_c eap_type(eap_type_none);
status = eap_type.set_expanded_type_data(
m_am_tools,
&tunneled_type);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = eap_type.get_type_data(
m_am_tools,
&m_tunneled_type);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
}
#endif //#ifndef USE_EAP_EXPANDED_TYPES
//----------------------------------------------------------
{
eap_variable_data_c use_manual_username(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_use_manual_username.get_field(),
&use_manual_username);
if (status == eap_status_ok
&& use_manual_username.get_is_valid_data() == true
&& use_manual_username.get_data_length() == sizeof(u32_t)
&& use_manual_username.get_data(sizeof(u32_t)) != 0)
{
// OK
// This is optional value.
if (*(reinterpret_cast<u32_t *>(use_manual_username.get_data(sizeof(u32_t)))) == 1)
{
m_use_manual_username = true;
}
else
{
m_use_manual_username = false;
}
}
}
//----------------------------------------------------------
{
(void) type_configure_read(
cf_str_EAP_TLS_PEAP_manual_username.get_field(),
&m_manual_username);
// return value ignored on purpose (optional parameter)
}
//----------------------------------------------------------
{
eap_variable_data_c use_manual_realm(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_use_manual_realm.get_field(),
&use_manual_realm);
if (status == eap_status_ok
&& use_manual_realm.get_is_valid_data() == true
&& use_manual_realm.get_data_length() == sizeof(u32_t)
&& use_manual_realm.get_data(sizeof(u32_t)) != 0)
{
// OK
// This is optional value.
if (*(reinterpret_cast<u32_t *>(
use_manual_realm.get_data(sizeof(u32_t)))) == 1)
{
m_use_manual_realm = true;
}
else
{
m_use_manual_realm = false;
}
}
}
//----------------------------------------------------------
{
(void) type_configure_read(
cf_str_EAP_TLS_PEAP_manual_realm.get_field(),
&m_manual_realm);
// return value ignored on purpose (optional parameter)
}
//----------------------------------------------------------
#if defined(USE_EAP_TLS_SESSION_TICKET)
{
eap_variable_data_c use_session_ticket(m_am_tools);
eap_status_e status = m_partner->read_configure(
cf_str_EAP_TLS_PEAP_use_session_ticket.get_field(),
&use_session_ticket);
if (status == eap_status_ok
&& use_session_ticket.get_is_valid_data() == true)
{
u32_t *use_manual_realm_flag = reinterpret_cast<u32_t *>(
use_session_ticket.get_data(sizeof(u32_t)));
if (use_manual_realm_flag != 0
&& *use_manual_realm_flag != 0)
{
m_use_session_ticket = true;
}
}
}
#endif //#if defined(USE_EAP_TLS_SESSION_TICKET)
//----------------------------------------------------------
if (m_current_eap_type == eap_type_peap
#if defined(USE_TTLS_EAP_TYPE)
|| m_current_eap_type == eap_type_ttls
#endif // #if defined(USE_TTLS_EAP_TYPE)
#if defined(USE_FAST_EAP_TYPE)
|| m_current_eap_type == eap_type_fast
#endif
)
{
m_tls_peap_server_authenticates_client_policy_flag = false;
}
//----------------------------------------------------------
{
eap_variable_data_c server_authenticates_client(m_am_tools);
status = type_configure_read(
cf_str_TLS_server_authenticates_client_policy_in_client.get_field(),
&server_authenticates_client);
if (status == eap_status_ok
&& server_authenticates_client.get_is_valid_data() == true
&& server_authenticates_client.get_data_length() == sizeof(u32_t)
&& server_authenticates_client.get_data(sizeof(u32_t)) != 0)
{
// This is optional value.
u32_t *flag = reinterpret_cast<u32_t *>(
server_authenticates_client.get_data(sizeof(u32_t)));
if (flag != 0)
{
if (*flag == 0)
{
m_tls_peap_server_authenticates_client_policy_flag = false;
}
else
{
m_tls_peap_server_authenticates_client_policy_flag = true;
}
}
}
}
//----------------------------------------------------------
{
// Read Maximum Session Validity Time from the config file
eap_variable_data_c sessionTimeFromFile(m_am_tools);
eap_status_e status(eap_status_ok);
switch (m_current_eap_vendor_type)
{
case eap_type_tls:
{
status = m_partner->read_configure(
cf_str_EAP_TLS_max_session_validity_time.get_field(),
&sessionTimeFromFile);
}
break;
case eap_type_peap:
{
status = m_partner->read_configure(
cf_str_EAP_PEAP_max_session_validity_time.get_field(),
&sessionTimeFromFile);
}
break;
case eap_type_ttls:
{
status = m_partner->read_configure(
cf_str_EAP_TTLS_max_session_validity_time.get_field(),
&sessionTimeFromFile);
}
break;
case eap_type_ttls_plain_pap:
{
// read PAP session time
status = m_partner->read_configure(
cf_str_EAP_TLS_PEAP_ttls_pap_max_session_validity_time.get_field(),
&sessionTimeFromFile );
}
break;
#if defined(USE_FAST_EAP_TYPE)
case eap_type_fast:
{
status = m_partner->read_configure(
cf_str_EAP_FAST_max_session_validity_time.get_field(),
&sessionTimeFromFile);
}
break;
#endif
default:
{
// Should never happen
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - Unsupported EAP type, m_current_eap_vendor_type=%d \n"),
m_current_eap_vendor_type));
}
}
// set m_max_session_time
if (status == eap_status_ok
&& sessionTimeFromFile.get_is_valid_data() == true
&& sessionTimeFromFile.get_data_length() == sizeof(u32_t))
{
u32_t *session = reinterpret_cast<u32_t *>(sessionTimeFromFile.get_data());
if (session != 0)
{
// Update the max session time (in micro seconds).
// configuration file saves the time in seconds. We have to convert it to micro seconds.
m_max_session_time = static_cast<TInt64>(*session) * static_cast<TInt64>(KMicroSecsInASecond);
}
}
// set max session time for protocol in tunnel;
// currently for PAP
if ( status == eap_status_ok &&
sessionTimeFromFile.get_is_valid_data() == true &&
sessionTimeFromFile.get_data_length() == sizeof( u32_t ) )
{
u32_t* session = reinterpret_cast<u32_t*>( sessionTimeFromFile.get_data() );
if ( session != 0 )
{
// Update the max session time (in micro seconds).
// configuration file saves the time in seconds.
// We have to convert it to micro seconds.
iEapTtlsPapMaxSessionConfigTime = static_cast<TInt64>
( *session ) * static_cast<TInt64>( KMicroSecsInASecond );
}
}
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - -
#if defined(USE_FAST_EAP_TYPE)
// Read UnAuthenticated provisioning mode from database.
// We need this only for EAP-FAST
if(m_current_eap_type == eap_type_fast)
{
//----------------------------------------------------------
{
eap_variable_data_c allow_serv_unauth_prov_mode(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_FAST_allow_server_unauthenticated_provisioning_mode_ADHP.get_field(),
&allow_serv_unauth_prov_mode);
if (status == eap_status_ok
&& allow_serv_unauth_prov_mode.get_is_valid_data() == true
&& allow_serv_unauth_prov_mode.get_data_length() == sizeof(u32_t)
&& allow_serv_unauth_prov_mode.get_data(sizeof(u32_t)) != 0)
{
// OK
if (*(reinterpret_cast<u32_t *>(
allow_serv_unauth_prov_mode.get_data(sizeof(u32_t)))) == 1)
{
m_serv_unauth_prov_mode = true;
}
else
{
m_serv_unauth_prov_mode = false;
}
}
}
//----------------------------------------------------------
{
eap_variable_data_c allow_serv_auth_prov_mode(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_FAST_allow_server_authenticated_provisioning_mode.get_field(),
&allow_serv_auth_prov_mode);
if (status == eap_status_ok
&& allow_serv_auth_prov_mode.get_is_valid_data() == true
&& allow_serv_auth_prov_mode.get_data_length() == sizeof(u32_t)
&& allow_serv_auth_prov_mode.get_data(sizeof(u32_t)) != 0)
{
// OK
if (*(reinterpret_cast<u32_t *>(
allow_serv_auth_prov_mode.get_data(sizeof(u32_t)))) == 1)
{
m_serv_auth_prov_mode = true;
}
else
{
m_serv_auth_prov_mode = false;
}
}
}
//----------------------------------------------------------
} // End: if(m_current_eap_type == eap_type_fast)
#endif // #if defined(USE_FAST_EAP_TYPE)
// - - - - - - - - - - - - - - - - - - - - - - - - - - - -
status = eap_status_ok;
if (m_allowed_ca_certs.Count() == 0)
{
// needed because of nonworking wrong settings
#if defined(USE_FAST_EAP_TYPE)
if(m_current_eap_type == eap_type_fast &&
m_serv_auth_prov_mode != true)
{
// In the case of EAP-FAST, CA cert is must if m_serv_auth_prov_mode is TRUE.
status = eap_status_ok;
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - No CA certificate but exception for EAP-FAST as m_serv_auth_prov_mode is FALSE and for all m_serv_unauth_prov_mode \n")));
}
else
#endif // #if defined(USE_FAST_EAP_TYPE)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - Error - No CA certificate\n")));
// No root certificate selected. Cannot continue.
status = eap_status_ca_certificate_unknown;
send_error_notification(status);
}
}
if(m_allowed_user_certs.Count() == 0)
{
#if defined(USE_FAST_EAP_TYPE)
if(m_current_eap_type == eap_type_fast)
{
m_use_manual_realm = true;
if (m_use_manual_username == false)
{
TRAPD(err, status=ConfigureL());
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure LEAVE from ConfigureL, Error =%d \n"),
err));
}
}
}
#endif // #if defined(USE_FAST_EAP_TYPE)
}
if (m_tls_peap_server_authenticates_client_policy_flag == true
&& m_allowed_user_certs.Count() == 0)
{
#if defined(USE_FAST_EAP_TYPE)
if (m_current_eap_type == eap_type_fast)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::configure - No USER certificate, but in eap_fast it's not mandatory\n")));
}
else
#endif // #if defined(USE_FAST_EAP_TYPE)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - Error - No USER certificate\n")));
// No user certificate selected. Cannot continue.
status = eap_status_user_certificate_unknown;
send_error_notification(status);
}
}
if (m_allowed_cipher_suites.Count() == 0)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::configure - Error - No cipher suit\n")));
// No sipher suites selected. Cannot continue.
status = eap_status_illegal_cipher_suite;
send_error_notification(status);
}
// - - - - - - - - - - - - - - - - - - - - - - - - - - - -
if (status != eap_status_ok)
{
notify_configuration_error(status);
}
m_configured = true;
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::configure - END \n")));
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
#if defined(USE_FAST_EAP_TYPE)
eap_status_e eap_am_type_tls_peap_symbian_c::ConfigureL()
{
eap_status_e status(eap_status_ok);
_LIT(KTempUserName, "EAP-FAST-");
TBuf8<10> TempUserName;
TempUserName.Copy(KTempUserName);
HBufC8* buf = HBufC8::NewLC(KIdentityFieldLength);
TPtr8 bufPtr = buf->Des();
HBufC8* tempUserBuf8 = HBufC8::NewLC(KMacAddressLength);
TPtr8 tempUserBufPtr8 = tempUserBuf8->Des();
HBufC8* ConvertedtempUserBuf8 = HBufC8::NewLC(KMacAddressLength*2);
TPtr8 ConvertedtempUserBufPtr8 = ConvertedtempUserBuf8->Des();
if (m_receive_network_id.get_destination_length()>0)
{
tempUserBufPtr8.Copy(m_receive_network_id.get_destination(), m_receive_network_id.get_destination_length());
u32_t toBinaryPtr8SizeForTools = static_cast<u32_t>(KMacAddressLength*2);
u32_t fromTextPtr8SizeForTools = static_cast<u32_t>(tempUserBufPtr8.Size());
u8_t * toBinaryPtr8ForTools = const_cast<u8_t *>(ConvertedtempUserBuf8->Ptr());
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::configure,Call convert_bytes_to_hex_ascii, toBinaryPtr8SizeForTools=%d"),
toBinaryPtr8SizeForTools));
// Convert hex to ascii string.
status = m_am_tools->convert_bytes_to_hex_ascii(
tempUserBufPtr8.Ptr(),
fromTextPtr8SizeForTools,
toBinaryPtr8ForTools,
&toBinaryPtr8SizeForTools);
if(status != eap_status_ok)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::configure, Error in convert_hex_ascii_to_bytes. status=%d"),
status));
User::Leave(m_am_tools->convert_eapol_error_to_am_error(status));
}
ConvertedtempUserBufPtr8.SetLength(KMacAddressLength*2);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("MAC"),
ConvertedtempUserBuf8->Ptr(),
ConvertedtempUserBuf8->Size()));
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::config: user size = %d, MAC size= %d \n"),
TempUserName.Size(), ConvertedtempUserBuf8->Size()));
bufPtr.Append(TempUserName.Ptr(), TempUserName.Size());
bufPtr.Append(ConvertedtempUserBuf8->Ptr(),ConvertedtempUserBuf8->Size());
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("UserName"),
bufPtr.Ptr(),
bufPtr.Size()));
status = m_manual_username.set_copy_of_buffer(
bufPtr.Ptr(),
bufPtr.Size());
}
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::config: UserName = %s \n"),
bufPtr.Ptr(), bufPtr.Size()));
CleanupStack::PopAndDestroy(ConvertedtempUserBuf8);
CleanupStack::PopAndDestroy(tempUserBuf8);
CleanupStack::PopAndDestroy(buf);
m_use_manual_username = true;
return status;
}
#endif // #if defined(USE_FAST_EAP_TYPE)
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::reset()
{
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
//
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::authentication_finished(
const bool true_when_successful,
const tls_session_type_e tls_session_type)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
eap_status_e status(eap_status_ok);
TRAPD(err, authentication_finishedL(true_when_successful, tls_session_type));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::authentication_finished, TRAP ERROR=%d\n"),
err));
status = m_am_tools->convert_am_error_to_eapol_error(err);
send_error_notification(status);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
void eap_am_type_tls_peap_symbian_c::authentication_finishedL(
const bool true_when_successful,
const tls_session_type_e tls_session_type)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
if (m_is_client == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
// In EAP-FAST this could be called when provisioning is successfull.
// If there was provisioning, We have to toggle
// cf_str_EAP_FAST_allow_server_unauthenticated_provisioning_mode_ADHP_literal
#if defined(USE_FAST_EAP_TYPE)
if(m_current_eap_type == eap_type_fast &&
m_serv_unauth_prov_mode == true)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::authentication_finishedL EAP-FAST Provisioning!")));
eap_variable_data_c unauthProvMode(m_am_tools);
unauthProvMode.set_copy_of_buffer(
&default_EAP_FAST_Unauth_Prov_Mode_Allowed,
sizeof(default_EAP_FAST_Unauth_Prov_Mode_Allowed));
EapTlsPeapUtils::SetEapSettingsDataL(
m_database,
m_index_type,
m_index,
m_tunneling_type,
m_current_eap_type,
cf_str_EAP_FAST_allow_server_unauthenticated_provisioning_mode_ADHP_literal,
&unauthProvMode);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::authentication_finishedL Unauth Prov mode set to default (NO)!")));
}
#endif
// Store the authentication time if the full authentication is successful
if (true_when_successful == true
&& tls_session_type == tls_session_type_full_authentication)
{
store_authentication_timeL();
}
if (m_latest_alert_description == tls_alert_description_certificate_expired)
{
send_error_notification(eap_status_certificate_expired);
}
else if (m_latest_alert_description == tls_alert_description_bad_certificate)
{
send_error_notification(eap_status_bad_certificate);
}
else if (m_latest_alert_description == tls_alert_description_unsupported_certificate)
{
send_error_notification(eap_status_unsupported_certificate);
}
else if (m_latest_alert_description == tls_alert_description_certificate_revoked)
{
send_error_notification(eap_status_certificate_revoked);
}
else if (m_latest_alert_description == tls_alert_description_certificate_unknown)
{
send_error_notification(eap_status_user_certificate_unknown);
}
else if(m_latest_alert_description != tls_alert_description_none)
{
// Send error notification any alert other than tls_alert_description_none.
send_error_notification(eap_status_process_general_error);
}
if (true_when_successful == false)
{
ResetSessionIdL();
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_eap_identity(
eap_variable_data_c * const /*identity*/,
const eap_am_network_id_c * const /* receive_network_id */,
const u8_t eap_identifier,
bool * const /*use_manual_username*/,
eap_variable_data_c * const /*manual_username*/,
bool *const /*use_manual_realm*/,
eap_variable_data_c * const /*manual_realm*/)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
eap_status_e status(eap_status_pending_request);
// Store parameters
m_eap_identifier = eap_identifier;
m_state = EHandlingIdentityQuery;
// Get the own certificate only if it has already been retrieved
if (m_own_certificate == 0)
{
TRAPD(err, m_cert_if->GetMatchingCertificatesL(
m_allowed_user_certs,
EFalse,
0,
EFalse,
0,
ETrue,
m_allowed_cipher_suites));
if (err != KErrNone)
{
status = m_am_tools->convert_am_error_to_eapol_error(err);
}
else
{
status = eap_status_pending_request;
}
}
else
{
RPointerArray<CX509Certificate> tmp;
if (tmp.Append(m_own_certificate) != KErrNone)
{
status = m_am_tools->convert_am_error_to_eapol_error(eap_status_allocation_error);
}
else
{
status = complete_read_own_certificate(tmp, eap_status_ok);
}
tmp.Reset();
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
eap_status_e eap_am_type_tls_peap_symbian_c::complete_read_own_certificate(
const RPointerArray<CX509Certificate>& aCertChain, eap_status_e aStatus)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
eap_status_e status = eap_status_process_general_error;
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::complete_read_own_certificate -start- cert chain count = %d, aStatus=%d\n"),
aCertChain.Count(), aStatus));
if (aStatus != eap_status_ok)
{
switch (m_state)
{
case EHandlingIdentityQuery:
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: EHandlingIdentityQuery: Cannot read own certificate.\n")));
status = get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
aStatus,
false,
0,
false,
0);
break;
case EHandlingChainQuery:
status = get_tls_am_partner()->complete_query_certificate_chain(0, aStatus);
break;
default:
// This should never happen
User::Panic(_L("EAPOL"), 1);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
// Handle errors - if certificate is 0 then an error has occurred.
if (aCertChain.Count() == 0)
{
switch (m_state)
{
case EHandlingIdentityQuery:
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Could not read own certificate.\n")));
status = get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_illegal_eap_identity,
false,
0,
false,
0);
break;
case EHandlingChainQuery:
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: Could not read own certificate.\n")));
status = get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_illegal_certificate);
break;
default:
// This should never happen
User::Panic(_L("EAPOL"), 1);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
TBool aEqual = EFalse;
if (m_own_certificate != 0)
{
TRAPD(err1, aEqual = m_own_certificate->IsEqualL(*aCertChain[0]));
if (err1 != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
}
// Store certificate
if (m_own_certificate == 0
|| aEqual == EFalse)
{
delete m_own_certificate;
// Create a copy of the certificate
TRAPD(err, m_own_certificate = CX509Certificate::NewL(*aCertChain[0]));
if (err != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
}
switch (m_state)
{
case EHandlingIdentityQuery:
{
eap_variable_data_c subjectIdentity(m_am_tools);
eap_variable_data_c IssuerIdentity(m_am_tools);
TRAPD(err, get_identity_from_alternative_nameL(m_own_certificate, &subjectIdentity));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Could not find identity in SubjectAltName field.\n")));
TRAPD(err, get_identities_from_distinguished_namesL(m_own_certificate, &subjectIdentity, &IssuerIdentity));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Could not find subject identity from certificate.\n")));
status = get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_illegal_eap_identity,
false,
0,
false,
0);
break;
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Found subject identity from certificate.\n")));
}
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Found identity in SubjectAltName field.\n")));
}
// The completition function return a status value but there is no need to check them.
status = get_am_partner()->complete_eap_identity_query(
&subjectIdentity,
&m_receive_network_id,
m_eap_identifier,
eap_status_ok,
m_use_manual_username,
&m_manual_username,
m_use_manual_realm,
&m_manual_realm);
if (status == eap_status_ok
|| status == eap_status_pending_request)
{
status = eap_status_completed_request;
}
}
break;
case EHandlingChainQuery:
{
eap_array_c<eap_variable_data_c> chain(m_am_tools);
// Check if the certificate cipher suite is correct
const CSubjectPublicKeyInfo& pubkey = m_own_certificate->PublicKey();
TAlgorithmId algorithm = pubkey.AlgorithmId();
if (EapTlsPeapUtils::CipherSuiteUseRSAKeys(m_cipher_suite)
&& algorithm != ERSA)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Tried to use DSA certificate with RSA cipher suite.\n")));
send_error_notification(eap_status_illegal_cipher_suite);
status = get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_illegal_cipher_suite);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
if (EapTlsPeapUtils::CipherSuiteUseDSAKeys(m_cipher_suite)
&& algorithm != EDSA)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Tried to use RSA certificate with DSS cipher suite.\n")));
send_error_notification(eap_status_illegal_cipher_suite);
status = get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_illegal_cipher_suite);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
// Add the chain certificates to eap_array_c
TInt i(0);
for (i = 0; i < aCertChain.Count(); i++)
{
eap_variable_data_c * cert = new eap_variable_data_c(m_am_tools);
if (cert == 0)
{
status = get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_allocation_error);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
status = cert->set_buffer(
aCertChain[i]->Encoding().Ptr(),
aCertChain[i]->Encoding().Size(),
false,
false);
if (status != eap_status_ok)
{
delete cert;
status = get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_process_general_error);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = chain.add_object(cert, true);
if (status != eap_status_ok)
{
status = get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_allocation_error);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
// Complete query
status = get_tls_am_partner()->complete_query_certificate_chain(&chain, eap_status_ok);
}
break;
default:
// This should never happen
User::Panic(_L("EAPOL"), 1);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
eap_status_e eap_am_type_tls_peap_symbian_c::complete_read_ca_certificate(
const RPointerArray<CX509Certificate>& aCertChain, eap_status_e aStatus)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::complete_read_ca_certificate. Cert Chain count=%d, aStatus=%d\n"),
aCertChain.Count(), aStatus));
if (aStatus != eap_status_ok)
{
switch (m_state)
{
case EHandlingIdentityQuery:
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Could not CA certificate.\n")));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
aStatus,
false,
0,
false,
0);
break;
case EHandlingCipherSuiteQuery:
get_tls_am_partner()->complete_query_certificate_chain(0, aStatus);
break;
default:
// This should never happen
User::Panic(_L("EAPOL"), 1);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
// Check the error case first
if (aCertChain.Count() == 0)
{
switch (m_state)
{
case EHandlingIdentityQuery:
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Could not read ca certificate.\n")));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_illegal_eap_identity,
false,
0,
false,
0);
break;
case EHandlingCipherSuiteQuery:
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Could not read own certificate.\n")));
get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_illegal_certificate);
break;
default:
// This should never happen
User::Panic(_L("EAPOL"), 1);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
// Store certificate
TBool aEqual = EFalse;
if (m_ca_certificate != 0)
{
TRAPD(err1, aEqual = m_ca_certificate->IsEqualL(*aCertChain[0]));
if (err1 != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
}
if (m_ca_certificate == 0
|| aEqual == EFalse)
{
delete m_ca_certificate;
// Create a copy of the certificate
TRAPD(err, m_ca_certificate = CX509Certificate::NewL(*aCertChain[0]));
if (err != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
}
switch (m_state)
{
case EHandlingIdentityQuery:
{
// Get the realm from the CA certificate
eap_variable_data_c tmp(m_am_tools);
eap_status_e status = get_realms_from_certificate(
m_ca_certificate,
&m_manual_realm,
&tmp);
if (status != eap_status_ok)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Could not read realms from ca certificate.\n")));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_illegal_eap_identity,
false,
0,
false,
0);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Got realm from CA certificate"),
m_manual_realm.get_data(m_manual_realm.get_data_length()),
m_manual_realm.get_data_length()));
get_am_partner()->complete_eap_identity_query(
0, // 0 because certificate query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_ok,
m_use_manual_username,
&m_manual_username,
true,
&m_manual_realm);
}
break;
case EHandlingCipherSuiteQuery:
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Got CA certificate. Resume cipher suite selection.\n")));
query_cipher_suites_and_previous_session();
}
break;
default:
// This should never happen
User::Panic(_L("EAPOL"), 1);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
void eap_am_type_tls_peap_symbian_c::get_identities_from_distinguished_namesL(
const CX509Certificate * const aCertificate,
eap_variable_data_c * const aSubjectIdentity,
eap_variable_data_c * const aIssuerIdentity)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
if (aSubjectIdentity == 0
|| aIssuerIdentity == 0
|| aCertificate == 0)
{
User::Leave(KErrArgument);
}
TInt i(0);
HBufC *value = 0;
// Loop the distinguished name field and try to find common name
const CX500DistinguishedName& dn = aCertificate->SubjectName();
for (i = 0; i < dn.Count(); i++)
{
const CX520AttributeTypeAndValue& attribute = dn.Element(i);
if (attribute.Type() == KX520CommonName)
{
value = attribute.ValueL();
CleanupStack::PushL(value);
// Convert to 8-bit text
HBufC8* tmp = HBufC8::NewLC(value->Length());
if (NULL == tmp)
{
User::Leave(KErrNoMemory);
}
TPtr8 tmpptr = tmp->Des();
tmpptr.Copy(*value);
eap_status_e status = aSubjectIdentity->set_copy_of_buffer(
tmpptr.Ptr(),
tmpptr.Size());
if (status != eap_status_ok)
{
User::Leave(KErrNoMemory);
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::get_identities_from_distinguished_namesL:SubjectIdentity:"),
tmpptr.Ptr(),
tmpptr.Size()));
CleanupStack::PopAndDestroy(tmp);
CleanupStack::PopAndDestroy(value);
}
}
const CX500DistinguishedName& dn2 = aCertificate->IssuerName();
for (i = 0; i < dn2.Count(); i++)
{
const CX520AttributeTypeAndValue& attribute = dn2.Element(i);
if (attribute.Type() == KX520CommonName)
{
value = attribute.ValueL();
CleanupStack::PushL(value);
// Convert to 8-bit text
HBufC8* tmp = HBufC8::NewLC(value->Length());
if (NULL == tmp)
{
User::Leave(KErrNoMemory);
}
TPtr8 tmpptr = tmp->Des();
tmpptr.Copy(*value);
eap_status_e status = aIssuerIdentity->set_copy_of_buffer(
tmpptr.Ptr(),
tmpptr.Size());
if (status != eap_status_ok)
{
User::Leave(KErrNoMemory);
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::get_identities_from_distinguished_namesL:IssuerIdentity:"),
tmpptr.Ptr(),
tmpptr.Size()));
CleanupStack::PopAndDestroy(tmp);
CleanupStack::PopAndDestroy(value);
}
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
void eap_am_type_tls_peap_symbian_c::get_identity_from_alternative_nameL(
const CX509Certificate * const aCertificate,
eap_variable_data_c * const aIdentity)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
/********************************************************************
SubjectAltName ::= GeneralNames
GeneralNames ::= SEQUENCE OF GeneralName
GeneralName ::= CHOICE {
otherName [0] AnotherName,
rfc822Name [1] IA5String,
dNSName [2] IA5String,
x400Address [3] ANY, --ORAddress,
directoryName [4] Name,
ediPartyName [5] EDIPartyName,
uniformResourceIdentifier [6] IA5String,
iPAddress [7] OCTET STRING,
registeredID [8] OBJECT IDENTIFIER }
-- AnotherName replaces OTHER-NAME ::= TYPE-IDENTIFIER, as
-- TYPE-IDENTIFIER is not supported in the '88 ASN.1 syntax
AnotherName ::= SEQUENCE {
type OBJECT IDENTIFIER,
value [0] EXPLICIT ANY } --DEFINED BY type-id }
**********************************************************************/
const CX509CertExtension* ext = aCertificate->Extension(KSubjectAltName);
// Check if there is alternative name extension (Windows provided certificates usually do)
if (ext != 0)
{
// Start parsing the alt. name
TPtrC8 name = ext->Data();
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::get_identity_from_alternative_nameL: Alt Name from Cert extn:"),
name.Ptr(),
name.Size()));
if(0 == name.Size())
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR:get_identity_from_alternative_nameL:No Alternative Name in cert extension\n")));
User::Leave(KErrNotFound);
}
// Extension is inside an octet string
TASN1DecOctetString octetstring;
TInt pos(0);
HBufC8* pOct = octetstring.DecodeDERL(name, pos);
if(NULL == pOct)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR:get_identity_from_alternative_nameL:No ASN1DecOctetString or DecodeDER failed\n")));
User::Leave(KErrNotFound);
}
CleanupStack::PushL(pOct);
// Then there is SEQUENCE
TASN1DecSequence seq;
pos = 0;
CArrayPtrFlat<TASN1DecGeneric>* pSeq = seq.DecodeDERLC(pOct->Des(), pos);
if(0 == pSeq->Count())
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR:get_identity_from_alternative_nameL:No ASN1DecSequence or DecodeDER failed\n")));
User::Leave(KErrNotFound);
}
// Get the first item in the sequence (ignore other possible items)
TASN1DecGeneric* gen;
gen = pSeq->At(0);
if (gen == 0)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR:get_identity_from_alternative_nameL:No ASN1DecGeneric\n")));
User::Leave(KErrNotFound);
}
if (gen->Tag() != 0) // Only parse otherName in the CHOICE at the moment.
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR:get_identity_from_alternative_nameL:Some Tag in ASN1DecGeneric\n")));
User::Leave(KErrNotSupported);
}
TPtrC8 pOtherName = gen->GetContentDER();
TASN1DecObjectIdentifier objid;
pos = 0;
HBufC* objId = objid.DecodeDERL(pOtherName, pos);
if(NULL == objId)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR:get_identity_from_alternative_name_L:No ASN1DecObjectIdentifier or DecodeDER failed\n")));
User::Leave(KErrNotFound);
}
CleanupStack::PushL(objId);
// http://asn1.elibel.tm.fr/oid/
_LIT(KMSObjectId, "1.3.6.1.4.1.311.20.2.3");
if (objId->Compare(KMSObjectId) != 0)
{
// Not supported object type
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR:get_identity_from_alternative_nameL:Not supported object type\n")));
User::Leave(KErrNotSupported);
}
pos += 2; // Skip over explicit tag
TASN1DecUTF8String utf8;
HBufC* utf8name = utf8.DecodeDERL(pOtherName, pos);
if(NULL == utf8name)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR:get_identity_from_alternative_nameL:No ASN1DecUTF8String or DecodeDER failed\n")));
User::Leave(KErrNotFound);
}
CleanupStack::PushL(utf8name);
HBufC8* buf= HBufC8::NewLC(128);
if (NULL == buf)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
User::Leave(KErrNoMemory);
}
TPtr8 nname = buf->Des();
nname.Copy(utf8name->Des());
eap_status_e status = aIdentity->set_copy_of_buffer(
nname.Ptr(),
nname.Size());
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
User::Leave(KErrNoMemory);
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::get_identity_from_alternative_nameL: Identity from Alt Name:"),
nname.Ptr(),
nname.Size()));
CleanupStack::PopAndDestroy(5);
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("get_identity_from_alternative_nameL:No X509 Cert Extension\n")));
User::Leave(KErrNotFound);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
//
//--------------------------------------------------
//
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::timer_expired(
const u32_t id, void *data)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_UNREFERENCED_PARAMETER(id); // in release
EAP_UNREFERENCED_PARAMETER(data); // in release
eap_status_e status = eap_status_ok;
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TIMER: [0x%08x]->eap_am_type_tls_peap_symbian_c::timer_expired(id 0x%02x, data 0x%08x).\n"),
this, id, data));
#if defined(USE_FAST_EAP_TYPE)
if(id == KHandleCompletePacstoreNokTimerID)
{
m_eap_fast_completion_status = eap_status_file_does_not_exist;
m_tls_application->complete_initialize_PAC_store( iCompletionOperation, iCompletion );
return eap_status_ok;
}
if(id == KHandleCompletePacstoreOkTimerID)
{
m_eap_fast_completion_status = eap_status_ok;
m_tls_application->complete_initialize_PAC_store( iCompletionOperation, iCompletion );
return eap_status_ok;
}
if (id == KRemoveIAPReferenceTimerID)
{
status = RemoveIAPReference();
}
if (id == KImportFileTimerID)
{
TRAPD(err, status = ImportFilesL());
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Leave From ImportFilesL %d\n"),err));
}
}
if (id == KCompleteReadPacstoreTimerID)
{
TRAPD(err, FinalCompleteReadPACStoreDataL(m_eap_fast_completion_status));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Leave From FinalCompleteReadPACStoreDataL %d\n"),err));
}
}
if (id == KHandleReadPacstoreTimerID)
{
if (m_state == EPasswordCancel)
{
m_eap_fast_completion_status = eap_status_user_cancel_authentication;
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - PW query Cancel\n")));
status = m_partner->set_timer(
this,
KCompleteReadPacstoreTimerID,
0,
0);
return eap_status_ok;
}
if (m_state == EMasterkeyQuery && m_verificationStatus == EFalse)
{
if (m_userResponse.get_data_length()>0)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Masterkey Create\n")));
m_verificationStatus = ETrue;
TRAPD(err, m_eap_fast_completion_status=CreateMasterkeyL());
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Leave From CreateMasterkeyL %d\n"),err));
}
}
else
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Masterkey, no data -> final complete for PW\n")));
m_state = EWrongPassword;
m_verificationStatus = EFalse;
status = m_partner->set_timer(
this,
KCompleteReadPacstoreTimerID,
0,
0);
return status;
}
}
if (m_state == EPasswordQuery || m_state == EWrongPassword || m_state == EMasterkeyQuery)
{
if (m_verificationStatus == EFalse)
{
TRAPD(err, status = PasswordQueryL());
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(status);
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Leave From PasswordQueryL %d\n"),err));
}
if (m_eap_fast_completion_status != eap_status_ok)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - PW query NOK, final complete for PW\n")));
status = m_partner->set_timer(
this,
KCompleteReadPacstoreTimerID,
0,
0);
}
}
if (m_verificationStatus != EFalse)
{
TRAPD(err, CompletePasswordQueryL());
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Leave From CompletePasswordQueryL %d\n"),err));
}
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Complete_password_query, m_both_completed=%d, m_both_asked=%d status=%d.\n"),
m_both_completed,
m_both_asked,
m_eap_fast_completion_status));
if (m_both_completed == m_both_asked)
{
m_both_completed = 0;
m_both_asked = 0;
m_verificationStatus = EFalse;
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - All OK, final complete for PW\n")));
status = m_partner->set_timer(
this,
KCompleteReadPacstoreTimerID,
0,
0);
return status;
}
}
}
if (m_state == EFilePasswordQuery)
{
TRAPD( err, status = CompleteFilePasswordQueryL());
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Leave From CompleteFilePasswordQueryL %d\n"),err));
}
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - Complete_file_password_query, m_both_completed=%d, m_both_asked=%d status=%d.\n"),
m_both_completed,
m_both_asked,
status));
if (status != eap_status_ok)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - PW query NOK, final complete for PW\n")));
status = m_partner->set_timer(
this,
KCompleteReadPacstoreTimerID,
&status,
0);
return status;
}
if (m_both_completed == m_both_asked)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::timer_expired - All ok, final complete for PW\n")));
m_both_completed = 0;
m_both_asked = 0;
status = m_partner->set_timer(
this,
KCompleteReadPacstoreTimerID,
&status,
0);
}
return status;
}
}
#endif //#if defined(USE_FAST_EAP_TYPE)
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
//
EAP_FUNC_EXPORT void eap_am_type_tls_peap_symbian_c::set_is_valid()
{
m_is_valid = true;
}
//--------------------------------------------------
//
EAP_FUNC_EXPORT bool eap_am_type_tls_peap_symbian_c::get_is_valid()
{
return m_is_valid;
}
//--------------------------------------------------
//
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::timer_delete_data(
const u32_t id, void *data)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_UNREFERENCED_PARAMETER(id); // in release
EAP_UNREFERENCED_PARAMETER(data); // in release
eap_status_e status = eap_status_ok;
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TIMER: [0x%08x]->eap_am_type_tls_peap_symbian_c::timer_delete_data(id 0x%02x, data 0x%08x).\n"),
this, id, data));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
//
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::type_configure_read(
const eap_configuration_field_c * const field,
eap_variable_data_c * const data)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_ASSERT(data != NULL);
// Trap must be set here because the OS independent portion of EAP TLS
// that calls this function does not know anything about Symbian.
eap_status_e status(eap_status_ok);
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::type_configure_read - Start\n")));
if (m_current_eap_type == eap_type_peap
#if defined(USE_TTLS_EAP_TYPE)
|| m_current_eap_type == eap_type_ttls
#endif // #if defined(USE_TTLS_EAP_TYPE)
#if defined(USE_FAST_EAP_TYPE)
|| m_current_eap_type == eap_type_fast
#endif
|| m_current_eap_type == eap_type_ttls_plain_pap
)
{
// Check if the wanted parameter is default type
eap_variable_data_c wanted_field(m_am_tools);
eap_variable_data_c type_field(m_am_tools);
eap_variable_data_c type_field_server(m_am_tools);
status = wanted_field.set_buffer(
field->get_field(),
field->get_field_length(),
false,
false);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = type_field.set_buffer(
cf_str_PEAP_tunneled_eap_type_hex_data.get_field()->get_field(),
cf_str_PEAP_tunneled_eap_type_hex_data.get_field()->get_field_length(),
false,
false);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = type_field_server.set_buffer(
cf_str_PEAP_server_tunneled_eap_type_hex_data.get_field()->get_field(),
cf_str_PEAP_server_tunneled_eap_type_hex_data.get_field()->get_field_length(),
false,
false);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
if (!wanted_field.compare(&type_field_server))
{
// Change the name of the parameter because Symbian AM does not have separate config
// for the server
status = wanted_field.set_buffer(
cf_str_PEAP_tunneled_eap_type_hex_data.get_field()->get_field(),
cf_str_PEAP_tunneled_eap_type_hex_data.get_field()->get_field_length(),
false,
false);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (!wanted_field.compare(&type_field))
{
// We are asked to return cf_str_PEAP_tunneled_eap_type_hex_data
#ifdef USE_EAP_EXPANDED_TYPES
// We need to return here the next ENABLED tunneled EAP type we should try.
if (0 == m_enabled_tunneling_exp_eap_array.Count())
{
// No EAP types are ENABLED as tunneling type.
if (m_is_client)
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: No ENABLED encapsulated EAP types.\n")));
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_field);
}
else
{
// Get the first enabled EAP type (tunneling).
TBuf8<KExpandedEAPTypeSize> tmpExpEAP(m_enabled_tunneling_exp_eap_array[0]->iExpandedEAPType); //first item.
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("type_configure_read:Enabled expanded tunneling EAP type:"),
tmpExpEAP.Ptr(),
tmpExpEAP.Size()));
status = data->set_copy_of_buffer(tmpExpEAP.Ptr(), KExpandedEAPTypeSize);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-PEAP or EAP-TTLS: Trying encapsulated EAP type:"),
tmpExpEAP.Ptr(),
tmpExpEAP.Size()));
}
#else // For normal EAP types.
// We need to return here the next tunneled EAP type we should try.
TInt i;
for (i = 0; i < m_iap_eap_array.Count(); i++)
{
// Find the first enabled EAP type (highest priority)
TEap *eapType = m_iap_eap_array[i];
if (eapType->Enabled == 1)
{
// Convert the string to integer
TLex8 tmp(eapType->UID);
TInt val(0);
tmp.Val(val);
status = data->set_copy_of_buffer(reinterpret_cast<u8_t *>(&val), sizeof(TUint));
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("EAP-PEAP: Trying encapsulated EAP type: %d.\n"), val));
break;
}
}
if (i == m_iap_eap_array.Count())
{
// Not found
if (m_is_client)
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: No configured encapsulated EAP types.\n")));
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_field);
}
#endif //#ifdef USE_EAP_EXPANDED_TYPES
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
} // End of if (!wanted_field.compare(&type_field))
#if !defined(USE_EAP_EXPANDED_TYPES)
// cf_str_PEAP_accepted_tunneled_client_types_hex_data is available only for expaned EAP types.
// cf_str_PEAP_accepted_tunneled_client_types_u32array should be used otherwise.
// So for cf_str_PEAP_accepted_tunneled_client_types_hex_data and eap_configure_type_hex_data
// we should return eap_status_illegal_configure_field.
// This is needed only if USE_EAP_EXPANDED_TYPES is not defined. Otherwise the field
// cf_str_PEAP_accepted_tunneled_client_types_hex_data can be read from the database using
// type_configure_readL (let it fall through).
eap_variable_data_c tunneled_type_field(m_am_tools);
status = tunneled_type_field.set_buffer(
cf_str_PEAP_accepted_tunneled_client_types_hex_data.get_field()->get_field(),
cf_str_PEAP_accepted_tunneled_client_types_hex_data.get_field()->get_field_length(),
false,
false);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
if (!wanted_field.compare(&tunneled_type_field))
{
// Check if the type is eap_configure_type_hex_data.
if( eap_configure_type_hex_data == field->get_type() )
{
// This field is used only for exapanded EAP types.
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_type);
}
}
#else // For expanded EAP type.
// cf_str_PEAP_accepted_tunneled_client_types_u32array is available only for normal EAP types.
// So for cf_str_PEAP_accepted_tunneled_client_types_u32array and eap_configure_type_u32array
// we should return eap_status_illegal_configure_field.
eap_variable_data_c tunneled_type_field(m_am_tools);
status = tunneled_type_field.set_buffer(
cf_str_PEAP_accepted_tunneled_client_types_u32array.get_field()->get_field(),
cf_str_PEAP_accepted_tunneled_client_types_u32array.get_field()->get_field_length(),
false,
false);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
if (!wanted_field.compare(&tunneled_type_field))
{
// Check if the type is eap_configure_type_u32array.
if( eap_configure_type_u32array == field->get_type() )
{
// This field is used only for Normal EAP types. This is illegal here.
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_type);
}
}
#endif // End of #if !defined(USE_EAP_EXPANDED_TYPES)
} // End of if (m_current_eap_type == eap_type_peap
TRAPD(err, type_configure_readL(
field->get_field(),
field->get_field_length(),
data));
if (err != KErrNone)
{
status = m_am_tools->convert_am_error_to_eapol_error(err);
}
m_am_tools->trace_configuration(
status,
field,
data);
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::type_configure_read - End\n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::type_configure_readL(
eap_config_string field,
const u32_t field_length,
eap_variable_data_c * const data)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_UNREFERENCED_PARAMETER(field_length);
// Create a buffer for the ascii strings - initialised with the argument
HBufC8* asciibuf = HBufC8::NewLC(KMaxDBFieldNameLength);
TPtr8 asciiString = asciibuf->Des();
asciiString.Copy(reinterpret_cast<const unsigned char *>(field));
EAP_TRACE_DATA_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::type_configure_readL: Reading field:"),
asciiString.Ptr(),
asciiString.Size()));
// Buffer for unicode parameter
HBufC* unicodebuf = HBufC::NewLC(KMaxDBFieldNameLength);
TPtr unicodeString = unicodebuf->Des();
// Convert to unicode
unicodeString.Copy(asciiString);
// Now do the database query
HBufC* buf = HBufC::NewLC(KMaxSqlQueryLength);
TPtr sqlStatement = buf->Des();
_LIT(KSQLQueryRow, "SELECT %S FROM %S WHERE %S=%d AND %S=%d AND %S=%d");
#if defined(USE_FAST_EAP_TYPE)
// Unlike other EAP types, EAP-FAST has some settings in special settings table
// (m_db_fast_special_table_name)
if(m_current_eap_type == eap_type_fast
&& ((unicodeString.Compare(cf_str_EAP_FAST_allow_server_authenticated_provisioning_mode_literal) == 0)
|| (unicodeString.Compare(cf_str_EAP_FAST_allow_server_unauthenticated_provisioning_mode_ADHP_literal) == 0)
|| (unicodeString.Compare(cf_str_EAP_FAST_warn_ADHP_no_PAC_literal) == 0)
|| (unicodeString.Compare(cf_str_EAP_FAST_warn_ADHP_no_matching_PAC_literal) == 0)
|| (unicodeString.Compare(cf_str_EAP_FAST_warn_ADHP_not_default_server_literal) == 0)
|| (unicodeString.Compare(KFASTPACGroupImportReferenceCollection) == 0)
|| (unicodeString.Compare(KFASTPACGroupDBReferenceCollection) == 0)))
{
if (unicodeString.Compare(cf_str_EAP_FAST_warn_ADHP_no_matching_PAC_literal) == 0)
{
unicodeString.Copy(KFASTWarnADHPNoMatchingPAC);
}
if (unicodeString.Compare(cf_str_EAP_FAST_warn_ADHP_no_PAC_literal) == 0)
{
unicodeString.Copy(KFASTWarnADHPNoPAC);
}
if (unicodeString.Compare(cf_str_EAP_FAST_warn_ADHP_not_default_server_literal) == 0)
{
unicodeString.Copy(KFASTWarnNotDefaultServer);
}
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::type_configure_readL This field will be read from EAP-FAST's special table\n")));
sqlStatement.Format(KSQLQueryRow, &unicodeString, &m_db_fast_special_table_name,
&KServiceType, m_index_type, &KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
}
else
{
sqlStatement.Format(KSQLQueryRow, &unicodeString, &m_db_table_name,
&KServiceType, m_index_type, &KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
}
#else
sqlStatement.Format(KSQLQueryRow, &unicodeString, &m_db_table_name,
&KServiceType, m_index_type, &KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
#endif // End: #if defined(USE_FAST_EAP_TYPE)
RDbView view;
User::LeaveIfError(view.Prepare(m_database, TDbQuery(sqlStatement), TDbWindow::EUnlimited));
CleanupClosePushL(view);
User::LeaveIfError(view.EvaluateAll());
if (view.FirstL())
{
eap_status_e status;
view.GetL();
switch (view.ColType(KDefaultColumnInView_One))
{
case EDbColText:
{
unicodeString = view.ColDes(KDefaultColumnInView_One);
// Convert to 8-bit
asciiString.Copy(unicodeString);
if (asciiString.Size() > 0)
{
status = data->set_copy_of_buffer(asciiString.Ptr(), asciiString.Size());
if (status != eap_status_ok)
{
User::Leave(m_am_tools->convert_eapol_error_to_am_error(EAP_STATUS_RETURN(m_am_tools, status)));
}
}
else
{
status = data->init(0);
if (status != eap_status_ok)
{
User::Leave(m_am_tools->convert_eapol_error_to_am_error(EAP_STATUS_RETURN(m_am_tools, status)));
}
data->set_is_valid();
break;
}
}
break;
case EDbColUint32:
{
TUint value;
value = view.ColUint32(KDefaultColumnInView_One);
status = data->set_copy_of_buffer(&value, sizeof(value));
if (status != eap_status_ok)
{
User::Leave(m_am_tools->convert_eapol_error_to_am_error(EAP_STATUS_RETURN(m_am_tools, status)));
}
}
break;
case EDbColBinary:
{
TPtrC8 value = view.ColDes8(KDefaultColumnInView_One);
status = data->set_copy_of_buffer(value.Ptr(), value.Length());
if (status != eap_status_ok)
{
User::Leave(m_am_tools->convert_eapol_error_to_am_error(EAP_STATUS_RETURN(m_am_tools, status)));
}
}
break;
default:
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("type_configure_readL: Unexpected column type.\n")));
User::Leave(KErrGeneral);
break;
}
}
else
{
// Could not find parameter
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("type_configure_readL: Could not find configuration parameter.\n")));
User::Leave(KErrArgument);
}
// Close database
CleanupStack::PopAndDestroy(4); // view
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
//
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::type_configure_write(
const eap_configuration_field_c * const field,
eap_variable_data_c * const data)
{
// Here configuration data must be read from type spesific database.
// NOTE: This is really just for simulation.
// Write is routed to partner object.
eap_status_e status = m_partner->write_configure(
field,
data);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::WriteBinaryParamL(
eap_config_string field,
const u32_t field_length,
const eap_variable_data_c * const data)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
// Form the insertion command
TPtrC8 p(reinterpret_cast<const unsigned char *>(field), field_length);
HBufC* fieldbuf = HBufC::NewLC(KMaxDBFieldNameLength);
TPtr field_name = fieldbuf->Des();
field_name.Copy(p);
HBufC* buf = HBufC::NewLC(KMaxSqlQueryLength);
TPtr sqlStatement = buf->Des();
_LIT(KSQLInsert, "SELECT %s FROM %S WHERE %S=%d AND %S=%d AND %S=%d");
sqlStatement.Format(KSQLInsert, field_name.PtrZ(), &m_db_table_name,
&KServiceType, m_index_type, &KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
// Evaluate view
RDbView view;
User::LeaveIfError(view.Prepare(m_database,TDbQuery(sqlStatement), TDbWindow::EUnlimited));
CleanupClosePushL(view);
User::LeaveIfError(view.EvaluateAll());
// Update the columns in the database
view.FirstL();
view.UpdateL();
if (data->get_is_valid_data() == true)
{
TPtrC8 data_ptr(data->get_data(data->get_data_length()), data->get_data_length());
view.SetColL(KDefaultColumnInView_One, data_ptr);
}
else
{
view.SetColNullL(KDefaultColumnInView_One);
}
view.PutL();
// Close database
CleanupStack::PopAndDestroy(3); // view, 2 strings
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
void eap_am_type_tls_peap_symbian_c::WriteIntParamL(
eap_config_string field,
const u32_t field_length,
eap_variable_data_c * const data)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
TPtrC8 p(reinterpret_cast<const unsigned char *>(field), field_length);
HBufC* fieldbuf = HBufC::NewLC(KMaxDBFieldNameLength);
TPtr field_name = fieldbuf->Des();
field_name.Copy(p);
// Form the insertion command
HBufC* buf = HBufC::NewLC(KMaxSqlQueryLength);
TPtr sqlStatement = buf->Des();
_LIT(KSQLInsert, "SELECT %s FROM %S WHERE %S=%d AND %S=%d AND %S=%d");
sqlStatement.Format(KSQLInsert, field_name.PtrZ(), &m_db_table_name,
&KServiceType, m_index_type, &KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
// Evaluate view
RDbView view;
User::LeaveIfError(view.Prepare(m_database,TDbQuery(sqlStatement), TDbWindow::EUnlimited));
CleanupClosePushL(view);
User::LeaveIfError(view.EvaluateAll());
// Create pointers to the data
TPtrC8 data_ptr(data->get_data(data->get_data_length()), data->get_data_length());
// Convert the string to integer
const TInt val = *( reinterpret_cast<const TInt*>(data_ptr.Ptr()) );
// Update the columns in the database
view.FirstL();
view.UpdateL();
view.SetColL(KDefaultColumnInView_One, val);
view.PutL();
// Close database
CleanupStack::PopAndDestroy(3); // view, buf, 2nd buf
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
void eap_am_type_tls_peap_symbian_c::WriteIntParamL(
eap_config_string field,
const u32_t field_length,
const u32_t value)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
TPtrC8 p(reinterpret_cast<const unsigned char *>(field), field_length);
HBufC* fieldbuf = HBufC::NewLC(KMaxDBFieldNameLength);
TPtr field_name = fieldbuf->Des();
field_name.Copy(p);
// Form the insertion command
HBufC* buf = HBufC::NewLC(KMaxSqlQueryLength);
TPtr sqlStatement = buf->Des();
_LIT(KSQLInsert, "SELECT %s FROM %S WHERE %S=%d AND %S=%d AND %S=%d");
sqlStatement.Format(KSQLInsert, field_name.PtrZ(), &m_db_table_name,
&KServiceType, m_index_type, &KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
// Evaluate view
RDbView view;
User::LeaveIfError(view.Prepare(m_database,TDbQuery(sqlStatement), TDbWindow::EUnlimited));
CleanupClosePushL(view);
User::LeaveIfError(view.EvaluateAll());
// Update the columns in the database
view.FirstL();
view.UpdateL();
view.SetColL(KDefaultColumnInView_One, value);
view.PutL();
// Close database
CleanupStack::PopAndDestroy(3); // view, buf, 2nd buf
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::ResetSessionIdL()
{
eap_variable_data_c count_of_session_resumes(m_am_tools);
eap_variable_data_c session_id(m_am_tools);
eap_variable_data_c master_secret(m_am_tools);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("ResetSessionIdL - clearing session resume info.\n")));
{
session_id.reset();
WriteBinaryParamL(
cf_str_EAP_TLS_PEAP_saved_session_id.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_session_id.get_field()->get_field_length(),
&session_id);
}
{
master_secret.reset();
WriteBinaryParamL(
cf_str_EAP_TLS_PEAP_saved_master_secret.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_master_secret.get_field()->get_field_length(),
&master_secret);
}
{
WriteIntParamL(
cf_str_EAP_TLS_PEAP_saved_cipher_suite.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_cipher_suite.get_field()->get_field_length(),
tls_cipher_suites_TLS_NULL_WITH_NULL_NULL);
}
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::alert_received(
const tls_alert_level_e alert_level,
const tls_alert_description_e alert_description)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_UNREFERENCED_PARAMETER(alert_description); // in release
EAP_UNREFERENCED_PARAMETER(alert_level); // in release
eap_tls_trace_string_c tls_trace;
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: %s: message_function: alert_received(), level %d=%s, description %d=%s\n"),
(m_is_client == true ? "client": "server"),
alert_level,
tls_trace.get_alert_level_string(alert_level),
alert_description,
tls_trace.get_alert_description_string(alert_description)));
// Store alert description so that it is possible to disallow certificates based
// on that information.
m_latest_alert_description = alert_description;
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_cipher_suites_and_previous_session()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: function: query_cipher_suites_and_previous_session()\n"),
(m_is_client == true ? "client": "server")));
EAP_ASSERT_ALWAYS(m_is_client == true);
eap_status_e status(eap_status_process_general_error);
TAlgorithmId certAlgorithm(ERSA);
bool select_all_cipher_suites = false;
eap_variable_data_c session_id(m_am_tools);
eap_variable_data_c master_secret(m_am_tools);
tls_cipher_suites_e used_cipher_suite(tls_cipher_suites_TLS_NULL_WITH_NULL_NULL);
tls_session_type_e tls_session_type(tls_session_type_full_authentication);
eap_array_c<u16_t> cipher_suites(m_am_tools);
#if defined(USE_FAST_EAP_TYPE)
if(m_current_eap_type == eap_type_fast &&
m_serv_unauth_prov_mode == true)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::query_cipher_suites_and_previous_session-Exception for EAP-FAST as m_serv_unauth_prov_mode is true \n")));
tls_session_type = tls_session_type_eap_fast_server_unauthenticated_provisioning_mode_ADHP;
// This is the only cipher suite needed in this case.
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_DH_anon_WITH_AES_128_CBC_SHA);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
}
else
#endif // #if defined(USE_FAST_EAP_TYPE)
{
// This is the normal case for all EAP types (for EAP-FAST with m_serv_unauth_prov_mode = false).
if (m_own_certificate == 0
&& m_ca_certificate == 0)
{
// Since there is no user certificate and CA cert has not been read yet
// we need to read the CA cert.
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("query_cipher_suites_and_previous_session(): No user or CA certificate. Read CA certificate.\n")));
if (m_allowed_ca_certs.Count() != 0)
{
#if defined(USE_FAST_EAP_TYPE)
if(m_current_eap_type == eap_type_fast)
{
// Exception for EAP-FAST
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::query_cipher_suites_and_previous_session - No CA certificate but exception for EAP-FAST\n")));
}
else
#endif // #if defined(USE_FAST_EAP_TYPE)
{
m_state = EHandlingCipherSuiteQuery;
TRAPD(err, m_cert_if->ReadCACertificateL(m_allowed_ca_certs[0]));
if (err != KErrNone)
{
// Error occurred. Just select all cipher suites.
select_all_cipher_suites = true;
}
else
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_pending_request);
}
}
} // End: if (m_allowed_ca_certs.Count() != 0)
}
else if (m_own_certificate != 0)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Selecting cipher suites based on user certificate algorithm.\n")));
select_all_cipher_suites = false;
const CSubjectPublicKeyInfo& public_key = m_own_certificate->PublicKey();
certAlgorithm = public_key.AlgorithmId();
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Selecting cipher suites based on CA certificate algorithm.\n")));
select_all_cipher_suites = false;
const CSubjectPublicKeyInfo& public_key = m_ca_certificate->PublicKey();
certAlgorithm = public_key.AlgorithmId();
}
// IF cipher suite is allowed
if (m_allowed_cipher_suites.Find(tls_cipher_suites_TLS_RSA_WITH_3DES_EDE_CBC_SHA) != KErrNotFound
// AND the algorithm matches the certificates algorithm
&& (select_all_cipher_suites == true
|| certAlgorithm == ERSA))
// THEN add it to list.
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_RSA_WITH_3DES_EDE_CBC_SHA);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (m_allowed_cipher_suites.Find(tls_cipher_suites_TLS_RSA_WITH_AES_128_CBC_SHA) != KErrNotFound
// AND the algorithm matches the certificates algorithm
&& (select_all_cipher_suites == true
|| certAlgorithm == ERSA))
// THEN add it to list.
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_RSA_WITH_AES_128_CBC_SHA);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (m_allowed_cipher_suites.Find(tls_cipher_suites_TLS_DHE_DSS_WITH_3DES_EDE_CBC_SHA) != KErrNotFound
// AND the algorithm matches the certificates algorithm
&& (select_all_cipher_suites == true
|| certAlgorithm == EDSA))
// THEN add it to list.
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_DHE_DSS_WITH_3DES_EDE_CBC_SHA);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (m_allowed_cipher_suites.Find(tls_cipher_suites_TLS_DHE_DSS_WITH_AES_128_CBC_SHA) != KErrNotFound
// AND the algorithm matches the certificates algorithm
&& (select_all_cipher_suites == true
|| certAlgorithm == EDSA))
// THEN add it to list.
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_DHE_DSS_WITH_AES_128_CBC_SHA);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (m_allowed_cipher_suites.Find(tls_cipher_suites_TLS_DHE_RSA_WITH_3DES_EDE_CBC_SHA) != KErrNotFound
// AND the algorithm matches the certificates algorithm
&& (select_all_cipher_suites == true
|| certAlgorithm == ERSA))
// THEN add it to list.
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_DHE_RSA_WITH_3DES_EDE_CBC_SHA);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (m_allowed_cipher_suites.Find(tls_cipher_suites_TLS_DHE_RSA_WITH_AES_128_CBC_SHA) != KErrNotFound
// AND the algorithm matches the certificates algorithm
&& (select_all_cipher_suites == true
|| certAlgorithm == ERSA))
// THEN add it to list.
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_DHE_RSA_WITH_AES_128_CBC_SHA);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (m_allowed_cipher_suites.Find(tls_cipher_suites_TLS_RSA_WITH_RC4_128_MD5) != KErrNotFound
// AND the algorithm matches the certificates algorithm
&& (select_all_cipher_suites == true
|| certAlgorithm == ERSA))
// THEN add it to list.
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_RSA_WITH_RC4_128_MD5);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (m_allowed_cipher_suites.Find(tls_cipher_suites_TLS_RSA_WITH_RC4_128_SHA) != KErrNotFound
// AND the algorithm matches the certificates algorithm
&& (select_all_cipher_suites == true
|| certAlgorithm == ERSA))
// THEN add it to list.)
{
u16_t *tmp_object = new u16_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = eap_htons(tls_cipher_suites_TLS_RSA_WITH_RC4_128_SHA);
status = cipher_suites.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (is_session_valid())
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Trying to resume previous session as previous session is still valid\n")));
// OK, previous session will be restored.
// Read database fields.
{
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_saved_session_id.get_field(),
&session_id);
if (status != eap_status_ok
|| session_id.get_is_valid_data() == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_field);
}
}
{
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_saved_master_secret.get_field(),
&master_secret);
if (status != eap_status_ok
|| master_secret.get_is_valid_data() == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_field);
}
}
{
eap_variable_data_c saved_cipher_suite(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_saved_cipher_suite.get_field(),
&saved_cipher_suite);
if (status == eap_status_ok
&& saved_cipher_suite.get_is_valid_data() == true
&& saved_cipher_suite.get_data_length() == sizeof(u32_t)
&& saved_cipher_suite.get_data(sizeof(u32_t)) != 0)
{
// OK
used_cipher_suite = static_cast<tls_cipher_suites_e>(*(reinterpret_cast<u32_t *>(saved_cipher_suite.get_data(sizeof(u32_t)))));
u16_t tmp_object = eap_htons(static_cast<u16_t> (used_cipher_suite));
tls_session_type = tls_session_type_original_session_resumption;
if( 0 > find_simple<u16_t>( &cipher_suites,
&tmp_object,
m_am_tools ) )
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: %s: cipher suite of the resumed session is NOT included in the cipher_suites list.\n"),
(m_is_client == true ? "client": "server")));
used_cipher_suite = tls_cipher_suites_TLS_NULL_WITH_NULL_NULL;
master_secret.reset();
session_id.reset();
}
}
}
}
if(used_cipher_suite == tls_cipher_suites_TLS_NULL_WITH_NULL_NULL)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: %s: query_cipher_suites_and_previous_session(): creates new session.\n"),
(m_is_client == true ? "client": "server")));
TRAPD(err, ResetSessionIdL());
if (err != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
tls_session_type = tls_session_type_full_authentication;
}
} // End : if(m_current_eap_type == eap_type_fast &&
// m_serv_unauth_prov_mode == true)
// Compression methods. TLS supports only null compression at the moment.
eap_array_c<u8_t> compression_methods(m_am_tools);
{
u8_t *tmp_object = new u8_t;
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*tmp_object = tls_compression_method_null;
status = compression_methods.add_object(tmp_object, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
status = get_tls_am_partner()->complete_query_cipher_suites_and_previous_session(
tls_session_type,
&cipher_suites,
&compression_methods,
#if defined(USE_EAP_TLS_SESSION_TICKET)
0,
#endif // #if defined(USE_EAP_TLS_SESSION_TICKET)
&session_id,
&master_secret,
used_cipher_suite,
eap_status_ok);
if (status == eap_status_ok ||
status == eap_status_pending_request)
{
status = eap_status_completed_request;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
#if defined(USE_EAP_TLS_SESSION_TICKET)
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_new_session_ticket()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: %s: message_function: query_new_session_ticket()\n"),
(m_is_client == true ? "client": "server")));
EAP_ASSERT_ALWAYS(m_is_client == false);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
#endif //#if defined(USE_EAP_TLS_SESSION_TICKET)
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::select_cipher_suite_and_check_session_id(
EAP_TEMPLATE_CONST eap_array_c<u16_t> * const cipher_suite_proposal,
const eap_variable_data_c * const session_id
#if defined(USE_EAP_TLS_SESSION_TICKET)
, const tls_extension_c * const /* session_ticket */
#endif //#if defined(USE_EAP_TLS_SESSION_TICKET)
)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: function: select_cipher_suite_and_check_session_id()\n"),
(m_is_client == true ? "client": "server")));
EAP_ASSERT_ALWAYS(m_is_client == false);
eap_status_e status = eap_status_illegal_payload;
u16_t *tmp_object = 0;
tls_session_type_e tls_session_type(tls_session_type_full_authentication);
for (u32_t ind = 0; ind < cipher_suite_proposal->get_object_count(); ind++)
{
tmp_object = cipher_suite_proposal->get_object(ind);
if (tmp_object == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
if (m_allowed_cipher_suites.Find(*tmp_object) != KErrNotFound)
{
// Read stored session id
eap_variable_data_c stored_session_id(m_am_tools);
eap_variable_data_c stored_master_secret(m_am_tools);
tls_cipher_suites_e stored_cipher_suite(tls_cipher_suites_TLS_NULL_WITH_NULL_NULL);
eap_variable_data_c count_of_session_resumes(m_am_tools);
{
status = type_configure_read(
cf_str_EAP_TLS_PEAP_saved_session_id.get_field(),
&stored_session_id);
if (status != eap_status_ok
|| stored_session_id.get_is_valid_data() == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_field);
}
}
if (session_id != 0
&& session_id->get_is_valid_data() == true
&& session_id->compare(&stored_session_id) == 0
&& is_session_valid())
{
// OK, previous session will be restored.
// Read database fields.
{
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_saved_session_id.get_field(),
&stored_session_id);
if (status != eap_status_ok
|| stored_session_id.get_is_valid_data() == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_field);
}
}
{
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_saved_master_secret.get_field(),
&stored_master_secret);
if (status != eap_status_ok
|| stored_master_secret.get_is_valid_data() == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_field);
}
}
{
eap_variable_data_c saved_cipher_suite(m_am_tools);
eap_status_e status = type_configure_read(
cf_str_EAP_TLS_PEAP_saved_cipher_suite.get_field(),
&saved_cipher_suite);
if (status == eap_status_ok
&& saved_cipher_suite.get_is_valid_data() == true
&& saved_cipher_suite.get_data_length() == sizeof(u32_t)
&& saved_cipher_suite.get_data(sizeof(u32_t)) != 0)
{
// OK
stored_cipher_suite = static_cast<tls_cipher_suites_e>(*(reinterpret_cast<u32_t *>(saved_cipher_suite.get_data(sizeof(u32_t)))));
}
else
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_configure_field);
}
}
tls_session_type = tls_session_type_original_session_resumption;
}
else
{
{
stored_session_id.reset();
TRAPD(err, WriteBinaryParamL(
cf_str_EAP_TLS_PEAP_saved_session_id.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_session_id.get_field()->get_field_length(),
&stored_session_id));
if (err != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
}
{
stored_master_secret.reset();
TRAPD(err, WriteBinaryParamL(
cf_str_EAP_TLS_PEAP_saved_master_secret.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_master_secret.get_field()->get_field_length(),
&stored_master_secret));
if (err != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
}
{
TRAPD(err, WriteIntParamL(
cf_str_EAP_TLS_PEAP_saved_cipher_suite.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_cipher_suite.get_field()->get_field_length(),
tls_cipher_suites_TLS_NULL_WITH_NULL_NULL));
if (err != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
}
}
if (stored_cipher_suite != tls_cipher_suites_TLS_NULL_WITH_NULL_NULL)
{
// We got saved cipher suite from previous session
m_cipher_suite = stored_cipher_suite;
}
else
{
// Use the first cipher suite the client offered
m_cipher_suite = static_cast<tls_cipher_suites_e>(*tmp_object);
}
status = get_tls_am_partner()->complete_select_cipher_suite_and_check_session_id(
tls_session_type,
static_cast<u8_t>(m_cipher_suite),
&stored_session_id,
&stored_master_secret,
#if defined(USE_EAP_TLS_SESSION_TICKET)
0,
#endif // #if defined(USE_EAP_TLS_SESSION_TICKET)
eap_status_ok);
break;
}
} // for()
if (status == eap_status_ok ||
status == eap_status_pending_request)
{
status = eap_status_completed_request;
}
if (status != eap_status_completed_request)
{
// Could not find matching cipher suite
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: Server: Could not find matching cipher suite in client's proposal.\n")));
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::verify_certificate_chain(
EAP_TEMPLATE_CONST eap_array_c<eap_variable_data_c> * const certificate_chain,
const tls_cipher_suites_e required_cipher_suite)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: message_function: verify_certificate_chain_and_query_public_key()\n"),
(m_is_client == true ? "client": "server")));
EAP_ASSERT_ALWAYS(certificate_chain->get_object_count() > 0);
eap_status_e status(eap_status_ok);
TRAPD(err, verify_certificate_chainL(certificate_chain, required_cipher_suite));
if (err != KErrNone)
{
if (err == KErrArgument)
{
status = eap_status_illegal_certificate;
}
else
{
status = m_am_tools->convert_am_error_to_eapol_error(err);
}
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
void eap_am_type_tls_peap_symbian_c::verify_certificate_chainL(
EAP_TEMPLATE_CONST eap_array_c<eap_variable_data_c> * const certificate_chain,
const tls_cipher_suites_e required_cipher_suite)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::verify_certificate_chainL: Number of certificates in chain=%d\n"),
certificate_chain->get_object_count()));
eap_status_e status(eap_status_process_general_error);
if (m_is_client)
{
m_cipher_suite = required_cipher_suite;
}
// Verify that server certificate's realm matches with our identity realm
// If server does not verify client then we don't necessarily have a certificate
// and thus we cannot verify server here.
if (m_is_client
&& m_verify_certificate_realm == true
&& (m_own_certificate != 0
|| (m_use_manual_realm == true
&& m_manual_realm.get_is_valid_data() == true)))
{
eap_variable_data_c client_subject_realm(m_am_tools);
eap_variable_data_c manual_client_subject_realm(m_am_tools);
eap_variable_data_c client_issuer_realm(m_am_tools);
if (m_own_certificate != 0)
{
status = get_realms_from_certificate(
m_own_certificate,
&client_subject_realm,
&client_issuer_realm);
if (status != eap_status_ok)
{
// Could not find realms... Give up.
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: EAP-TLS: Could not find realm from client certificate.\n")));
User::Leave(KErrArgument);
}
}
else
{
status = client_subject_realm.init(0);
if (status != eap_status_ok)
{
User::Leave(m_am_tools->convert_eapol_error_to_am_error(EAP_STATUS_RETURN(m_am_tools, status)));
}
client_subject_realm.set_is_valid();
status = client_issuer_realm.init(0);
if (status != eap_status_ok)
{
User::Leave(m_am_tools->convert_eapol_error_to_am_error(EAP_STATUS_RETURN(m_am_tools, status)));
}
client_issuer_realm.set_is_valid();
}
if (m_use_manual_realm == true
&& m_manual_realm.get_is_valid_data() == true)
{
status = manual_client_subject_realm.set_copy_of_buffer(&m_manual_realm);
if (status != eap_status_ok)
{
User::Leave(KErrNoMemory);
}
}
eap_variable_data_c server_subject_realm(m_am_tools);
eap_variable_data_c server_issuer_realm(m_am_tools);
eap_variable_data_c* cert;
cert = certificate_chain->get_object(0);
if( cert == NULL )
{
EAP_TRACE_ERROR(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: No certs in certificate_chain\n")));
User::Leave(KErrArgument);
}
TPtr8 ptr(
cert->get_data(cert->get_data_length()),
cert->get_data_length(),
cert->get_data_length());
CX509Certificate* server_certificate = CX509Certificate::NewL(ptr);
if( server_certificate == NULL )
{
EAP_TRACE_ERROR(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: No memory for server_certificate\n")));
User::Leave(KErrNoMemory);
}
CleanupStack::PushL(server_certificate);
status = get_realms_from_certificate(
server_certificate,
&server_subject_realm,
&server_issuer_realm);
if (status != eap_status_ok
|| server_subject_realm.get_is_valid_data() == false
|| server_issuer_realm.get_is_valid_data() == false)
{
// Could not find realms... Give up.
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: EAP-TLS: Could not find realm from server certificate.\n")));
User::Leave(KErrArgument);
}
CleanupStack::PopAndDestroy(server_certificate);
if (client_subject_realm.get_is_valid_data() == true)
{
EAP_TRACE_DATA_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (EAPL("Client subject realm:"),
client_subject_realm.get_data(client_subject_realm.get_data_length()),
client_subject_realm.get_data_length()));
}
else
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("Client subject realm is empty.\n")));
}
if (manual_client_subject_realm.get_is_valid_data() == true)
{
EAP_TRACE_DATA_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (EAPL("Client manual realm:"),
manual_client_subject_realm.get_data(manual_client_subject_realm.get_data_length()),
manual_client_subject_realm.get_data_length()));
}
else
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("Client manual realm is empty.\n")));
}
EAP_TRACE_DATA_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (EAPL("Server subject realm:"),
server_subject_realm.get_data(server_subject_realm.get_data_length()),
server_subject_realm.get_data_length()));
EAP_TRACE_DATA_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (EAPL("Server issuer realm:"),
server_issuer_realm.get_data(server_issuer_realm.get_data_length()),
server_issuer_realm.get_data_length()));
// First check exact match with client subject realm and server subject and issuer realms
if (client_subject_realm.get_is_valid_data() == false
|| (client_subject_realm.get_is_valid_data() == true
&& client_subject_realm.compare(&server_subject_realm) != 0
&& client_subject_realm.compare(&server_issuer_realm) != 0))
{
// Check if manual realm matches
if (manual_client_subject_realm.get_is_valid_data() == false
|| (manual_client_subject_realm.get_is_valid_data() == true
&& manual_client_subject_realm.compare(&server_subject_realm) != 0
&& manual_client_subject_realm.compare(&server_issuer_realm) != 0))
{
// Realms did not match! Are we allowed to do relaxed subdomain checking?
if (m_allow_subdomain_matching == true)
{
TPtr8 client_subject_ptr(
client_subject_realm.get_data(client_subject_realm.get_data_length()),
client_subject_realm.get_data_length(),
client_subject_realm.get_data_length());
TPtr8 server_subject_ptr(
server_subject_realm.get_data(server_subject_realm.get_data_length()),
server_subject_realm.get_data_length(),
server_subject_realm.get_data_length());
TPtr8 server_issuer_ptr(
server_issuer_realm.get_data(server_issuer_realm.get_data_length()),
server_issuer_realm.get_data_length(),
server_issuer_realm.get_data_length());
if (client_subject_ptr.Length() == 0
|| (server_subject_ptr.Find(client_subject_ptr) == KErrNotFound
&& server_issuer_ptr.Find(client_subject_ptr) == KErrNotFound))
{
// still not ok
// One more test: subdomain matching with manual realm
if (manual_client_subject_realm.get_is_valid_data() == true)
{
TPtr8 manual_client_subject_ptr(
manual_client_subject_realm.get_data(manual_client_subject_realm.get_data_length()),
manual_client_subject_realm.get_data_length(),
manual_client_subject_realm.get_data_length());
if (manual_client_subject_ptr.Length() == 0
|| (server_subject_ptr.Find(manual_client_subject_ptr) == KErrNotFound
&& server_issuer_ptr.Find(manual_client_subject_ptr) == KErrNotFound))
{
EAP_TRACE_ERROR(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: Client and server realms do not match.\n")));
send_error_notification(eap_status_realm_check_failed);
User::Leave(KErrArgument);
}
}
else
{
EAP_TRACE_ERROR(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: Client and server realms do not match.\n")));
send_error_notification(eap_status_realm_check_failed);
User::Leave(KErrArgument);
}
}
}
else
{
EAP_TRACE_ERROR(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: Client and server realms do not match.\n")));
send_error_notification(eap_status_realm_check_failed);
User::Leave(KErrArgument);
}
}
}
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("Server certificate realm verification OK.\n")));
}
HBufC8* chain = HBufC8::NewL(0);
HBufC8* temp;
eap_variable_data_c* cert;
for (u32_t i = 0; i < certificate_chain->get_object_count(); i++)
{
cert = certificate_chain->get_object(i);
if( cert == NULL )
{
EAP_TRACE_ERROR(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: Problem in certificate_chain\n")));
User::Leave(KErrArgument);
}
#if defined(_DEBUG) || defined(DEBUG)
TPtr8 certPtr(
cert->get_data(cert->get_data_length()),
cert->get_data_length(),
cert->get_data_length());
CX509Certificate* x509Cert = CX509Certificate::NewL(certPtr);
if( x509Cert != NULL )
{
CleanupStack::PushL(x509Cert);
TKeyIdentifier KeyIdentifier = x509Cert->KeyIdentifierL();
EAP_TRACE_DATA_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("Key identifier is"),
KeyIdentifier.Ptr(),
KeyIdentifier.Size()));
// This is for subject key id.
const CX509CertExtension* certExt = x509Cert->Extension(KSubjectKeyId);
if (certExt)
{
const CX509SubjectKeyIdExt* subKeyExt = CX509SubjectKeyIdExt::NewLC(certExt->Data());
EAP_UNREFERENCED_PARAMETER(subKeyExt);
EAP_TRACE_DATA_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("The Subject key Id is:"),
subKeyExt->KeyId().Ptr(),
subKeyExt->KeyId().Size()));
CleanupStack::PopAndDestroy(); // subKeyExt
}
else
{
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: verify_certificate_chainL - No extension for this certificate\n")));
}
CleanupStack::PopAndDestroy(x509Cert);
}
#endif
CleanupStack::PushL(chain);
temp = chain->ReAllocL(chain->Length() + cert->get_data_length());
chain = temp;
TPtr8 ptr = chain->Des();
ptr.Append(cert->get_data(cert->get_data_length()), cert->get_data_length());
if (i == 0)
{
// This is the peer certificate. Save it.
if (m_peer_certificate != 0)
{
delete m_peer_certificate;
}
m_peer_certificate = CX509Certificate::NewL(ptr);
}
CleanupStack::Pop();
}
CleanupStack::PushL(chain);
TPtr8 certChain = chain->Des();
m_cert_if->ValidateChainL(certChain, m_allowed_ca_certs);
CleanupStack::PopAndDestroy();
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
// This returns eap_status_pending_request
User::Leave(KErrCompletion);
}
void eap_am_type_tls_peap_symbian_c::complete_validate_chain(
CPKIXValidationResult& aValidationResult, eap_status_e aStatus)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
if(aStatus != eap_status_ok)
{
get_tls_am_partner()->complete_verify_certificate_chain(aStatus);
return;
}
eap_status_e result;
if (aValidationResult.Error().iReason == EValidatedOK)
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("Certificate chain validation OK. Reason: %d\n"),
aValidationResult.Error().iReason));
result = eap_status_ok;
}
else
{
if (aValidationResult.Error().iReason == EDateOutOfRange)
{
send_error_notification(eap_status_certificate_expired);
// Ignore error on purpose
}
else
{
send_error_notification(eap_status_illegal_certificate);
// Ignore error on purpose
}
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Certificate chain validation FAILED. Reason: %d\n"),
aValidationResult.Error().iReason));
result = eap_status_illegal_certificate;
}
// Copy the public key
const CSubjectPublicKeyInfo& publicKey = m_peer_certificate->PublicKey();
TPtrC8 ptr = publicKey.KeyData();
m_peer_public_key.reset();
eap_status_e status = m_peer_public_key.set_copy_of_buffer(ptr.Ptr(), ptr.Length());
if (status != eap_status_ok)
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: complete_validate_chain: could not allocate memory.")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
get_tls_am_partner()->complete_verify_certificate_chain(result);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
#if defined(USE_FAST_EAP_TYPE)
#if defined(USE_EAP_CONFIGURATION_TO_SKIP_USER_INTERACTIONS)
eap_status_e eap_am_type_tls_peap_symbian_c::ReadFileConfig()
{
eap_status_e status = eap_status_ok;
eap_am_file_input_symbian_c * const fileio = new eap_am_file_input_symbian_c(m_am_tools);
eap_automatic_variable_c<eap_am_file_input_symbian_c> automatic_fileio(m_am_tools, fileio);
if (fileio != 0
&& fileio->get_is_valid() == true)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Initialize file configuration.\n")));
eap_variable_data_c file_name_c_data(m_am_tools);
{
#if defined(EAPOL_SYMBIAN_VERSION_7_0_s)
eap_const_string const FILECONFIG_FILENAME_C
= "c:\\system\\data\\eap.conf";
#else
eap_const_string const FILECONFIG_FILENAME_C
= "c:\\private\\101F8EC5\\eap.conf";
#endif
status = file_name_c_data.set_copy_of_buffer(
FILECONFIG_FILENAME_C,
m_am_tools->strlen(FILECONFIG_FILENAME_C));
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = file_name_c_data.add_end_null();
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
eap_variable_data_c file_name_z_data(m_am_tools);
{
#if defined(EAPOL_SYMBIAN_VERSION_7_0_s)
eap_const_string const FILECONFIG_FILENAME_Z
= "z:\\system\\data\\eap.conf";
#else
eap_const_string const FILECONFIG_FILENAME_Z
= "z:\\private\\101F8EC5\\eap.conf";
#endif
status = file_name_z_data.set_copy_of_buffer(
FILECONFIG_FILENAME_Z,
m_am_tools->strlen(FILECONFIG_FILENAME_Z));
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = file_name_z_data.add_end_null();
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
if (status == eap_status_ok)
{
// First try open from C: disk.
status = fileio->file_open(
&file_name_c_data,
eap_file_io_direction_read);
if (status == eap_status_ok)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Opens configure file %s\n"),
file_name_c_data.get_data(file_name_c_data.get_data_length())));
}
else if (status != eap_status_ok)
{
// Second try open from Z: disk.
status = fileio->file_open(
&file_name_z_data,
eap_file_io_direction_read);
if (status == eap_status_ok)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Opens configure file %s\n"),
file_name_z_data.get_data(file_name_z_data.get_data_length())));
}
}
if (status == eap_status_ok)
{
// Some of the files were opened.
m_fileconfig = new eap_file_config_c(m_am_tools);
if (m_fileconfig != 0
&& m_fileconfig->get_is_valid() == true)
{
status = m_fileconfig->configure(fileio);
if (status != eap_status_ok)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Configure read from %s failed.\n"),
file_name_c_data.get_data(file_name_c_data.get_data_length())));
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Configure read from %s\n"),
file_name_c_data.get_data(file_name_c_data.get_data_length())));
}
}
else
{
// No file configuration.
delete m_fileconfig;
m_fileconfig = 0;
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Cannot create configure object for file %s\n"),
file_name_c_data.get_data(file_name_c_data.get_data_length())));
}
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: Cannot open configure file neither %s nor %s\n"),
file_name_c_data.get_data(file_name_c_data.get_data_length()),
file_name_z_data.get_data(file_name_z_data.get_data_length())));
}
}
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Skips file configuration.\n")));
}
eap_variable_data_c skip_user_interactions(m_am_tools);
if (m_fileconfig != 0
&& m_fileconfig->get_is_valid() == true)
{
// Here we could try the final configuration option.
status = m_fileconfig->read_configure(
cf_str_EAP_skip_user_interactions_for_testing_purposes.get_field(),
&skip_user_interactions);
}
if (status == eap_status_ok
&& skip_user_interactions.get_is_valid_data() == true)
{
u32_t *skip_user_interactions_flag = reinterpret_cast<u32_t *>(
skip_user_interactions.get_data(sizeof(u32_t)));
if (skip_user_interactions_flag != 0)
{
if (*skip_user_interactions_flag != 0)
{
m_skip_user_interactions = true;
}
else
{
m_skip_user_interactions = false;
}
}
}
iPacStoreDb->SkipUserActions (m_skip_user_interactions);
return status;
}
#endif //#if defined(USE_EAP_CONFIGURATION_TO_SKIP_USER_INTERACTIONS)
#endif
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_certificate_chain(
EAP_TEMPLATE_CONST eap_array_c<eap_variable_data_c> * const certificate_authorities,
EAP_TEMPLATE_CONST eap_array_c<u8_t> * const certificate_types,
const tls_cipher_suites_e required_cipher_suite)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
if (m_is_client)
{
m_cipher_suite = required_cipher_suite;
}
eap_status_e status(eap_status_pending_request);
m_state = EHandlingChainQuery;
TInt err(KErrNone);
if (m_is_client)
{
// Get the matching certificates
TRAPD(err, m_cert_if->GetMatchingCertificatesL(
m_allowed_user_certs,
ETrue,
certificate_authorities,
ETrue,
certificate_types,
ETrue,
m_allowed_cipher_suites));
(void)EAP_STATUS_RETURN(m_am_tools, m_am_tools->convert_am_error_to_eapol_error(err));
}
else
{
// server
TRAPD(err, m_cert_if->GetMatchingCertificatesL(
m_allowed_user_certs,
EFalse,
0,
EFalse,
0,
ETrue,
m_allowed_cipher_suites));
if (err != KErrNone)
{
status = m_am_tools->convert_am_error_to_eapol_error(err);
}
}
if (err == KErrNone)
{
status = eap_status_pending_request;
}
else
{
// Convert the leave error code to EAPOL stack error code.
status = m_am_tools->convert_am_error_to_eapol_error(err);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
void eap_am_type_tls_peap_symbian_c::complete_get_matching_certificates(
CArrayFixFlat<SCertEntry>& aMatchingCerts,
eap_status_e aStatus)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_UNREFERENCED_PARAMETER(aStatus);
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::complete_get_matching_certificates-Matching cert count after possible cert removal=%d, m_state=%d, aStatus=%d\n"),
aMatchingCerts.Count(), m_state, aStatus));
if (m_state == EHandlingIdentityQuery)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::complete_get_matching_certificates(): EHandlingIdentityQuery\n")));
// Add found certs to allowed certificate list.
// This list is updated here because there might be certificates that have been removed.
m_allowed_user_certs.Reset();
for (TInt i = 0; i < aMatchingCerts.Count(); i++)
{
TRAPD(err, m_allowed_user_certs.AppendL(aMatchingCerts[i]));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: eap_am_type_tls_peap_symbian_c::complete_get_matching_certificates -EHandlingIdentityQuery- Error=%d\n"),
err));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_allocation_error,
false,
0,
false,
0);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
}
if (m_allowed_user_certs.Count() == 0)
{
// No allowed user certificates.
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("EAP-TLS: No allowed user certificates configured.\n")));
if (m_tls_peap_server_authenticates_client_policy_flag == true)
{
// Certificate is really required
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: Could not find proper user certificate.\n")));
send_error_notification(eap_status_user_certificate_unknown);
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_illegal_certificate,
false,
0,
false,
0);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
if (m_use_manual_realm == false)
{
// Since there is no user certificate or manual realm configured
// the realm needs to be dig out from the CA certificate.
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c: no manual realm - no user cert. Get realm from CA certificate.\n")));
TInt allowed_ca_cert_count = m_allowed_ca_certs.Count();
TInt err(KErrNone);
if(allowed_ca_cert_count > 0)
{
TRAP(err, m_cert_if->ReadCACertificateL(m_allowed_ca_certs[0]));
}
if (err != KErrNone || allowed_ca_cert_count <= 0)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: EAP-TLS: Cannot read user certificate or No CA cert configured, CA cert count=%d.\n"),
allowed_ca_cert_count));
get_am_partner()->complete_eap_identity_query(
0, // 0 because identity query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_illegal_certificate,
false,
0,
false,
0);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-TLS: Uses manual realm.\n")));
get_am_partner()->complete_eap_identity_query(
0, // 0 because certificate query failed
&m_receive_network_id,
m_eap_identifier,
eap_status_ok,
m_use_manual_username,
&m_manual_username,
m_use_manual_realm,
&m_manual_realm);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
// Just complete (this selects the first certificate in the array)
m_selector_output.SetLength(0);
TRequestStatus* reqStatus = &iStatus;
User::RequestComplete(reqStatus, KErrNone);
SetActive();
}
else if (m_state == EHandlingChainQuery)
{
if (aMatchingCerts.Count() > 0)
{
m_allowed_user_certs.Reset();
for (TInt i = 0; i < aMatchingCerts.Count(); i++)
{
TRAPD(err, m_allowed_user_certs.AppendL(aMatchingCerts[i]));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("eap_am_type_tls_peap_symbian_c::complete_get_matching_certificates -EHandlingChainQuery- Error=%d\n"),
err));
get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_allocation_error);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
}
}
if (m_allowed_user_certs.Count() == 0)
{
// No matching or allowed certs and no pre-loaded cert.
// Could not find matching certificate
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("EAP-TLS: Could not find proper user certificate.\n")));
if (m_tls_peap_server_authenticates_client_policy_flag == true)
{
send_error_notification(eap_status_user_certificate_unknown);
}
get_tls_am_partner()->complete_query_certificate_chain(0, eap_status_illegal_certificate);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
// We got at least one allowed user cert.
// Just use the first allowed certificate
// Don't ask user. Just complete (this selects the first certificate in the array)
m_selector_output.SetLength(0);
TRequestStatus* reqStatus = &iStatus;
User::RequestComplete(reqStatus, KErrNone);
SetActive();
}
else
{
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("EAP-TLS: Illegal state in complete_get_matching_certs.\n")));
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_certificate_authorities_and_types()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: message_function: query_certificate_authorities_and_types()\n"),
(m_is_client == true ? "client": "server")));
EAP_ASSERT_ALWAYS(!m_is_client);
eap_status_e status;
eap_array_c<eap_variable_data_c> certificate_authorities(m_am_tools);
eap_variable_data_c ca_dn(m_am_tools);
// TEST CODE: This is not a proper CA DN.
_LIT8(KTestCA, "ca.eapsim.foo");
status = ca_dn.add_data(KTestCA().Ptr(), KTestCA().Size());
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = certificate_authorities.add_object(&ca_dn, false);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
eap_array_c<u8_t> certificate_types(m_am_tools);
{
u8_t * const dummy_certificate_type = new u8_t;
if (dummy_certificate_type == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*dummy_certificate_type = tls_certificate_type_rsa_sign;
status = certificate_types.add_object(dummy_certificate_type, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
{
u8_t * const dummy_certificate_type = new u8_t;
if (dummy_certificate_type == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
*dummy_certificate_type = tls_certificate_type_dss_sign;
status = certificate_types.add_object(dummy_certificate_type, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
status = get_tls_am_partner()->complete_query_certificate_authorities_and_types(
&certificate_authorities,
&certificate_types,
eap_status_ok);
if (status == eap_status_ok ||
status == eap_status_pending_request)
{
status = eap_status_completed_request;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_dh_parameters(
EAP_TEMPLATE_CONST eap_array_c<eap_variable_data_c> * const /*certificate_chain*/,
const tls_cipher_suites_e required_cipher_suite)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: message_function: query_dh_parameters()\n"),
(m_is_client == true ? "client": "server")));
eap_status_e status = eap_status_process_general_error;
if (required_cipher_suite != m_cipher_suite)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_cipher_suite);
}
if (EapTlsPeapUtils::CipherSuiteIsEphemeralDHKeyExchange(m_cipher_suite))
{
eap_variable_data_c dhe_prime(m_am_tools);
status = dhe_prime.set_copy_of_buffer(SAE_GROUP_PRIME, SAE_GROUP_PRIME_LENGTH);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
eap_variable_data_c dhe_group_generator(m_am_tools);
status = dhe_group_generator.set_copy_of_buffer(SAE_GROUP_GENERATOR, SAE_GROUP_GENERATOR_LENGTH);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = get_tls_am_partner()->complete_query_dh_parameters(
&dhe_prime,
&dhe_group_generator,
eap_status_ok);
}
else
{
status = eap_status_not_supported;
}
if (status == eap_status_ok ||
status == eap_status_pending_request)
{
status = eap_status_completed_request;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_realm(
EAP_TEMPLATE_CONST eap_array_c<eap_variable_data_c> * const /*certificate_chain*/)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
//--------------------------------------------------
eap_status_e eap_am_type_tls_peap_symbian_c::get_realms_from_certificate(
CX509Certificate* certificate,
eap_variable_data_c * const subject_realm,
eap_variable_data_c * const issuer_realm)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
eap_status_e status(eap_status_process_general_error);
_LIT8(KAt, "@");
eap_variable_data_c subject_identity(m_am_tools);
eap_variable_data_c issuer_identity(m_am_tools);
TInt offset = KErrNotFound;
// SUBJECT
// Try alternative name first
TRAPD(err, get_identity_from_alternative_nameL(certificate, &subject_identity));
if (err == KErrNone)
{
// Parse realm from identity
TPtr8 ptr(
subject_identity.get_data(subject_identity.get_data_length()),
subject_identity.get_data_length(),
subject_identity.get_data_length());
offset = ptr.Find(KAt);
}
if (offset == KErrNotFound)
{
// Check DN
TRAPD(err, get_identities_from_distinguished_namesL(certificate, &subject_identity, &issuer_identity));
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: EAP-TLS: Could not find realm from certificate.\n")));
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_certificate);
}
// Parse realm from identity
TPtr8 ptr(
subject_identity.get_data(subject_identity.get_data_length()),
subject_identity.get_data_length(),
subject_identity.get_data_length());
offset = ptr.Find(KAt);
// Don't worry if @ is not found. Then just use the whole CN as realm.
// It probably is the realm in CA certificates.
}
TPtr8 ptr(
subject_identity.get_data(subject_identity.get_data_length()),
subject_identity.get_data_length(),
subject_identity.get_data_length());
status = subject_realm->set_copy_of_buffer((ptr.Mid(offset + 1)).Ptr(), ptr.Length() - offset - 1);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
// ISSUER
// Check DN
TRAP(err, get_identities_from_distinguished_namesL(certificate, &subject_identity, &issuer_identity));
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: EAP-TLS: Could not find realm from certificate.\n")));
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_certificate);
}
// Parse realm from identity
TPtr8 ptr2(
issuer_identity.get_data(issuer_identity.get_data_length()),
issuer_identity.get_data_length(),
issuer_identity.get_data_length());
offset = ptr2.Find(KAt);
status = issuer_realm->set_copy_of_buffer((ptr2.Mid(offset + 1)).Ptr(), ptr2.Length() - offset - 1);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::save_tls_session(
const eap_variable_data_c * const session_id,
const eap_variable_data_c * const master_secret,
const tls_cipher_suites_e used_cipher_suite
#if defined(USE_EAP_TLS_SESSION_TICKET)
, const tls_extension_c * const new_session_ticket
#endif //#if defined(USE_EAP_TLS_SESSION_TICKET)
)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
eap_status_e status = eap_status_ok;
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: save_tls_session()\n"),
(m_is_client == true ? "client": "server")));
// Save current session.
if (session_id != 0
&& session_id->get_is_valid_data() == true
&& master_secret != 0
&& master_secret->get_is_valid_data() == true)
{
// Send error if any of the parameters are too long.
if(session_id->get_data_length() > KMaxSessionIdLengthInDB
|| master_secret->get_data_length() > KMaxMasterSecretLengthInDB)
{
// Some of the parameters are too long. Can't store them in DB.
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::save_tls_session: ")
EAPL("Too long parameters. Length: session_id=%d, master_secret=%d \n"),
session_id->get_data_length(), master_secret->get_data_length()));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_illegal_parameter);
}
{
TRAPD(err, WriteBinaryParamL(
cf_str_EAP_TLS_PEAP_saved_session_id.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_session_id.get_field()->get_field_length(),
session_id));
if (err != KErrNone)
{
// Convert the leave error code to EAPOL stack error code.
status = m_am_tools->convert_am_error_to_eapol_error(err);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
{
TRAPD(err, WriteBinaryParamL(
cf_str_EAP_TLS_PEAP_saved_master_secret.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_master_secret.get_field()->get_field_length(),
master_secret));
if (err != KErrNone)
{
// Convert the leave error code to EAPOL stack error code.
status = m_am_tools->convert_am_error_to_eapol_error(err);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
{
TRAPD(err, WriteIntParamL(
cf_str_EAP_TLS_PEAP_saved_cipher_suite.get_field()->get_field(),
cf_str_EAP_TLS_PEAP_saved_cipher_suite.get_field()->get_field_length(),
used_cipher_suite));
if (err != KErrNone)
{
// Convert the leave error code to EAPOL stack error code.
status = m_am_tools->convert_am_error_to_eapol_error(err);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
}
#if defined(USE_EAP_TLS_SESSION_TICKET)
if (m_use_session_ticket == true
&& new_session_ticket != 0)
{
// Save new session ticket.
}
#endif //#if defined(USE_EAP_TLS_SESSION_TICKET)
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::rsa_encrypt_with_public_key(
const eap_variable_data_c * const premaster_secret)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: message_function: rsa_encrypt_with_public_key()\n"),
(m_is_client == true ? "client": "server")));
if (m_peer_public_key.get_is_valid_data() == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
EAP_TRACE_DATA_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (EAPL("TLS: rsa_encrypt_with_public_key() m_peer_public_key"),
m_peer_public_key.get_data(m_peer_public_key.get_data_length()),
m_peer_public_key.get_data_length()));
crypto_rsa_c rsa(m_am_tools);
eap_variable_data_c encrypted_premaster_secret(m_am_tools);
eap_status_e status = rsa.encrypt_with_public_key(
&m_peer_public_key,
premaster_secret,
&encrypted_premaster_secret);
status = get_tls_am_partner()->complete_rsa_encrypt_with_public_key(
&encrypted_premaster_secret,
eap_status_ok);
if (status == eap_status_ok
|| status == eap_status_pending_request)
{
status = eap_status_completed_request;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::rsa_decrypt_with_private_key(
const eap_variable_data_c * const encrypted_premaster_secret)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: message_function: rsa_decrypt_with_private_key()\n"),
(m_is_client == true ? "client": "server")));
eap_status_e status(eap_status_pending_request);
if (m_own_certificate == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
HBufC8* data = 0;
TRAPD(err, data = HBufC8::NewL(encrypted_premaster_secret->get_data_length()));
if (err != KErrNone)
{
status = m_am_tools->convert_am_error_to_eapol_error(err);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
TPtr8 ptr = data->Des();
ptr.Copy(encrypted_premaster_secret->get_data(encrypted_premaster_secret->get_data_length()),
encrypted_premaster_secret->get_data_length());
TRAP(err, m_cert_if->DecryptL(m_own_certificate_info.iSubjectKeyId, *data));
if (err != KErrNone)
{
status = m_am_tools->convert_am_error_to_eapol_error(err);
}
else
{
status = eap_status_pending_request;
}
delete data;
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::complete_decrypt(TDes8& aData, eap_status_e aStatus)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
if (aStatus != eap_status_ok)
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: eap_am_type_tls_peap_symbian_c::complete_decrypt, aStatus=%d\n"),
aStatus));
get_tls_am_partner()->complete_rsa_decrypt_with_private_key(0, aStatus);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
if (aData.Length() == 0)
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: Decrypt with private key failed.\n")));
get_tls_am_partner()->complete_rsa_decrypt_with_private_key(0, eap_status_decryption_failure);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
eap_variable_data_c decrypted_data(m_am_tools);
eap_status_e status = decrypted_data.set_copy_of_buffer(aData.Ptr(), aData.Length());
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: rsa_decrypt_with_private_key() decrypted data"),
decrypted_data.get_data(decrypted_data.get_data_length()),
decrypted_data.get_data_length()));
status = get_tls_am_partner()->complete_rsa_decrypt_with_private_key(&decrypted_data, eap_status_ok);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::sign_with_private_key(
const eap_variable_data_c * const message_hash)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: message_function: sign_with_private_key()\n"),
(m_is_client == true ? "client": "server")));
eap_status_e status(eap_status_pending_request);
if (m_own_certificate == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: sign_with_private_key() message_hash"),
message_hash->get_data(message_hash->get_data_length()),
message_hash->get_data_length()));
HBufC8* buf = 0;
TRAPD(err, buf = HBufC8::NewL(message_hash->get_data_length()))
if (err != KErrNone)
{
status = m_am_tools->convert_am_error_to_eapol_error(err);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
TPtr8 hash = buf->Des();
hash.Copy(message_hash->get_data(message_hash->get_data_length()), message_hash->get_data_length());
// Calculate the signature length based on algorithm and public key lenght
TUint signature_length(0);
const CSubjectPublicKeyInfo& public_key = m_own_certificate->PublicKey();
if (public_key.AlgorithmId() == EDSA)
{
// DSA signatures are always 40 bytes (320 bits)
signature_length = KDSASignatureLength;
}
else
{
// RSA signature is the same length as public key.
TPtrC8 public_key_data = public_key.KeyData();
// public_key_data actually has the asn.1 header so it is a few bytes longer
// than the actual signature.
signature_length = public_key_data.Size();
}
TRAP(err, m_cert_if->SignL(m_own_certificate_info.iSubjectKeyId, hash, signature_length));
if (err != KErrNone)
{
status = m_am_tools->convert_am_error_to_eapol_error(err);
}
else
{
status = eap_status_pending_request;
}
delete buf;
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::complete_sign(
const RInteger& aR, const RInteger& aS, eap_status_e aStatus)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
if(aStatus != eap_status_ok)
{
get_tls_am_partner()->complete_sign_with_private_key(0, aStatus);
return;
}
TRAPD(err, complete_signL(aR, aS, eap_status_ok));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: complete_signL leaved.\n")));
get_tls_am_partner()->complete_sign_with_private_key(0, m_am_tools->convert_am_error_to_eapol_error(err));
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
void eap_am_type_tls_peap_symbian_c::complete_signL(
const RInteger& aR, const RInteger& aS, eap_status_e aStatus)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
if(aStatus != eap_status_ok)
{
get_tls_am_partner()->complete_sign_with_private_key(0, aStatus);
return;
}
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("AM: Signing completed.\n")));
eap_variable_data_c signed_message_hash(m_am_tools);
eap_status_e status(eap_status_process_general_error);
if (EapTlsPeapUtils::CipherSuiteUseDSAKeys(m_cipher_suite))
{
CASN1EncSequence* sequence = CASN1EncSequence::NewLC();
CASN1EncBigInt* enc_r = CASN1EncBigInt::NewLC(aR);
CASN1EncBigInt* enc_s = CASN1EncBigInt::NewLC(aS);
sequence->AddChildL(enc_r);
sequence->AddChildL(enc_s);
HBufC8* buf = HBufC8::NewLC(sequence->LengthDER());
TPtr8 tmp = buf->Des();
tmp.SetLength(sequence->LengthDER());
TInt pos = 0;
sequence->WriteDERL(tmp, (TUint&) pos);
status = signed_message_hash.set_copy_of_buffer(tmp.Ptr(), tmp.Length());
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
CleanupStack::PopAndDestroy(); // buf
CleanupStack::Pop(2); // BigInts are deleted by the sequence
CleanupStack::PopAndDestroy(1); // Sequence
}
else if (EapTlsPeapUtils::CipherSuiteUseRSAKeys(m_cipher_suite))
{
HBufC8* buf = aS.BufferLC();
// RSA signing. Just use the data as it is.
eap_status_e status = signed_message_hash.set_copy_of_buffer(buf->Ptr(), buf->Length());
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
User::Leave(KErrNoMemory);
}
CleanupStack::PopAndDestroy(); // buf
}
else
{
EAP_TRACE_ERROR(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: Unsupported cipher suite.\n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
User::Leave(KErrNotSupported);
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: sign_with_private_key() signed_message_hash"),
signed_message_hash.get_data(signed_message_hash.get_data_length()),
signed_message_hash.get_data_length()));
status = get_tls_am_partner()->complete_sign_with_private_key(
&signed_message_hash,
eap_status_ok);
// Ignore return value on purpose
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::verify_with_public_key(
const eap_variable_data_c * const message_hash,
const eap_variable_data_c * const signed_message_hash)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("\n")));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("TLS: %s: message_function: verify_with_public_key()\n"),
(m_is_client == true ? "client": "server")));
if (m_peer_public_key.get_is_valid_data() == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_process_general_error);
}
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: verify_with_public_key() m_peer_public_key"),
m_peer_public_key.get_data(m_peer_public_key.get_data_length()),
m_peer_public_key.get_data_length()));
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: verify_with_public_key() message_hash"),
message_hash->get_data(message_hash->get_data_length()),
message_hash->get_data_length()));
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("TLS: verify_with_public_key() signed_message_hash"),
signed_message_hash->get_data(signed_message_hash->get_data_length()),
signed_message_hash->get_data_length()));
eap_status_e status = eap_status_process_general_error;
if (EapTlsPeapUtils::CipherSuiteUseDSAKeys(m_cipher_suite))
{
TRAPD(err, read_dsa_parametersL());
if (err != KErrNone)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_am_tools->convert_am_error_to_eapol_error(err));
}
crypto_dsa_c dsa(m_am_tools);
status = dsa.init();
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = dsa.verify(
&m_peer_public_key,
&m_param_p,
&m_param_q,
&m_param_g,
message_hash,
signed_message_hash);
}
else if (EapTlsPeapUtils::CipherSuiteUseRSAKeys(m_cipher_suite))
{
crypto_rsa_c rsa(m_am_tools);
status = rsa.init();
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
status = rsa.verify(
&m_peer_public_key,
message_hash,
signed_message_hash);
}
else
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("ERROR: Signing with private key failed.\n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
status = get_tls_am_partner()->complete_verify_with_public_key(status);
if (status == eap_status_ok
|| status == eap_status_pending_request)
{
status = eap_status_completed_request;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
void eap_am_type_tls_peap_symbian_c::read_dsa_parametersL()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
if (m_peer_certificate == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
User::Leave(KErrArgument);
}
// Peer cert is the first one
const CSubjectPublicKeyInfo& key = m_peer_certificate->PublicKey();
const TPtrC8 params = key.EncodedParams();
CDSAParameters* dsaParams = CX509DSAPublicKey::DSAParametersL(params);
CleanupStack::PushL(dsaParams);
RInteger P = RInteger::NewL(dsaParams->P());
CleanupStack::PushL(P);
RInteger Q = RInteger::NewL(dsaParams->Q());
CleanupStack::PushL(Q);
RInteger G = RInteger::NewL(dsaParams->G());
CleanupStack::PushL(G);
HBufC8* buf = P.BufferLC();
// Copy the shared key
m_param_p.reset();
eap_status_e status = m_param_p.set_copy_of_buffer(buf->Des().Ptr(), buf->Length());
if (status != eap_status_ok)
{
User::Leave(KErrNoMemory);
}
buf = Q.BufferLC();
m_param_q.reset();
status = m_param_q.set_copy_of_buffer(buf->Des().Ptr(), buf->Length());
if (status != eap_status_ok)
{
User::Leave(KErrNoMemory);
}
buf = G.BufferLC();
m_param_g.reset();
status = m_param_g.set_copy_of_buffer(buf->Des().Ptr(), buf->Length());
if (status != eap_status_ok)
{
User::Leave(KErrNoMemory);
}
CleanupStack::PopAndDestroy(7);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
// MODULE HANDLING FUNCTIONS
//--------------------------------------------------
eap_status_e eap_am_type_tls_peap_symbian_c::load_module(
const eap_type_value_e /*type*/,
const eap_type_value_e /* tunneling_type */,
abs_eap_base_type_c * const /*partner*/,
eap_base_type_c ** const /*eap_type_if*/,
const bool /*is_client_when_true*/,
const eap_am_network_id_c * const /*receive_network_id*/)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
//--------------------------------------------------
eap_status_e eap_am_type_tls_peap_symbian_c::check_is_valid_eap_type(const eap_type_value_e eap_type)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
eap_status_e status(eap_status_illegal_eap_type);
#ifdef USE_EAP_EXPANDED_TYPES
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::check_is_valid_eap_type:Given EAP vendor ID=%x, type=%x\n"),
eap_type.get_vendor_id(), eap_type.get_vendor_type()));
for (TInt i = 0; i < m_enabled_tunneling_exp_eap_array.Count(); i++)
{
eap_expanded_type_c expEAPTmp;
// This will read the expanded EAP from enabledEAPTypes[i]->iExpandedEAPType to expEAPTmp.
// This makes easy to get the vendor type.
eap_expanded_type_c::read_type( m_am_tools,
0,
m_enabled_tunneling_exp_eap_array[i]->iExpandedEAPType.Ptr(),
KExpandedEAPTypeSize,
&expEAPTmp);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("check_is_valid_eap_type:Checking with EAP type:"),
m_enabled_tunneling_exp_eap_array[i]->iExpandedEAPType.Ptr(),
m_enabled_tunneling_exp_eap_array[i]->iExpandedEAPType.Size()));
if (eap_type == expEAPTmp)
{
// This EAp type is one among the enabled ones. Hence a valid EAP type.
status = eap_status_ok;
break;
}
}
#else // For normal EAP types.
TEap *eapType = 0;
TInt i(0);
for (i = 0; i < m_iap_eap_array.Count(); i++)
{
// Try next EAP type
eapType = m_iap_eap_array[i];
if (eapType->Enabled == 1)
{
// Convert the string to integer
TLex8 tmp(eapType->UID);
TInt val(0);
tmp.Val(val);
if (val == eap_type)
{
// Allowed
status = eap_status_ok;
break;
}
}
}
#endif //#ifdef USE_EAP_EXPANDED_TYPES
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::get_eap_type_list(
eap_array_c<eap_type_value_e> * const eap_type_list)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::get_eap_type_list - Start\n")));
eap_status_e status(eap_status_illegal_eap_type);
#ifdef USE_EAP_EXPANDED_TYPES
// We need to return only the EAP types available as enabled types.
// It means only the ones available in m_enabled_tunneling_exp_eap_array.
for (TInt i = 0; i < m_enabled_tunneling_exp_eap_array.Count(); i++)
{
TBuf8<KExpandedEAPTypeSize> tmpExpEAP(m_enabled_tunneling_exp_eap_array[i]->iExpandedEAPType);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::get_eap_type_list:Enabled expanded EAP type at index=%d\n"),
i));
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("Enabled expanded EAP type:"),
tmpExpEAP.Ptr(),
tmpExpEAP.Size()));
// This is for one expanded EAP type (for the above one).
eap_type_value_e * expandedEAPType = new eap_type_value_e();
// Read the expanded EAP type details from an item in m_enabled_tunneling_exp_eap_array.
status = eap_type_value_e::read_type(m_am_tools,
0,
&tmpExpEAP,
tmpExpEAP.Length(),
expandedEAPType);
if (status != eap_status_ok)
{
delete expandedEAPType;
expandedEAPType = 0;
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
// Add EAP-type to list.
status = eap_type_list->add_object(expandedEAPType, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
eap_header_string_c eap_string;
EAP_UNREFERENCED_PARAMETER(eap_string);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("get_eap_type_list():added EAP-type=0x%08x=%s\n"),
expandedEAPType->get_vendor_type(),
eap_string.get_eap_type_string(*expandedEAPType)));
}// for()
#else // for normal EAP types.
TEap *eapType = 0;
status = eap_type_list->reset();
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
for (TInt i = 0; i < m_iap_eap_array.Count(); i++)
{
// Check if type is enabled
eapType = m_iap_eap_array[i];
if (eapType->Enabled == 1)
{
TLex8 tmp(eapType->UID);
TInt val(0);
tmp.Val(val);
eap_type_value_e * const eap_type = new eap_type_value_e(static_cast<eap_type_ietf_values_e>(val));
if (eap_type == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
status = eap_type_list->add_object(eap_type, true);
if (status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
}
} // for()
#endif // #ifdef USE_EAP_EXPANDED_TYPES
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return eap_status_ok;
}
eap_status_e eap_am_type_tls_peap_symbian_c::unload_module(const eap_type_value_e /*type*/)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
void eap_am_type_tls_peap_symbian_c::send_error_notification(const eap_status_e error)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::send_error_notification, error=%d\n"),
error));
eap_general_state_variable_e general_state_variable(eap_general_state_authentication_error);
if (error == eap_status_user_cancel_authentication)
{
general_state_variable = eap_general_state_authentication_cancelled;
}
// Here we swap the addresses.
eap_am_network_id_c send_network_id(m_am_tools,
m_receive_network_id.get_destination_id(),
m_receive_network_id.get_source_id(),
m_receive_network_id.get_type());
// Notifies the lower level of an authentication error.
eap_state_notification_c notification(
m_am_tools,
&send_network_id,
m_is_client,
eap_state_notification_eap,
eap_protocol_layer_general,
m_current_eap_type,
eap_state_none,
general_state_variable,
0,
false);
notification.set_authentication_error(error);
m_partner->state_notification(¬ification);
}
eap_status_e eap_am_type_tls_peap_symbian_c::show_certificate_selection_dialog()
{
return eap_status_ok;
}
eap_status_e eap_am_type_tls_peap_symbian_c::show_manual_identity_dialog()
{
return eap_status_ok;
}
//--------------------------------------------------
// CANCELLATION FUNCTIONS
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_identity_query()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_identity_query()\n")));
m_cert_if->Cancel();
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return eap_status_ok;
}
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_query_cipher_suites_and_previous_session()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_query_cipher_suites_and_previous_session()\n")));
// This is synchronous
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_select_cipher_suite_and_check_session_id()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_select_cipher_suite_and_check_session_id()\n")));
// This is synchronous
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_verify_certificate_chain()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_verify_certificate_chain()\n")));
m_cert_if->Cancel();
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_query_certificate_chain()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_query_certificate_chain()\n")));
m_cert_if->Cancel();
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_query_certificate_authorities_and_types()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_query_certificate_authorities_and_types()\n")));
// This is synchronous
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_query_dh_parameters()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_query_dh_parameters()\n")));
// This is synchronous
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_query_dsa_parameters()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_query_dsa_parameters()\n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_query_realm()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_query_realm()\n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_rsa_encrypt_with_public_key()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_rsa_encrypt_with_public_key()\n")));
// This is synchronous
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_rsa_decrypt_with_private_key()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_rsa_decrypt_with_private_key()\n")));
m_cert_if->Cancel();
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_sign_with_private_key()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_sign_with_private_key()\n")));
m_cert_if->CancelSignWithPrivateKey(); // Lets see if separate cancelling works.
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_sign_with_private_key() returns\n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_verify_with_public_key()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::cancel_verify_with_public_key()\n")));
// This is synchronous
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
bool eap_am_type_tls_peap_symbian_c::is_session_valid()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
bool sessionValidity(false);
TRAPD(err, sessionValidity = is_session_validL());
if (err != KErrNone)
{
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::is_session_valid - LEAVE - error=%d, Assuming session is invalid \n"),
err));
sessionValidity = false;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return sessionValidity;
}
//--------------------------------------------------
bool eap_am_type_tls_peap_symbian_c::is_session_validL()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("eap_am_type_tls_peap_symbian_c::is_session_valid - m_current_eap_vendor_type=%d \n"),
m_current_eap_vendor_type));
TPtrC maxSessionTimeString;
TPtrC lastFullAuthTimeString;
switch (m_current_eap_vendor_type)
{
case eap_type_tls:
{
maxSessionTimeString.Set(cf_str_EAP_TLS_max_session_validity_time_literal);
lastFullAuthTimeString.Set(KTLSLastFullAuthTime);
}
break;
case eap_type_peap:
{
maxSessionTimeString.Set(cf_str_EAP_PEAP_max_session_validity_time_literal);
lastFullAuthTimeString.Set(KPEAPLastFullAuthTime);
}
break;
case eap_type_ttls:
{
maxSessionTimeString.Set(cf_str_EAP_TTLS_max_session_validity_time_literal);
lastFullAuthTimeString.Set(KTTLSLastFullAuthTime);
}
break;
#if defined(USE_FAST_EAP_TYPE)
case eap_type_fast:
{
maxSessionTimeString.Set(cf_str_EAP_FAST_max_session_validity_time_literal);
lastFullAuthTimeString.Set(KFASTLastFullAuthTime);
}
break;
#endif
case eap_type_ttls_plain_pap:
{
// we should not come here, ttls pap has its own
// method for checking session validity
EAP_TRACE_ERROR( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL( "ERROR: wrong eap type.\n" ) ) );
return false;
}
default:
{
// Should never happen
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("Unsupported EAP type, m_current_eap_vendor_type=%d \n"),
m_current_eap_vendor_type));
return false; // Treat this as Session invalid.
}
}
HBufC* buf = HBufC::NewLC(KMaxSqlQueryLength);
TPtr sqlStatement = buf->Des();
// Query all the relevant parameters
_LIT(KSQLQuery, "SELECT %S, %S FROM %S WHERE %S=%d AND %S=%d AND %S=%d");
sqlStatement.Format(KSQLQuery, &maxSessionTimeString, &lastFullAuthTimeString, &m_db_table_name,
&KServiceType, m_index_type,
&KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
RDbView view;
// Evaluate view
User::LeaveIfError(view.Prepare(m_database, TDbQuery(sqlStatement)));
CleanupClosePushL(view);
User::LeaveIfError(view.EvaluateAll());
// Get the first (and only) row
view.FirstL();
view.GetL();
// Get column set so we get the correct column numbers
CDbColSet* colSet = view.ColSetL();
CleanupStack::PushL(colSet);
TInt64 maxSessionTime = view.ColInt64(colSet->ColNo(maxSessionTimeString));
TInt64 fullAuthTime = view.ColInt64(colSet->ColNo(lastFullAuthTimeString));
CleanupStack::PopAndDestroy(colSet); // Delete colSet.
CleanupStack::PopAndDestroy(&view); // Close view.
CleanupStack::PopAndDestroy(buf); // Delete buf.
// If the max session time from DB is zero then we use the
// one read from configuration file.
if( maxSessionTime == 0)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("Session Validity - Using max session validity time from config file\n")));
maxSessionTime = m_max_session_time; // value from configuration file.
}
// Get the current time.
TTime currentTime;
currentTime.UniversalTime();
TTime lastFullAuthTime(fullAuthTime);
#if defined(_DEBUG) || defined(DEBUG)
TDateTime currentDateTime = currentTime.DateTime();
TDateTime fullAuthDateTime = lastFullAuthTime.DateTime();
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("Session Validity - Current Time, %2d-%2d-%4d : %2d-%2d-%2d-%d\n"),
currentDateTime.Day()+1, currentDateTime.Month()+1, currentDateTime.Year(), currentDateTime.Hour(),
currentDateTime.Minute(), currentDateTime.Second(), currentDateTime.MicroSecond()));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("Session Validity - Last Full Auth Time, %2d-%2d-%4d : %2d-%2d-%2d-%d\n"),
fullAuthDateTime.Day()+1, fullAuthDateTime.Month()+1, fullAuthDateTime.Year(), fullAuthDateTime.Hour(),
fullAuthDateTime.Minute(), fullAuthDateTime.Second(), fullAuthDateTime.MicroSecond()));
#endif
TTimeIntervalMicroSeconds interval = currentTime.MicroSecondsFrom(lastFullAuthTime);
EAP_TRACE_DATA_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,(EAPL("eap_am_type_tls_peap_symbian_c::is_session_valid:interval in microseconds:"),
&(interval.Int64()),
sizeof(interval.Int64()) ) );
EAP_TRACE_DATA_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,(EAPL("eap_am_type_tls_peap_symbian_c::is_session_valid:max session time in microseconds:"),
&(maxSessionTime),
sizeof(maxSessionTime) ) );
#if defined(_DEBUG) || defined(DEBUG)
TTimeIntervalMinutes intervalMins;
TInt error = currentTime.MinutesFrom(lastFullAuthTime, intervalMins);
if(error == KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::is_session_validL()")
EAPL("interval in Minutes =%d\n"),
intervalMins.Int()));
}
#endif
if( maxSessionTime >= interval.Int64() )
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("eap_am_type_tls_peap_symbian_c::is_session_valid - Session Valid \n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return true;
}
else
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("eap_am_type_tls_peap_symbian_c::is_session_valid - Session NOT Valid \n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return false;
}
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::store_authentication_timeL()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::store_authentication_timeL, index type=%d, index=%d, tunneling type=%d, current eap type=%d\n"),
m_index_type, m_index, m_tunneling_vendor_type, m_current_eap_vendor_type));
TPtrC lastFullAuthTimeString;
switch (m_current_eap_vendor_type)
{
case eap_type_tls:
{
lastFullAuthTimeString.Set(KTLSLastFullAuthTime);
}
break;
case eap_type_peap:
{
lastFullAuthTimeString.Set(KPEAPLastFullAuthTime);
}
break;
case eap_type_ttls:
{
lastFullAuthTimeString.Set(KTTLSLastFullAuthTime);
}
break;
case eap_type_ttls_plain_pap:
{
lastFullAuthTimeString.Set( KTTLSPAPLastFullAuthTime );
}
break;
#if defined(USE_FAST_EAP_TYPE)
case eap_type_fast:
{
lastFullAuthTimeString.Set(KFASTLastFullAuthTime);
}
break;
#endif
default:
{
// Should never happen
EAP_TRACE_ERROR(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("Unsupported EAP type, m_current_eap_vendor_type=%d \n"),
m_current_eap_vendor_type));
User::Leave(KErrNotSupported);
}
}
HBufC* buf = HBufC::NewLC(KMaxSqlQueryLength);
TPtr sqlStatement = buf->Des();
// Query all the relevant parameters
_LIT(KSQLQuery, "SELECT %S FROM %S WHERE %S=%d AND %S=%d AND %S=%d");
sqlStatement.Format(KSQLQuery, &lastFullAuthTimeString, &m_db_table_name,
&KServiceType, m_index_type,
&KServiceIndex, m_index, &KTunnelingType, m_tunneling_vendor_type);
RDbView view;
// Evaluate view
User::LeaveIfError(view.Prepare(m_database, TDbQuery(sqlStatement), TDbWindow::EUnlimited));
CleanupClosePushL(view);
User::LeaveIfError(view.EvaluateAll());
// Get the first (and only) row for updation.
view.FirstL();
view.UpdateL();
// Get column set so we get the correct column numbers
CDbColSet* colSet = view.ColSetL();
CleanupStack::PushL(colSet);
// Get the current universal time.
TTime currentTime;
currentTime.UniversalTime();
#if defined(_DEBUG) || defined(DEBUG)
TDateTime currentDateTime = currentTime.DateTime();
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::store_authentication_time, %2d-%2d-%4d : %2d-%2d-%2d-%d\n"),
currentDateTime.Day()+1, currentDateTime.Month()+1,currentDateTime.Year(), currentDateTime.Hour(),
currentDateTime.Minute(), currentDateTime.Second(), currentDateTime.MicroSecond()));
#endif
TInt64 fullAuthTime = currentTime.Int64();
view.SetColL(colSet->ColNo(lastFullAuthTimeString), fullAuthTime);
view.PutL();
CleanupStack::PopAndDestroy(colSet); // Delete colSet.
CleanupStack::PopAndDestroy(&view); // Close view.
CleanupStack::PopAndDestroy(buf); // Delete buf.
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("eap_am_type_tls_peap_symbian_c::store_authentication_timeL - End \n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
EAP_FUNC_EXPORT void eap_am_type_tls_peap_symbian_c::set_peap_version(
const peap_version_e /* peap_version */,
const bool /* use_tppd_tls_peap */,
const bool /* use_tppd_peapv1_acknowledge_hack */)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
#if defined(USE_FAST_EAP_TYPE)
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::read_authority_identity(eap_variable_data_c * const /* authority_identity */)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: crypto_function: eap_am_type_tls_peap_symbian_c::read_authority_identity(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
//--------------------------------------------------
// This is commented in tls_am_application_eap_fast_c::query_pac_of_type().
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_pac_of_type(
const eap_fast_pac_type_e /* pac_type */)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: crypto_function: eap_am_type_tls_peap_symbian_c::query_pac_of_type(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
//--------------------------------------------------
#if defined(USE_EAP_CORE_SERVER)
/**
* This function call is always asyncronous.
* It will be completed always with complete_verify_pac() function call.
* Function verifies the received PAC is valid.
*/
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::verify_pac(const eap_fast_variable_data_c * const /* tlv_pac */)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: crypto_function: eap_am_type_tls_peap_symbian_c::verify_pac(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
#endif //#if defined(USE_EAP_CORE_SERVER)
//--------------------------------------------------
// This is commented in eap_am_fast_pac_store_services_c::query_user_permission_for_A_ID().
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::query_user_permission_for_A_ID(
const eap_fast_pac_store_pending_operation_e in_pending_operation,
const eap_fast_variable_data_c * const in_pac_attribute_A_ID_info,
const eap_fast_variable_data_c * const in_pac_attribute_A_ID)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: eap_am_type_tls_peap_symbian_c::query_user_permission_for_A_ID(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
eap_status_e status(eap_status_ok);
m_pending_operation = in_pending_operation;
if (in_pac_attribute_A_ID_info->get_data_length()>0)
{
TRAPD(err, status = QueryUserPermissionForAIDL(in_pac_attribute_A_ID_info, in_pac_attribute_A_ID ));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::read_PAC_store_data() ERROR: LEAVE from QueryUserPermissionForAIDL error=%d"),
err));
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(err);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
}
if (status == KErrNone)
{
m_eap_fast_completion_status = eap_status_pending_request;
}
else
{
m_eap_fast_completion_status = status;
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
//--------------------------------------------------
eap_status_e eap_am_type_tls_peap_symbian_c::QueryUserPermissionForAIDL(
const eap_fast_variable_data_c * const in_pac_attribute_A_ID_info,
const eap_fast_variable_data_c * const in_pac_attribute_A_ID)
{
eap_status_e status(eap_status_ok);
HBufC8* A_ID_info8 = HBufC8::NewLC((in_pac_attribute_A_ID_info->get_data_length()));
TPtr8 A_ID_infoPtr8 = A_ID_info8->Des();
HBufC* A_ID_info = HBufC::NewLC((in_pac_attribute_A_ID_info->get_data_length()));
TPtr A_ID_infoPtr = A_ID_info->Des();
HBufC8* A_ID = HBufC8::NewLC((in_pac_attribute_A_ID->get_data_length()));
TPtr8 A_IDPtr = A_ID->Des();
A_ID_infoPtr8.Copy(in_pac_attribute_A_ID_info->get_data(in_pac_attribute_A_ID_info->get_data_length()),in_pac_attribute_A_ID_info->get_data_length() );
A_ID_infoPtr.Copy(A_ID_infoPtr8);
A_IDPtr.Copy(in_pac_attribute_A_ID->get_data(in_pac_attribute_A_ID->get_data_length()),in_pac_attribute_A_ID->get_data_length() );
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::query_user_permission_for_A_ID(): in_pac_attribute_A_ID_info",
(A_ID_infoPtr.Ptr()),
(in_pac_attribute_A_ID_info->get_data_length())));
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::query_user_permission_for_A_ID(): in_pac_attribute_A_ID",
(A_IDPtr.Ptr()),
(in_pac_attribute_A_ID->get_data_length())));
if (A_ID_infoPtr.Size()>KMaxEapFastNotifierBufLength)
{
CleanupStack::PopAndDestroy(3); // A_ID, A_ID_info
status = m_am_tools->convert_am_error_to_eapol_error(KErrArgument);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
TBool startedOk = ETrue;
if (!iEapFastActiveNotes)
{
TRAPD( err, iEapFastActiveNotes = CEapFastActive::NewL( this ) );
if ( err != KErrNone )
{
status = eap_status_allocation_error;
}
}
if ( status == KErrNone )
{
//update buffer
iEapFastActiveNotes->UpdateInputBuf( A_ID_infoPtr );
// start query install dialog
// asynch. call, return immediately
startedOk = iEapFastActiveNotes->Start(
CEapFastActive::EEapFastActiveInstallPacQueryDialog );
if ( startedOk == EFalse )
{
status = eap_status_process_general_error;
}
}
else
{
status = eap_status_process_general_error;
}
CleanupStack::PopAndDestroy(3); // A_ID, A_ID_info
return status;
}
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::read_PAC_store_data(
const eap_fast_pac_store_pending_operation_e in_pending_operation,
EAP_TEMPLATE_CONST eap_array_c<eap_fast_pac_store_data_c> * const in_references)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
m_eap_fast_pac_store_pending_operation = in_pending_operation;
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::read_PAC_store_data()\n")));
EAP_TRACE_RETURN_STRING(m_am_tools, "returns: eap_am_type_tls_peap_symbian_c::read_PAC_store_data()");
m_eap_fast_completion_status = eap_status_ok;
m_both_asked = 0;
m_both_completed = 0;
TRAPD(error, ReadPACStoredataL(in_pending_operation, in_references));
if(error != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::read_PAC_store_data() ERROR: LEAVE from ReadPACStoredataL error=%d"),
error));
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(error);
}
// - - - - - - - - - - - - - - - - - - - - - - - -
// Proceed with normal complete case.
if(m_eap_fast_completion_status == eap_status_ok)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::complete_read_PAC_store_data(), m_eap_fast_completion_status=%d\n"),
(m_is_client == true ? "client": "server"), m_eap_fast_completion_status));
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks); // m_ready_references_and_data_blocks
}
else if (m_eap_fast_completion_status == eap_status_pending_request )
{
m_ready_references_and_data_blocks.reset();
m_new_references_and_data_blocks.reset();
}
else
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::read_PAC_store_data() ERROR =%d"),
m_eap_fast_completion_status));
m_references_and_data_blocks.reset();
m_eap_fast_completion_status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
// ERROR.
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
// - - - - - - - - - - - - - - - - - - - - - - - -
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::read_PAC_store_data-End, m_eap_fast_completion_status=%d"),
m_eap_fast_completion_status));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::ReadPACStoredataL(
const eap_fast_pac_store_pending_operation_e in_pending_operation,
EAP_TEMPLATE_CONST eap_array_c<eap_fast_pac_store_data_c> * const in_references)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::ReadPACStoredataL() Start \n")));
EAP_TRACE_RETURN_STRING(m_am_tools, "returns: eap_am_type_tls_peap_symbian_c::ReadPACStoredataL()");
// - - - - - - - - - - - - - - - - - - - - - - - -
m_eap_fast_completion_status = eap_status_ok;
m_eap_fast_pac_store_pending_operation = in_pending_operation;
(void) m_references_and_data_blocks.reset();
for (u32_t ind = 0ul; ind < in_references->get_object_count(); ++ind)
{
const eap_fast_pac_store_data_c * const data_reference = in_references->get_object(ind);
if (data_reference != 0
&& data_reference->get_is_valid() == true)
{
eap_pac_store_data_type_e pacStoreDataRefType = data_reference->get_type();
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ReadPACStoredataL(): data_reference type=%d=%s\n"),
pacStoreDataRefType,
eap_fast_tlv_header_string_c::get_fast_pac_store_data_string(pacStoreDataRefType)));
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("ReadPACStoredataL(): data_reference reference:",
data_reference->get_reference()->get_data(data_reference->get_reference()->get_data_length()),
data_reference->get_reference()->get_data_length()));
switch(pacStoreDataRefType)
{
case eap_pac_store_data_type_PAC_store_master_key:
{
// To read master key.
eap_variable_data_c master_key(m_am_tools);
#ifdef USE_PAC_STORE
// Get master key from PAC store DB.
GetPacStoreDbDataL(
pacStoreDataRefType,
&master_key);
#endif // End: #ifdef USE_PAC_STORE
// master_key should have the master key now.
// Doesn't matter even if there is no master key (master_key is empty).
// Proceed as normal case.
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&master_key);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_PAC_store_master_key - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
break;
} // End: case eap_pac_store_data_type_PAC_store_master_key:
case eap_pac_store_data_type_reference_counter:
{
// To read reference counter.
eap_variable_data_c reference_counter(m_am_tools);
#ifdef USE_PAC_STORE
// Get reference counter from PAC store DB.
GetPacStoreDbDataL(
pacStoreDataRefType,
&reference_counter);
#endif // End: #ifdef USE_PAC_STORE
// reference_counter should have the reference counter now.
// Doesn't matter even if it is empty. Proceed as normal case.
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&reference_counter);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_reference_counter - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
break;
} // End: case eap_pac_store_data_type_reference_counter:
case eap_pac_store_data_type_group_data: // Check the reference (the ref is data_reference->get_reference()) and provide only the value from groups table.
{
// To read a particular group data.
eap_variable_data_c group_data(m_am_tools);
#ifdef USE_PAC_STORE
// Get group data from PAC store DB, using the reference.
GetPacStoreDbDataL(
pacStoreDataRefType,
&group_data,
data_reference->get_reference());
#endif // End: #ifdef USE_PAC_STORE
// group_data should have the value stored in PAC store now.
// Doesn't matter even if it is empty. Proceed as normal case.
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&group_data);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_group_data - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
break;
} // End: case eap_pac_store_data_type_group_data:
case eap_pac_store_data_type_A_ID_data: // Check the reference and provide only the value from AIDs table.
{
// To read a particular AID data.
eap_variable_data_c aid_data(m_am_tools);
#ifdef USE_PAC_STORE
// Get AID data from PAC store DB, using the reference.
GetPacStoreDbDataL(
pacStoreDataRefType,
&aid_data,
data_reference->get_reference());
#endif // End: #ifdef USE_PAC_STORE
// aid_data should have the value stored in PAC store now.
// Doesn't matter even if it is empty. Proceed as normal case.
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&aid_data);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_A_ID_data - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
break;
} // End: case eap_pac_store_data_type_A_ID_data:
case eap_pac_store_data_type_PAC_data: // Check the reference and provide only the value from PACs table.
{
// To read a particular PAC data.
eap_variable_data_c pac_data(m_am_tools);
#ifdef USE_PAC_STORE
// Get PAC data from PAC store DB, using the reference.
GetPacStoreDbDataL(
pacStoreDataRefType,
&pac_data,
data_reference->get_reference());
#endif // End: #ifdef USE_PAC_STORE
// pac_data should have the value stored in PAC store now.
// Doesn't matter even if it is empty. Proceed as normal case.
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&pac_data);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_PAC_data - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
break;
} // End: case eap_pac_store_data_type_PAC_data:
case eap_pac_store_data_type_group_info:// Provide all from groups table. Create data for one entry in the groups table.
case eap_pac_store_data_type_A_ID_info: // Provide all from AIDs table. Create data for one entry in the AIDs table.
case eap_pac_store_data_type_PAC_info:// Provide all from PACs table. Create data for one entry in the PACs table.
{
/** Read the items from DB here.*/
TBuf<64> dbTableName;
eap_pac_store_data_type_e dataType = eap_pac_store_data_type_none;
switch(pacStoreDataRefType)
{
case eap_pac_store_data_type_group_info:
{
dbTableName = KPacStoreGroupsTableName;
dataType = eap_pac_store_data_type_group_data;
break;
}
case eap_pac_store_data_type_A_ID_info:
{
dbTableName = KPacStoreAIDsTableName;
dataType = eap_pac_store_data_type_A_ID_data;
break;
}
case eap_pac_store_data_type_PAC_info:
{
dbTableName = KPacStorePACsTableName;
dataType = eap_pac_store_data_type_PAC_data;
break;
}
}
TInt count = 0;
m_info_array.Reset();
iPacStoreDb->GetPacStoreDataL(dbTableName, m_info_array);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ReadPACStoredataL:Number of entries in table %S=%d\n"),
&dbTableName, m_info_array.Count()));
while (count < m_info_array.Count())
{
TPtr8 infoDataPtr = m_info_array[count].iData->Des();
TPtr8 infoRefPtr = m_info_array[count].iReference->Des();
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::ReadPACStoredataL: BINARY value from PAC DB (reference)",
infoRefPtr.Ptr(),
infoRefPtr.Size()));
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::ReadPACStoredataL: BINARY value from PAC DB (value)",
infoDataPtr.Ptr(),
infoDataPtr.Size()));
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(dataType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(infoRefPtr.Ptr(), infoRefPtr.Size());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
delete m_info_array[count].iData;
delete m_info_array[count].iReference;
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(infoDataPtr.Ptr(),infoDataPtr.Size() );
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
delete m_info_array[count].iData;
delete m_info_array[count].iReference;
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
delete m_info_array[count].iData;
delete m_info_array[count].iReference;
break;
}
delete m_info_array[count].iData;
delete m_info_array[count].iReference;
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("For GROUP, AID, PAC INFOs - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
count++;
} // End: while
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
break;
} // End: case eap_pac_store_data_type_group_info:
case eap_pac_store_data_type_PAC_store_password:
{
// To read PAC store PW.
#ifdef USE_PAC_STORE
// Get PAC store password
// First check if there is some PW in PAC store DB.
GetPacStoreDbDataL(
pacStoreDataRefType,
&m_PAC_store_password);
#endif // End: #ifdef USE_PAC_STORE
if(m_PAC_store_password.get_data_length() == 0)
{
// Nothing in the PAC store DB.
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ReadPACStoredataL: NO PW in PAC store. Try Notifier")));
// Show the password query notifier to get the password.
m_ready_references_array_index = ind;
m_verificationStatus = EFalse;
m_state = EPasswordQuery;
m_pacStoreDataRefType = pacStoreDataRefType;
m_data_reference.get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
m_both_asked++;
if(iPacStoreDb->IsMasterKeyPresentL())
{
m_eap_fast_completion_status = ShowNotifierItemAndGetResponse(
EEapFastNotifierPacStorePwQuery, ETrue );
}
else
{
m_state = EMasterkeyQuery;
m_eap_fast_completion_status = ShowNotifierItemAndGetResponse(
EEapFastNotifierCreateMasterkeyQuery, ETrue );
}
break;
}
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&m_PAC_store_password);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_PAC_store_password - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
m_eap_fast_completion_status = eap_status_pending_request;
break;
} // End: case eap_pac_store_data_type_PAC_store_password:
case eap_pac_store_data_type_PAC_store_device_seed:
{
// To get the device seed.
// Create a device seed.
eap_variable_data_c m_PAC_store_device_seed(m_am_tools);
m_eap_fast_completion_status = m_PAC_store_device_seed.set_copy_of_buffer(
iPacStoreDb->GetSeed() );
if ( m_eap_fast_completion_status != eap_status_ok )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ReadPACStoredataL: ERROR: seed data is not valid.")));
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
// continue normally
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("Device Seed",
m_PAC_store_device_seed.get_data(m_PAC_store_device_seed.get_data_length()),
m_PAC_store_device_seed.get_data_length()));
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&m_PAC_store_device_seed);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_PAC_store_device_seed - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
break;
} // End: case eap_pac_store_data_type_PAC_store_device_seed:
case eap_pac_store_data_type_PAC_store_IAP_reference:
{
// To get the IAP reference.
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
// Provide Service table id (m_index) and type (m_index_type)
// in the specified format.
i32_t tmpIndex = static_cast<i32_t>(m_index);
i32_t tmpIndexType = static_cast<i32_t>(m_index_type);
eap_variable_data_c tmp_EAP_FAST_IAP_reference(m_am_tools);
// Copy the index and index type. The order of copying is important.
m_eap_fast_completion_status = tmp_EAP_FAST_IAP_reference.set_copy_of_buffer(&tmpIndex,sizeof(i32_t));
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = tmp_EAP_FAST_IAP_reference.add_data(&tmpIndexType,sizeof(i32_t));
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
if (tmp_EAP_FAST_IAP_reference.get_is_valid_data() == true)
{
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&tmp_EAP_FAST_IAP_reference);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_PAC_store_IAP_reference - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
break;
} // End : case eap_pac_store_data_type_PAC_store_IAP_reference:
case eap_pac_store_data_type_PAC_store_group_reference:
{
// To get the PAC store group reference
// It is EAP_FAST_PAC_Group_DB_Reference_Collection in PAC store DB.
eap_variable_data_c groupDbReferenceData(m_am_tools);
EapTlsPeapUtils::GetEapSettingsDataL(
m_database,
m_index_type,
m_index,
m_tunneling_type,
m_current_eap_type,
KFASTPACGroupDBReferenceCollection,
&groupDbReferenceData);
// groupDbReferenceData should have the value stored in PAC store DB.
// Doesn't matter even if it is empty. Proceed as normal case.
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("PAC group ref from PAC store DB",
groupDbReferenceData.get_data(groupDbReferenceData.get_data_length()),
groupDbReferenceData.get_data_length()));
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
new_data->set_type(pacStoreDataRefType);
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(&groupDbReferenceData);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
eap_variable_data_c group_data_2(m_am_tools);
#ifdef USE_PAC_STORE
// Get group data from PAC store DB, using the reference.
GetPacStoreDbDataL(
eap_pac_store_data_type_group_data,
&group_data_2,
&groupDbReferenceData);
#endif // End: #ifdef USE_PAC_STORE
if ( group_data_2.get_data_length() == 0 )
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&group_data_2);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_pac_store_data_type_PAC_store_group_reference - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
break;
} // End: case eap_pac_store_data_type_PAC_store_group_reference:
case eap_pac_store_data_type_PAC_file_password:
{
// To get the password for decrypting the PAC file.
// Show the notifier to get the PAC file password.
m_ready_references_array_index = ind;
m_pacStoreDataRefType = pacStoreDataRefType;
m_data_reference.get_writable_reference()->set_copy_of_buffer(data_reference->get_reference());
m_state = EFilePasswordQuery;
m_both_asked++;
m_eap_fast_completion_status = ShowNotifierItemAndGetResponse(
EEapFastNotifierPacFilePwQuery, ETrue );
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
break;
} // End : case eap_pac_store_data_type_PAC_file_password:
default:
{
// Unknown data query.
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ReadPACStoredataL: ERROR: Unknown data type")));
m_eap_fast_completion_status = eap_status_not_found;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
} // End: switch(pacStoreDataRefType)
}
} // for ()
if (m_both_asked)
m_eap_fast_completion_status = eap_status_pending_request;
m_info_array.Reset();
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ReadPACStoredataL-End, m_eap_fast_completion_status=%d"),
m_eap_fast_completion_status));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return;
}
//--------------------------------------------------
// This is commented in eap_am_fast_pac_store_services_c::write_PAC_store_data().
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::write_PAC_store_data(
const bool /* when_true_must_be_synchronous_operation */,
const eap_fast_pac_store_pending_operation_e in_pending_operation,
EAP_TEMPLATE_CONST eap_array_c<eap_fast_pac_store_data_c> * const in_references_and_data_blocks)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: eap_am_type_tls_peap_symbian_c::write_PAC_store_data(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
m_eap_fast_pac_store_pending_operation = in_pending_operation;
TRAPD(error, WritePACStoreDataL(in_pending_operation, in_references_and_data_blocks));
if(error != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::write_PAC_store_data() ERROR: LEAVE from WritePACStoreDataL error=%d"),
error));
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(error);
}
// - - - - - - - - - - - - - - - - - - - - - - - -
// Proceed with normal complete case.
eap_status_e status(eap_status_ok);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("FAST: %s: direct_complete_function: WritePACStoreDataL(), m_eap_fast_completion_status=%d\n"),
(m_is_client == true ? "client": "server"), m_eap_fast_completion_status));
if (m_eap_fast_completion_status == eap_status_ok)
{
status = m_tls_application->complete_write_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation);
}
else
{
status = m_tls_application->complete_write_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation);
// ERROR.
(void) EAP_STATUS_RETURN(m_am_tools, status);
}
// - - - - - - - - - - - - - - - - - - - - - - - -
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::write_PAC_store_data-End, status=%d, m_eap_fast_completion_status=%d"),
status, m_eap_fast_completion_status));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, status);
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::WritePACStoreDataL(
const eap_fast_pac_store_pending_operation_e in_pending_operation,
EAP_TEMPLATE_CONST eap_array_c<eap_fast_pac_store_data_c> * const in_references_and_data_blocks)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::WritePACStoreDataL()\n")));
EAP_TRACE_RETURN_STRING(m_am_tools, "returns: eap_am_type_tls_peap_symbian_c::WritePACStoreDataL()");
// - - - - - - - - - - - - - - - - - - - - - - - -
m_eap_fast_completion_status = eap_status_ok;
m_eap_fast_pac_store_pending_operation = in_pending_operation;
TBuf<KMaxDBFieldNameLength> pacStoreDBColName;
TBool writeToPacStore = EFalse;
// - - - - - - - - - - - - - - - - - - - - - - - -
for (u32_t ind = 0ul; ind < in_references_and_data_blocks->get_object_count(); ++ind)
{
const eap_fast_pac_store_data_c * const data_reference = in_references_and_data_blocks->get_object(ind);
if (data_reference != 0)
{
const eap_pac_store_data_type_e aPacStoreDataType = data_reference->get_type();
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::WritePACStoreDataL(): type %d=%s\n"),
data_reference->get_type(),
eap_fast_tlv_header_string_c::get_fast_pac_store_data_string(data_reference->get_type())));
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("WritePACStoreDataL(): data_reference data(value):",
data_reference->get_data()->get_data(data_reference->get_data()->get_data_length()),
data_reference->get_data()->get_data_length()));
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("WritePACStoreDataL(): data_reference reference:",
data_reference->get_reference()->get_data(data_reference->get_reference()->get_data_length()),
data_reference->get_reference()->get_data_length()));
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::WritePACStoreDataL: change status=%d (0=eap_pac_store_data_change_status_none)"),
data_reference->get_change_status()));
if (data_reference != 0
&& data_reference->get_is_valid() == true
&& data_reference->get_type() != eap_pac_store_data_type_none
&& data_reference->get_change_status() != eap_pac_store_data_change_status_none)
{
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
break;
}
/* Get the data (or value) from the input */
HBufC8* pacStoreDBColVal8 = HBufC8::NewLC(data_reference->get_data()->get_data_length());
TPtr8 pacStoreDBColValPtr8 = pacStoreDBColVal8->Des();
pacStoreDBColValPtr8.Copy(data_reference->get_data()->get_data(),
data_reference->get_data()->get_data_length());
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("write_PAC_store_dataL(): 8 bit VALUE from common:",
pacStoreDBColValPtr8.Ptr(),
pacStoreDBColValPtr8.Size()));
/* Get the reference from the input */
HBufC8* pacStoreDBColRef8 = HBufC8::NewLC(data_reference->get_reference()->get_data_length());
TPtr8 pacStoreDBColRefPtr8 = pacStoreDBColRef8->Des();
pacStoreDBColRefPtr8.Copy(data_reference->get_reference()->get_data(),
data_reference->get_reference()->get_data_length());
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("write_PAC_store_dataL(): 8 bit REFERENCE from common:",
pacStoreDBColRefPtr8.Ptr(),
pacStoreDBColRefPtr8.Size()));
writeToPacStore = EFalse;
TBool isNewEntry(EFalse);
if(data_reference->get_change_status() == eap_pac_store_data_change_status_new)
{
isNewEntry =ETrue;
}
else
{
isNewEntry =EFalse;
}
switch(aPacStoreDataType)
{
case eap_pac_store_data_type_PAC_store_master_key:
{
pacStoreDBColName.Copy(KPacStoreMasterKey);
writeToPacStore = ETrue;
// This can not be a new entry. Only modification possible for this.
// Some times common side provides this as new entry.
isNewEntry = EFalse;
break;
}
case eap_pac_store_data_type_PAC_store_password:
{
//This is not saved anywhere.
break;
}
case eap_pac_store_data_type_PAC_store_device_seed:
{
//This is not saved anywhere.
break;
}
case eap_pac_store_data_type_PAC_store_IAP_reference:
{
//This is not saved anywhere.
break;
}
case eap_pac_store_data_type_PAC_store_group_reference:
{
// This should be saved in FAST special settings table in EAP DB, not in PAC store.
EapTlsPeapUtils::SetEapSettingsDataL(
m_database,
m_index_type,
m_index,
m_tunneling_type,
m_current_eap_type,
KFASTPACGroupDBReferenceCollection,
data_reference->get_data());
writeToPacStore = EFalse;
break;
}
case eap_pac_store_data_type_reference_counter:
{
pacStoreDBColName.Copy(KPacStoreReferenceCounter);
writeToPacStore = ETrue;
// This can not be a new entry. Only modification possible for this.
// Some times common side provides this as new entry.
isNewEntry = EFalse;
break;
}
case eap_pac_store_data_type_PAC_file_password:
{
//This is not saved anywhere.
break;
}
case eap_pac_store_data_type_group_info:
case eap_pac_store_data_type_A_ID_info:
case eap_pac_store_data_type_PAC_info:
{
//These are not saved, as such, anywhere.
break;
}
case eap_pac_store_data_type_group_data:
{
pacStoreDBColName.Copy(KPacStoreGroupValue);
writeToPacStore = ETrue;
break;
}
case eap_pac_store_data_type_A_ID_data:
{
pacStoreDBColName.Copy(KPacStoreAIDValue);
writeToPacStore = ETrue;
break;
}
case eap_pac_store_data_type_PAC_data:
{
pacStoreDBColName.Copy(KPacStorePACValue);
writeToPacStore = ETrue;
break;
}
default:
{
// Unknown data type.
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::WritePACStoreDataL: ERROR: Unknown data type")));
m_eap_fast_completion_status = eap_status_not_found;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
break;
}
} // End : switch(aPacStoreDataType)
if (writeToPacStore)
{
if(data_reference->get_change_status() == eap_pac_store_data_change_status_delete)
{
// We have to delete this entry from PAC store.
iPacStoreDb->RemovePacStoreEntryL(
pacStoreDBColName,
pacStoreDBColValPtr8,
pacStoreDBColRefPtr8);
}
else
{
// Here the entry is either modified or a new entry. isNewEntry will have the correct value.
iPacStoreDb->SetPacStoreDataL(
pacStoreDBColName,
pacStoreDBColValPtr8,
pacStoreDBColRefPtr8,
isNewEntry);
}
m_eap_fast_completion_status = eap_status_ok;
}
if (m_eap_fast_completion_status != eap_status_ok)
{
break;
}
CleanupStack::PopAndDestroy(2); // pacStoreDBColVal8 (pacStoreDBColValPtr8) and
// pacStoreDBColRef8 (pacStoreDBColRefPtr8).
}
else if (data_reference != 0
&& data_reference->get_is_valid() == true
&& data_reference->get_type() == eap_pac_store_data_type_none)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: illegal reference 0x%08x: type %d\n"),
data_reference,
data_reference->get_type()));
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: unknown reference"),
data_reference->get_reference()->get_data(),
data_reference->get_reference()->get_data_length()));
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("ERROR: unknown data"),
data_reference->get_data()->get_data(),
data_reference->get_data()->get_data_length()));
}
}
} // for ()
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::WritePACStoreDataL-End, m_eap_fast_completion_status=%d"),
m_eap_fast_completion_status));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
}
//--------------------------------------------------
// This is commented in eap_am_fast_pac_store_services_c::complete_add_imported_PAC_file().
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::complete_add_imported_PAC_file(
const eap_status_e /* in_completion_status */,
const eap_variable_data_c * const in_imported_PAC_filename,
const eap_variable_data_c * const out_used_group_reference)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: eap_am_type_tls_peap_symbian_c::complete_add_imported_PAC_file(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
m_eap_fast_completion_status = eap_status_ok;
TRAPD(err, CompleteAddImportedPACFileL(in_imported_PAC_filename, out_used_group_reference));
if (err != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::read_PAC_store_data() ERROR: LEAVE from CompleteAddImportedPACFfileL error=%d"),
err));
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(err);
}
m_eap_fast_completion_status = m_partner->set_timer(
this,
KImportFileTimerID, // if nothing in db & remove_IAP_reference called already with 0 -> import
0,
1);
if (m_eap_fast_completion_status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
void eap_am_type_tls_peap_symbian_c::CompleteAddImportedPACFileL(
const eap_variable_data_c * const in_imported_PAC_filename,
const eap_variable_data_c * const out_used_group_reference)
{
RFs aFs;
aFs.Connect( KFileServerDefaultMessageSlots );
HBufC8* buf = HBufC8::NewLC(in_imported_PAC_filename->get_data_length());
TPtr8 bufPtr = buf->Des();
if (in_imported_PAC_filename->get_data_length() != 0)
{
bufPtr.Copy(in_imported_PAC_filename->get_data(), in_imported_PAC_filename->get_data_length());
}
eap_variable_data_c someVariableData(m_am_tools);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::complete_add_imported_PAC_file: Get ImportReference from database")));
EapTlsPeapUtils::GetEapSettingsDataL(
m_database,
m_index_type,
m_index,
m_tunneling_type,
m_current_eap_type,
KFASTPACGroupImportReferenceCollection,
&someVariableData);
HBufC8* ref = HBufC8::NewLC(someVariableData.get_data_length()); // must be defined to correct maxs dir length
TPtr8 refPtr = ref->Des();
if (someVariableData.get_data_length() != 0)
{
refPtr.Copy(someVariableData.get_data(),someVariableData.get_data_length());
HBufC8* tempUserBuf8 = HBufC8::NewLC(someVariableData.get_data_length());
TPtr8 tempUserBufPtr8 = tempUserBuf8->Des();
for (int i = 0; i< someVariableData.get_data_length();i++ )
{
tempUserBufPtr8.Append(refPtr.Ptr()[i++]);
}
refPtr.Copy(tempUserBufPtr8);
CleanupStack::PopAndDestroy(tempUserBuf8);
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::complete_add_imported_PAC_file: NO ImportReference !!!!")));
}
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::complete_add_imported_PAC_file: Set GroupDBReference to database")));
if (out_used_group_reference->get_data_length()>0 && someVariableData.get_data_length()>0)
{
someVariableData.set_copy_of_buffer(out_used_group_reference->get_data(),
out_used_group_reference->get_data_length());
EapTlsPeapUtils::SetEapSettingsDataL(
m_database,
m_index_type,
m_index,
m_tunneling_type,
m_current_eap_type,
KFASTPACGroupDBReferenceCollection,
&someVariableData);
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::complete_add_imported_PAC_file: NO GROUP REFERENCE !!!!")));
}
HBufC* FilePath = HBufC::NewLC(KMaxFileName); // must be defined to correct maxs dir length
TPtr FilePathPtr = FilePath->Des();
HBufC8* FilePath8 = HBufC8::NewLC(KMaxFileName); // must be defined to correct maxs dir length
TPtr8 FilePathPtr8 = FilePath8->Des();
_LIT8(KPacStoreSourceDir, "c:\\private\\101f8ec5\\PACGroup\\"); // in dir are dirs where from files are read
FilePathPtr8.Zero();
FilePathPtr8.Append(KPacStoreSourceDir);
FilePathPtr8.Append(refPtr);
FilePathPtr8.Append(KSeparator);
FilePathPtr8.Append(bufPtr);
FilePathPtr.Copy(FilePathPtr8);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::complete_add_imported_PAC_file: Delete File"),
FilePathPtr.Ptr(),
FilePathPtr.Size()));
if(aFs.Delete(FilePathPtr)!= KErrNone)
{
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::complete_add_imported_PAC_file: Couldn't delete file"),
FilePathPtr.Ptr(),
FilePathPtr.Size()));
m_eap_fast_completion_status = eap_status_file_does_not_exist;
}
CleanupStack::PopAndDestroy(FilePath8);
CleanupStack::PopAndDestroy(FilePath);
CleanupStack::PopAndDestroy(ref);
CleanupStack::PopAndDestroy(buf);
}
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::ContinueInitializePacStore()
// ---------------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::ContinueInitializePacStore()
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ContinueInitializePacStore()")));
TRAPD(error, CheckPasswordTimeValidityL());
if(error != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::ContinueInitializePacStore() ERROR: LEAVE from CheckPasswordTimeValidityL() error=%d"),
error));
}
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: eap_am_type_tls_peap_symbian_c::ContinueInitializePacStore(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
m_eap_fast_completion_status = eap_status_ok;
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ContinueInitializePacStore: Remove removed IAP references")));
m_eap_fast_completion_status = m_partner->set_timer(
this,
KRemoveIAPReferenceTimerID,
0,
1);
}
//--------------------------------------------------
// This is commented in eap_am_fast_pac_store_services_c::complete_remove_PAC().
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::complete_remove_PAC(
const eap_status_e /* completion_status */,
const eap_variable_data_c * const /* out_used_group_reference */)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: crypto_function: eap_am_type_tls_peap_symbian_c::complete_remove_PAC(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_not_supported);
}
//--------------------------------------------------
// This is commented in eap_am_fast_pac_store_services_c::complete_remove_IAP_reference().
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::complete_remove_IAP_reference(
const eap_status_e completion_status)
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: crypto_function: eap_am_type_tls_peap_symbian_c::complete_remove_IAP_reference(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
eap_variable_data_c aIapReference(m_am_tools);
if (aIapReference.get_is_valid() == false)
{
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
eap_variable_data_c aGroupReferenceCollection(m_am_tools);
if (aGroupReferenceCollection.get_is_valid() == false)
{
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
// delete previously removed entry
TRAPD(error, iPacStoreDb->RemoveTheFirstCleanupReferenceEntryL());
if(error != KErrNone)
{
EAP_UNREFERENCED_PARAMETER(completion_status);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::complete_remove_IAP_reference() ERROR: LEAVE from RemoveTheFirstCleanupReferenceEntryL error=%d"),
error));
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(error);
}
TRAPD(error1, iPacStoreDb->GetTheFirstCleanupReferenceEntryL(
&aIapReference,
&aGroupReferenceCollection));
if(error1 != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::complete_remove_IAP_reference() ERROR: LEAVE from GetTheFirstCleanupReferenceEntryL error=%d"),
error1));
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(error1);
}
if ((aIapReference.get_data_length() > 0) && !m_completed_with_zero)
{
m_eap_fast_completion_status = m_partner->set_timer(
this,
KRemoveIAPReferenceTimerID,
0,
1);
if (m_eap_fast_completion_status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
}
else if (m_completed_with_zero)
{
m_eap_fast_completion_status = m_partner->set_timer(
this,
KImportFileTimerID, // if nothing in db & remove_IAP_reference called already with 0 -> import
0,
1);
if (m_eap_fast_completion_status != eap_status_ok)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
}
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
// This is commented in eap_am_fast_pac_store_services_c::cancel_PAC_store_operations().
EAP_FUNC_EXPORT eap_status_e eap_am_type_tls_peap_symbian_c::cancel_PAC_store_operations()
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: %s: crypto_function: eap_am_type_tls_peap_symbian_c::cancel_PAC_store_operations(): ")
EAPL("this = 0x%08x\n"),
(m_is_client == true ? "client": "server"),
this));
EAP_TRACE_RETURN_STRING(m_am_tools, "returns: eap_am_type_tls_peap_symbian_c::cancel_PAC_store_operations()");
if(iPacStoreDb)
iPacStoreDb->Cancel();
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_ok);
}
//--------------------------------------------------
EAP_FUNC_EXPORT eap_status_e
eap_am_type_tls_peap_symbian_c::initialize_PAC_store(
const eap_fast_completion_operation_e aCompletionOperation,
const eap_fast_initialize_pac_store_completion_e aCompletion )
{
EAP_TRACE_BEGIN(m_am_tools, TRACE_FLAGS_DEFAULT);
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::initialize_PAC_store IN\n")));
iCompletionOperation = aCompletionOperation;
iCompletion = aCompletion;
TRAPD( err, FixOldTableForPacStoreInitL() );
if ( err != KErrNone )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"ERROR: eap_am_type_tls_peap_symbian_c::initialize_PAC_store() \
Failed to fix table.\n" ) ) );
}
if ( iPacStoreDb )
{
TBool isInitialized = EFalse;
TRAP( err, isInitialized = iPacStoreDb->IsInitializedL() );
if ( err == KErrNone )
{
if ( !isInitialized )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::initialize_PAC_store(): PAC store initialized, erase memorystore")));
m_tls_application->remove_cached_pac_store_data();
TRAP( err, iPacStoreDb->SetPacStoreInitValueL(
CPacStoreDatabase::EPacStoreInitialized ) );
if ( err != KErrNone )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::initialize_PAC_store(): ERROR: Leave in SetPacStoreInitValueL()")));
}
}
// asynch. call, return immediately
iPacStoreDb->CreateDeviceSeedAsynch();
}
else
{
EAP_TRACE_DEBUG_SYMBIAN( ( _L(
"ERROR: eap_am_type_tls_peap_symbian_c::initialize_PAC_store(): Leave, IsInitializedL(), err=%d.\n"),
err ) );
return m_am_tools->convert_am_error_to_eapol_error(err);
}
}
m_eap_fast_completion_status = eap_status_pending_request;
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::initialize_PAC_store() OUT\n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
// ---------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::indicates_eap_fast_provisioning_starts
// ---------------------------------------------------------------------------
//
EAP_FUNC_EXPORT
eap_status_e eap_am_type_tls_peap_symbian_c::indicates_eap_fast_provisioning_starts(
const eap_fast_completion_operation_e provisioning_mode,
const eap_fast_pac_type_e pac_type )
{
eap_status_e status( eap_status_ok );
m_provisioning_mode = provisioning_mode; // save provis. mode
TInt err = KErrNone;
if ( !iEapFastActiveWaitNote )
{
TRAP( err, iEapFastActiveWaitNote = CEapFastActive::NewL( this ) );
}
if ( !iEapFastActiveNotes )
{
TRAP( err, iEapFastActiveNotes = CEapFastActive::NewL( this ) );
}
if ( err != KErrNone )
{
status = eap_status_allocation_error;
}
/**
* The note is started in a separate active object.
* When user cancels waiting note,
* SendErrorNotification( eap_status_user_cancel_authentication )
* will be called in iEapFastActiveWaitNote->RunL().
* Otherwise note is stopped using iEapFastActiveWaitNote.Start() method.
*/
TBool startedOk = ETrue;
if ( pac_type == eap_fast_pac_type_tunnel_pac
&&
provisioning_mode ==
eap_fast_completion_operation_server_authenticated_provisioning_mode
&&
status == eap_status_ok )
{
EAP_TRACE_DEBUG_SYMBIAN( ( _L("eap_am_type_tls_peap_symbian_c:: \
indicates_eap_fast_provisioning_starts Authenticated provisioning!")));
startedOk = iEapFastActiveWaitNote->Start(
CEapFastActive::EEapFastActiveStartAuthProvWaitNote );
}
else if (
pac_type == eap_fast_pac_type_tunnel_pac
&&
provisioning_mode ==
eap_fast_completion_operation_server_unauthenticated_provisioning_mode_ADHP
&&
status == eap_status_ok )
{
EAP_TRACE_DEBUG_SYMBIAN( (_L("eap_am_type_tls_peap_symbian_c:: \
indicates_eap_fast_provisioning_starts UnAuthenticated provisioning!")));
startedOk = iEapFastActiveWaitNote->Start(
CEapFastActive::EEapFastActiveStartUnauthProvWaitNote );
}
if ( startedOk == EFalse )
{
status = eap_status_process_general_error;
}
if ( status != eap_status_ok )
{
EAP_TRACE_DEBUG_SYMBIAN( (_L("eap_am_type_tls_peap_symbian_c:: \
indicates_eap_fast_provisioning_starts ERROR: status=%d."), status ) );
}
return status;
}
// ---------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::indicates_eap_fast_provisioning_ends
// ---------------------------------------------------------------------------
//
EAP_FUNC_EXPORT
eap_status_e eap_am_type_tls_peap_symbian_c::indicates_eap_fast_provisioning_ends(
const bool provisioning_successfull,
const eap_fast_completion_operation_e provisioning_mode,
const eap_fast_pac_type_e pac_type )
{
EAP_TRACE_DEBUG_SYMBIAN( (_L("eap_am_type_tls_peap_symbian_c:: \
indicates_eap_fast_provisioning_ends()")));
EAP_UNREFERENCED_PARAMETER(provisioning_mode);
eap_status_e status( eap_status_ok );
if ( pac_type == eap_fast_pac_type_tunnel_pac )
{
// stop wait note;
if ( iEapFastActiveWaitNote )
{
if ( iEapFastActiveWaitNote->IsActive() )
{
iEapFastActiveWaitNote->Cancel();
}
delete iEapFastActiveWaitNote;
iEapFastActiveWaitNote = NULL;
}
if ( iEapFastActiveNotes )
{
if( provisioning_successfull )
{
// synch. call
iEapFastActiveNotes->Start( CEapFastActive::
EEapFastActiveShowProvSuccessNote, ETrue );
}
else
{
// synch. call
iEapFastActiveNotes->Start( CEapFastActive::
EapFastActiveShowProvNotSuccessNote, ETrue );
}
}
} // if ( pac_type == eap_fast_pac_type_tunnel_pac )
return status;
}
#endif //#if defined(USE_FAST_EAP_TYPE)
#ifdef USE_PAC_STORE
void eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL(
const eap_pac_store_data_type_e aPacStoreDataType,
eap_variable_data_c * aPacStoreData,
const eap_variable_data_c * const aPacStoreReference /*=NULL*/)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL Start aPacStoreDataType=%d"),
aPacStoreDataType));
if(m_current_eap_type != eap_type_fast || iPacStoreDb == NULL)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL ERROR: Unknown EAP type or No PAC store DB!")));
// Can't proceed.
User::Leave(KErrNotSupported);
}
TBuf<KMaxDBFieldNameLength> pacStoreDBColName;
HBufC8* pacStoreDBColValBuf8(NULL);
eap_status_e status(eap_status_ok);
TInt error(KErrNone);
TBuf<KDbMaxName> dbTableName;
HBufC8* aDbBinaryColumnValue(NULL);
switch(aPacStoreDataType)
{
case eap_pac_store_data_type_PAC_store_master_key:
{
pacStoreDBColName.Copy(KPacStoreMasterKey);
pacStoreDBColValBuf8 = HBufC8::NewLC(KMaxMasterKeyLengthInDB);
break;
}
case eap_pac_store_data_type_PAC_store_password:
{
pacStoreDBColName.Copy(cf_str_EAP_FAST_PAC_store_password_literal);
pacStoreDBColValBuf8 = HBufC8::NewLC(KMaxPasswordLengthInDB);
break;
}
case eap_pac_store_data_type_PAC_store_device_seed:
{
// Not in PAC store. This should not be called.
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL ERROR: This is not in PAC store DB!")));
return;
}
case eap_pac_store_data_type_PAC_store_IAP_reference:
{
// Not in PAC store. This should not be called.
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL ERROR: This is not in PAC store DB!")));
return;
}
case eap_pac_store_data_type_PAC_store_group_reference:
{
// Not in PAC store. This should not be called.
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL ERROR: This is not in PAC store DB!")));
return;
}
case eap_pac_store_data_type_reference_counter:
{
pacStoreDBColName.Copy(KPacStoreReferenceCounter);
pacStoreDBColValBuf8 = HBufC8::NewLC(KMaxRefCounterLengthInDB);
break;
}
case eap_pac_store_data_type_PAC_file_password:
{
// Not in PAC store. This should not be called.
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL ERROR: This is not in PAC store DB!")));
return;
}
case eap_pac_store_data_type_group_info:
{
dbTableName = KPacStoreGroupsTableName;
break;
}
case eap_pac_store_data_type_A_ID_info:
{
dbTableName = KPacStoreAIDsTableName;
break;
}
case eap_pac_store_data_type_PAC_info:
{
dbTableName = KPacStorePACsTableName;
break;
}
case eap_pac_store_data_type_group_data:
{
// Memory for aDbBinaryColumnValue is allocated in CPacStoreDatabase::GetPacStoreDataL
pacStoreDBColName.Copy(KPacStoreGroupValue);
break;
}
case eap_pac_store_data_type_A_ID_data:
{
// Memory for aDbBinaryColumnValue is allocated in CPacStoreDatabase::GetPacStoreDataL
pacStoreDBColName.Copy(KPacStoreAIDValue);
break;
}
case eap_pac_store_data_type_PAC_data:
{
// Memory for aDbBinaryColumnValue is allocated in CPacStoreDatabase::GetPacStoreDataL
pacStoreDBColName.Copy(KPacStorePACValue);
break;
}
default:
{
break;
}
} // End : switch(aPacStoreDataType)
switch(aPacStoreDataType)
{
case eap_pac_store_data_type_PAC_store_master_key:
case eap_pac_store_data_type_PAC_store_password:
case eap_pac_store_data_type_reference_counter:
{
TPtr8 pacStoreDBColValPtr8 = pacStoreDBColValBuf8->Des();
TRAPD( err, iPacStoreDb->GetPacStoreDataL(pacStoreDBColName, pacStoreDBColValPtr8) );
if ( err )
{
if(pacStoreDBColValBuf8 != NULL)
{
CleanupStack::PopAndDestroy(pacStoreDBColValBuf8);
pacStoreDBColValBuf8 = NULL;
User::Leave( err );
}
}
status = aPacStoreData->set_copy_of_buffer(
pacStoreDBColValPtr8.Ptr(),
pacStoreDBColValPtr8.Size());
error = m_am_tools->convert_eapol_error_to_am_error(status);
break;
}
case eap_pac_store_data_type_group_data:
case eap_pac_store_data_type_A_ID_data:
case eap_pac_store_data_type_PAC_data:
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL: To get GROUP, PAC or AID data")));
if(aPacStoreReference == NULL )//|| aPacStoreReference->get_data_length() <= 0)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL ERROR: Empty reference")));
// Can't proceed.
User::Leave(KErrArgument);
}
if ( aPacStoreReference->get_data_length() <= 0 )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL reset aPacStoreData.")));
aPacStoreData->reset();
break;
}
HBufC8 * reference8 = HBufC8::NewLC(aPacStoreReference->get_data_length());
TPtr8 referencePtr8 = reference8->Des();
referencePtr8.Copy(aPacStoreReference->get_data(),
aPacStoreReference->get_data_length());
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL: reference to DB",
referencePtr8.Ptr(),
referencePtr8.Size()));
TPtr8 pacStoreDBColDataValPtr8(0,0);
TRAPD( err, iPacStoreDb->GetPacStoreDataL(pacStoreDBColName, pacStoreDBColDataValPtr8, referencePtr8, &aDbBinaryColumnValue) );
if ( err )
{
CleanupStack::PopAndDestroy(1); // reference8.
if(pacStoreDBColValBuf8 != NULL)
{
CleanupStack::PopAndDestroy(pacStoreDBColValBuf8);
pacStoreDBColValBuf8 = NULL;
delete (aDbBinaryColumnValue);
User::Leave( err );
}
}
CleanupStack::PopAndDestroy(1); // reference8.
if (aDbBinaryColumnValue != NULL)
{
TPtr8 aDbBinaryColumnValuePtr = aDbBinaryColumnValue->Des();
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL, data size=%d"),
aDbBinaryColumnValuePtr.Size()));
if (aDbBinaryColumnValuePtr.Size() > 0)
{
status = aPacStoreData->set_copy_of_buffer(
aDbBinaryColumnValuePtr.Ptr(),
aDbBinaryColumnValuePtr.Size());
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::No data to fill !!")));
}
delete (aDbBinaryColumnValue);
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::Data NULL !!")));
}
error = m_am_tools->convert_eapol_error_to_am_error(status);
delete (pacStoreDBColDataValPtr8.Ptr());
break;
}
case eap_pac_store_data_type_group_info:
case eap_pac_store_data_type_A_ID_info:
case eap_pac_store_data_type_PAC_info:
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL:ERROR: Calls for INFOs should not come here !!!")));
break;
}
default:
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL - UNSUPPORTED Column !!!")));
break;
}
}// End: switch(aPacStoreDataType)
if(pacStoreDBColValBuf8 != NULL)
{
CleanupStack::PopAndDestroy(pacStoreDBColValBuf8);
}
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::GetPacStoreDbDataL-End")));
User::LeaveIfError(error); // This could be success or error. Does't matter.
}
#endif // End: #ifdef USE_PAC_STORE
//--------------------------------------------------
#if defined(USE_FAST_EAP_TYPE)
eap_status_e eap_am_type_tls_peap_symbian_c::ShowNotifierItemAndGetResponse(
EEapFastNotifierUiItem aNotifierUiItem, TBool aSetActive )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ShowNotifierItem aNotifierUiItem=%d, ActiveStatus=%d "),
aNotifierUiItem, IsActive()));
if ( aSetActive && IsActive() )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("ShowNotifierItemAndGetResponse: Already active when tried to show Notifier")));
return eap_status_device_busy;
}
eap_status_e status( eap_status_ok );
if( !m_is_notifier_connected )
{
TInt error = m_notifier.Connect();
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ShowNotifierItem - m_notifier.Connect() returned error=%d\n"), error));
if( error != KErrNone)
{
// Can not connect to notifier.
return m_am_tools->convert_am_error_to_eapol_error(error);
}
m_is_notifier_connected = ETrue; // Got connectted to notifier.
}
// Update the values needed for notifier.
m_notifier_data_to_user->iEapFastNotifierUiItem = aNotifierUiItem;
EAP_TRACE_DEBUG_SYMBIAN(
(_L("m_notifier_data_pckg_to_user"),
m_notifier_data_pckg_to_user->Ptr(),
m_notifier_data_pckg_to_user->Size()));
m_notifier_data_from_user->iEapFastNotifierBuffer.Delete(0,KMaxEapFastNotifierBufLength);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ShowNotifierItem - StartNotifierAndGetResponse")));
m_notifier.StartNotifierAndGetResponse(
iStatus,
KEapFastNotifierUid,
*m_notifier_data_pckg_to_user,
*m_notifier_data_pckg_from_user);
if ( aSetActive )
{
m_notifier_complete = ETrue;
SetActive();
}
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ShowNotifierItem - End")));
return status;
}
//--------------------------------------------------
eap_status_e eap_am_type_tls_peap_symbian_c::RemoveIAPReference()
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::RemoveIAPReference - Start")));
m_eap_fast_completion_status = eap_status_ok;
eap_variable_data_c aIapReference(m_am_tools);
if (aIapReference.get_is_valid() == false)
{
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
eap_variable_data_c aGroupReferenceCollection(m_am_tools);
if (aGroupReferenceCollection.get_is_valid() == false)
{
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
TRAPD(error, iPacStoreDb->GetTheFirstCleanupReferenceEntryL(
&aIapReference,
&aGroupReferenceCollection));
if(error != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::RemoveIAPReference() ERROR: LEAVE from GetTheFirstCleanupReferenceEntryL error=%d"),
error));
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(error);
}
if (aIapReference.get_data_length() > 0)
{
eap_fast_pac_store_data_c * const group_reference_and_data = new eap_fast_pac_store_data_c(m_am_tools);
m_eap_fast_completion_status = group_reference_and_data->get_writable_data()->set_copy_of_buffer(aGroupReferenceCollection.get_data(), aGroupReferenceCollection.get_data_length());
if (aIapReference.get_data_length() > 0)
m_completed_with_zero = EFalse;
else
m_completed_with_zero = ETrue;
if (m_eap_fast_completion_status == eap_status_ok)
{
m_eap_fast_completion_status = m_tls_application->remove_IAP_reference(
&aIapReference,
group_reference_and_data);
}
}
else
{
m_eap_fast_completion_status = m_partner->set_timer(
this,
KImportFileTimerID, // if nothing in db, go right to file read
0,
1);
}
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::RemoveIAPReference - End")));
return m_eap_fast_completion_status;
}
eap_status_e eap_am_type_tls_peap_symbian_c::ImportFilesL()
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL - Start")));
CDir* files;
RFs aFs;
aFs.Connect( KFileServerDefaultMessageSlots );
m_eap_fast_completion_status = eap_status_pending_request;
TBool aSuccess = EFalse;
eap_variable_data_c ImportReference(m_am_tools);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: Get ImportReference from database")));
EapTlsPeapUtils::GetEapSettingsDataL(
m_database,
m_index_type,
m_index,
m_tunneling_type,
m_current_eap_type,
KFASTPACGroupImportReferenceCollection,
&ImportReference);
HBufC8* group_reference8 = HBufC8::NewLC(KMaxFileName);
TPtr8 group_referencePtr8 = group_reference8->Des();
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::ImportFilesL: ImportReference"),
ImportReference.get_data(),
ImportReference.get_data_length()));
if (ImportReference.get_data_length() != 0)
{
group_referencePtr8.Copy(ImportReference.get_data(), ImportReference.get_data_length());
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::ImportFilesL: Reference"),
group_referencePtr8.Ptr(),
group_referencePtr8.Size()));
}
else
{
m_eap_fast_completion_status = m_partner->set_timer(
this,
KHandleCompletePacstoreOkTimerID,
&m_eap_fast_completion_status,
1);
CleanupStack::PopAndDestroy(group_reference8);
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
HBufC8* tempUserBuf8 = HBufC8::NewLC(ImportReference.get_data_length());
TPtr8 tempUserBufPtr8 = tempUserBuf8->Des();
for (int i = 0; i< ImportReference.get_data_length();i++ )
{
tempUserBufPtr8.Append(group_referencePtr8.Ptr()[i++]);
}
group_referencePtr8.Copy(tempUserBufPtr8);
CleanupStack::PopAndDestroy(tempUserBuf8);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::ImportFilesL: Reformatted Reference"),
group_referencePtr8.Ptr(),
group_referencePtr8.Size()));
TInt fileCounter=0;
TBool directoryEmpty = false;
TBool directoryExists = true;
HBufC* buf2 = HBufC::NewLC(KMaxPath);
HBufC8* filename8 = HBufC8::NewLC(KMaxFileName);
TPtr FileNamePtr = buf2->Des();
TUint filesize =0;
TPtr8 filenamePtr8 = filename8->Des();
TBool badFile = false;
HBufC* Path = HBufC::NewLC(KMaxFileName);
TPtr PathPtr = Path->Des();
HBufC8* Path8 = HBufC8::NewLC(KMaxFileName);
TPtr8 PathPtr8 = Path8->Des();
HBufC8* readData = NULL;
TBool FileFound(EFalse);
PathPtr8.Zero();
PathPtr8.Append(KPacStoreSourceDir);
PathPtr8.Append(group_referencePtr8);
PathPtr8.Append(KSeparator);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::ImportFilesL: Path8"),
PathPtr8.Ptr(),
PathPtr8.Size()));
PathPtr.Zero();
PathPtr.Copy(PathPtr8);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::ImportFilesL: Path"),
PathPtr.Ptr(),
PathPtr.Size()));
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: Check directory availability")));
if (aFs.GetDir(PathPtr, KEntryAttNormal, ESortByName, files) == KErrNone)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: Files %d"),
files->Count()));
while (!FileFound && (fileCounter < files->Count()))
{
directoryExists = true;
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: Get directory contents")));
directoryEmpty = false;
while( fileCounter < files->Count() || (!FileFound))
{
if (!((*files)[fileCounter].IsDir()))
{
filesize = (*files)[fileCounter].iSize;
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: File size %d"),
filesize));
filenamePtr8.Copy((*files)[fileCounter++].iName);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::ImportFilesL: Filename"),
filenamePtr8.Ptr(),
filenamePtr8.Size()));
FileFound = ETrue;
}
else
{
fileCounter++;
}
}
if (!FileFound)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: DirectoryEmpty")));
directoryEmpty = true;
}
if (directoryEmpty == true || directoryExists == false || FileFound == EFalse)
{
if (directoryExists)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: We would remove directory")));
{
m_eap_fast_completion_status = m_partner->set_timer(
this,
KHandleCompletePacstoreOkTimerID,
&m_eap_fast_completion_status,
1);
if (readData != NULL)
CleanupStack::PopAndDestroy(readData);
CleanupStack::PopAndDestroy(5); // Path, Path8, filename, buf2, group_reference8
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
}
}
else if(directoryEmpty == false && directoryExists == true && FileFound != EFalse)
{
PathPtr8.Zero();
PathPtr8.Append(KPacStoreSourceDir);
PathPtr8.Append(group_referencePtr8);
PathPtr8.Append(KSeparator);
PathPtr8.Append(filenamePtr8);
EAP_TRACE_DATA_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::ImportFilesL: Path8"),
PathPtr8.Ptr(),
PathPtr8.Size()));
PathPtr.Zero();
PathPtr.Copy(PathPtr8);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: Read file")));
RFile file;
if(file.Open(aFs, PathPtr, EFileRead)==KErrNone)
{
readData= HBufC8::NewLC(filesize);
TPtr8 readDataPtr = readData->Des();
file.Read(readDataPtr);
file.Close();
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: Copy data")));
eap_variable_data_c * const in_imported_PAC_data = new eap_variable_data_c(m_am_tools);
// eap_automatic_variable_c can be used in this block because no functions are leaving here.
eap_automatic_variable_c<eap_variable_data_c> automatic_in_imported_PAC_data(m_am_tools, in_imported_PAC_data);
if (in_imported_PAC_data == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
m_eap_fast_completion_status = in_imported_PAC_data->set_copy_of_buffer(readDataPtr.Ptr(), readDataPtr.Size());
eap_fast_pac_store_data_c * const in_opt_group_reference_and_data = new eap_fast_pac_store_data_c(m_am_tools);
// eap_automatic_variable_c can be used in this block because no functions are leaving here.
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_in_opt_group_reference_and_data(m_am_tools, in_opt_group_reference_and_data);
if (in_opt_group_reference_and_data == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
in_opt_group_reference_and_data->get_writable_data()->set_copy_of_buffer(readDataPtr.Ptr(), readDataPtr.Size());
eap_variable_data_c * const in_imported_PAC_filename = new eap_variable_data_c(m_am_tools);
// eap_automatic_variable_c can be used in this block because no functions are leaving here.
eap_automatic_variable_c<eap_variable_data_c> automatic_in_imported_PAC_filename(m_am_tools, in_imported_PAC_filename);
if (in_imported_PAC_filename == 0)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
m_eap_fast_completion_status = in_imported_PAC_filename->set_copy_of_buffer(filenamePtr8.Ptr(), filenamePtr8.Size());
eap_variable_data_c IAP_reference(m_am_tools);
if (IAP_reference.get_is_valid() == false)
{
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
return EAP_STATUS_RETURN(m_am_tools, eap_status_allocation_error);
}
u32_t reference[] = {1ul, 2ul};
if (IAP_reference.get_data_length() != 0)
m_eap_fast_completion_status = IAP_reference.set_copy_of_buffer(reference, sizeof(reference));
else
m_eap_fast_completion_status = IAP_reference.set_copy_of_buffer(EAP_FAST_ZERO_REFERENCE, sizeof(EAP_FAST_ZERO_REFERENCE));
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: Complete operation")));
if (m_eap_fast_completion_status != eap_status_ok)
{
if (readData != NULL)
{
CleanupStack::PopAndDestroy(readData);
}
CleanupStack::PopAndDestroy(5); // filename, buf2, group_reference8, Path, path8
delete files;
return EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
}
else
{
m_eap_fast_completion_status = m_tls_application->add_imported_PAC_file(
&IAP_reference,
in_opt_group_reference_and_data,
in_imported_PAC_data,
in_imported_PAC_filename);
aSuccess = ETrue;
}
}
}
else
{
badFile = true;
}
}
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: No Directory")));
directoryExists = false;
}
if (readData != NULL)
{
CleanupStack::PopAndDestroy(readData);
}
CleanupStack::PopAndDestroy(5); // Path, filename8, buf2, Path8, group_reference8
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL: Operation failed or Complete")));
delete files;
if (m_eap_fast_completion_status != eap_status_pending_request || aSuccess == EFalse)
{
if(badFile == true || directoryEmpty == true || directoryExists == false)
{
if (aSuccess == EFalse)
m_eap_fast_completion_status = eap_status_ok;
m_eap_fast_completion_status = m_partner->set_timer(
this,
KHandleCompletePacstoreNokTimerID,
&m_eap_fast_completion_status,
1);
}
else
{
m_eap_fast_completion_status = m_partner->set_timer(
this,
KHandleCompletePacstoreOkTimerID,
&m_eap_fast_completion_status,
1);
}
}
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ImportFilesL - End")));
return m_eap_fast_completion_status;
}
// ----------------------------------------------------------------------------
eap_status_e eap_am_type_tls_peap_symbian_c::PasswordQueryL()
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::PasswordQueryL")));
m_pacStorePWBuf8 = HBufC8::NewLC(m_userResponse.get_data_length());
TPtr8 pacStorePWPtr8 = m_pacStorePWBuf8->Des();
pacStorePWPtr8.Copy(m_userResponse.get_data(),m_userResponse.get_data_length() );
m_PAC_store_password.set_copy_of_buffer(m_userResponse.get_data(), m_userResponse.get_data_length());
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::PasswordQueryL:PW used for masterkey verification (8bits)",
pacStorePWPtr8.Ptr(),
pacStorePWPtr8.Size()));
if (iPacStoreDb->IsMasterKeyPresentL() && pacStorePWPtr8.Size()>0 )
m_verificationStatus = iPacStoreDb->IsMasterKeyAndPasswordMatchingL(pacStorePWPtr8);
if ((pacStorePWPtr8.Size()==0 && (m_state == EPasswordQuery || m_state == EMasterkeyQuery ))
|| m_userAction == EEapFastNotifierUserActionCancel || m_state == EPasswordCancel)
{
m_verificationStatus = EFalse;
m_state = EPasswordCancel;
CleanupStack::PopAndDestroy(m_pacStorePWBuf8);
m_eap_fast_completion_status = m_partner->set_timer(
this,
KHandleReadPacstoreTimerID,
&m_eap_fast_completion_status,
0);
return m_eap_fast_completion_status;
}
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST:eap_am_type_tls_peap_symbian_c::PasswordQueryL:State:%d Prev_State:%d verificationstatus:%d"),
m_state,
m_prev_state,
m_verificationStatus));
eap_status_e m_eap_fast_completion_status(eap_status_ok);
if (m_state == EPasswordQuery)
{
m_state = EWrongPassword;
if(m_verificationStatus == EFalse)
{
CleanupStack::PopAndDestroy(m_pacStorePWBuf8);
m_eap_fast_completion_status = ShowNotifierItemAndGetResponse(
EEapFastNotifierWrongPacStorePwNote, ETrue );
return m_eap_fast_completion_status;
}
else
{
m_eap_fast_completion_status = m_partner->set_timer(
this,
KHandleReadPacstoreTimerID,
&m_eap_fast_completion_status,
0);
CleanupStack::PopAndDestroy(m_pacStorePWBuf8);
return m_eap_fast_completion_status;
}
}
if (m_state == EWrongPassword)
{
m_state = EPasswordQuery;
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST:eap_am_type_tls_peap_symbian_c::PasswordQueryL (first pw ?):State:%d Prev_State:%d verificationstatus:%d"),
m_state,
m_prev_state,
m_verificationStatus));
pacStorePWPtr8.Zero();
if (m_verificationStatus == EFalse)
m_eap_fast_completion_status = ShowNotifierItemAndGetResponse(
EEapFastNotifierPacStorePwQuery, ETrue );
else
m_eap_fast_completion_status = m_partner->set_timer(
this,
KHandleReadPacstoreTimerID,
&m_eap_fast_completion_status,
0);
CleanupStack::PopAndDestroy(m_pacStorePWBuf8);
return m_eap_fast_completion_status;
}
if (m_PAC_store_password.get_data_length()>0 && m_state == EMasterkeyQuery)
{
if ( m_verificationStatus != EFalse)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::PasswordQueryL - EMasterkeyQuery - OK")));
}
else // temporary before masterkey creation is done dynamically !!!
{
m_eap_fast_completion_status = ShowNotifierItemAndGetResponse(
EEapFastNotifierCreateMasterkeyQuery, ETrue );
}
}
CleanupStack::PopAndDestroy(m_pacStorePWBuf8);
return m_eap_fast_completion_status;
}
eap_status_e eap_am_type_tls_peap_symbian_c::CompletePasswordQueryL()
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::CompletePasswordQueryL")));
// m_PAC_store_password should have the PW now. Proceed as normal case.
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
return m_eap_fast_completion_status;
}
//eap_pac_store_data_type_PAC_store_password
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::CompletePasswordQueryL()Datatype=%d"),
m_pacStoreDataRefType));
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::CompletePasswordQueryL()Reference=%d"),
m_data_reference.get_reference()->get_data(m_data_reference.get_reference()->get_data_length())));
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::CompletePasswordQueryL()Data=%d"),
m_PAC_store_password.get_data(m_PAC_store_password.get_data_length())));
new_data->set_type(eap_pac_store_data_type_PAC_store_password); //m_pacStoreDataRefType
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(m_data_reference.get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
return m_eap_fast_completion_status;
}
if(m_PAC_store_password.get_data_length() >0)
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&m_PAC_store_password);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
return m_eap_fast_completion_status;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_new_references_and_data_blocks.add_object(new_data, true); // m_ready_references_and_data_blocks
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("EAP-FAST: eap_am_type_tls_peap_symbian_c::CompletePasswordQueryL eap_pac_store_data_type_PAC_store_password - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
return m_eap_fast_completion_status;
}
m_both_completed++;
return m_eap_fast_completion_status;
}
eap_status_e eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL(eap_status_e status)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL")));
if (status == eap_status_ok && (m_new_references_and_data_blocks.get_object_count()>0))
{
for (u32_t ind = 0ul; ind < m_ready_references_array_index; ++ind)
{
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
new_data->set_type(m_references_and_data_blocks.get_object(ind)->get_type());
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(m_references_and_data_blocks.get_object(ind)->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(m_references_and_data_blocks.get_object(ind)->get_data());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_ready_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("Final_complete_read_PAC_store_data - added original data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
}
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
new_data->set_type(m_new_references_and_data_blocks.get_object(m_ready_references_array_index)->get_type());
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(m_new_references_and_data_blocks.get_object(m_ready_references_array_index)->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(m_new_references_and_data_blocks.get_object(m_ready_references_array_index)->get_data());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_ready_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL - added extra data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
for (u32_t ind = m_ready_references_array_index; ind < m_references_and_data_blocks.get_object_count(); ++ind)
{
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
new_data->set_type(m_references_and_data_blocks.get_object(ind)->get_type());
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(m_references_and_data_blocks.get_object(ind)->get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(m_references_and_data_blocks.get_object(ind)->get_data());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_ready_references_and_data_blocks.add_object(new_data, true);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
return status;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("Final_complete_read_PAC_store_data - added original data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
}
if (status == eap_status_ok)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL: index=%d, original objects=%d, new=%d total=%d"),
m_ready_references_array_index,
m_references_and_data_blocks.get_object_count(),
m_new_references_and_data_blocks.get_object_count(),
m_ready_references_and_data_blocks.get_object_count()));
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL Reset unsent data")));
m_references_and_data_blocks.reset();
m_new_references_and_data_blocks.reset();
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL Reset Done")));
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_ready_references_and_data_blocks);
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_eap_fast_completion_status = eap_status_user_cancel_authentication;
m_new_references_and_data_blocks.reset();
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
}
}
else
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL:status nok")));
m_eap_fast_completion_status = eap_status_user_cancel_authentication;
m_new_references_and_data_blocks.reset();
m_ready_references_and_data_blocks.reset();
eap_status_e status = m_tls_application->complete_read_PAC_store_data(
m_eap_fast_completion_status,
m_eap_fast_pac_store_pending_operation,
&m_references_and_data_blocks);
}
TRAPD(error, UpdatePasswordTimeL());
if(error != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::FinalCompleteReadPACStoreDataL ERROR: LEAVE from UpdatePasswordTimeL() error=%d"),
error));
}
return status;
}
//--------------------------------------------------
eap_status_e eap_am_type_tls_peap_symbian_c::CompleteFilePasswordQueryL()
{
eap_fast_pac_store_data_c * const new_data = new eap_fast_pac_store_data_c(m_am_tools);
eap_automatic_variable_c<eap_fast_pac_store_data_c> automatic_new_data(
m_am_tools, new_data);
if (new_data == 0)
{
m_eap_fast_completion_status = eap_status_allocation_error;
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
return m_eap_fast_completion_status;
}
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::CompleteFilePasswordQueryL()Datatype=%d"),
m_pacStoreDataRefType));
new_data->set_type(eap_pac_store_data_type_PAC_file_password); //m_pacStoreDataRefType
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::CompleteFilePasswordQueryL()Reference=%d"),
m_data_reference.get_reference()->get_data(m_data_reference.get_reference()->get_data_length())));
// Set the reference.
m_eap_fast_completion_status = new_data->get_writable_reference()->set_copy_of_buffer(m_data_reference.get_reference());
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
return m_eap_fast_completion_status;
}
m_eap_fast_completion_status = new_data->get_writable_data()->set_copy_of_buffer(&m_userResponse);
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
return m_eap_fast_completion_status;
}
automatic_new_data.do_not_free_variable();
m_eap_fast_completion_status = m_new_references_and_data_blocks.add_object(new_data, true); // m_ready_references_and_data_blocks
if (m_eap_fast_completion_status != eap_status_ok)
{
(void) EAP_STATUS_RETURN(m_am_tools, m_eap_fast_completion_status);
return m_eap_fast_completion_status;
}
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("EAP-FAST: eap_am_type_tls_peap_symbian_c::CompleteFilePasswordQueryL eap_pac_store_data_type_PAC_file_password - added data",
(new_data->get_data())->get_data((new_data->get_data())->get_data_length()),
(new_data->get_data())->get_data_length()));
m_both_completed++;
return m_eap_fast_completion_status;
}
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::CompleteNotifier
// ---------------------------------------------------------
//
eap_status_e eap_am_type_tls_peap_symbian_c::CompleteNotifierL()
{
eap_status_e status( eap_status_ok );
switch ( m_state )
{
case EPasswordCancel:
case EPasswordQuery:
case EWrongPassword:
case EFilePasswordQuery:
case EMasterkeyQuery:
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("m_notifier_data_pckg_from_user"),
m_notifier_data_pckg_from_user->Ptr(),
m_notifier_data_pckg_from_user->Size()));
if ( iStatus.Int() == KErrCancel )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::CompleteNotifierL - User cancelled the notifier item")));
m_userAction = EEapFastNotifierUserActionCancel;
}
else if( iStatus.Int() != KErrNone )
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::CompleteNotifierL - ERROR: Notifier error=%d"),
iStatus.Int()));
return m_am_tools->convert_am_error_to_eapol_error(iStatus.Int());
}
EAP_TRACE_DEBUG_SYMBIAN(
(_L("CompleteNotifierL - Notifier return UiItem=%d, UserAction=%d"),
m_notifier_data_from_user->iEapFastNotifierUiItem,
m_notifier_data_from_user->iEapFastNotifierUserAction));
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("CompleteNotifierL:UserInput:",
m_notifier_data_from_user->iEapFastNotifierBuffer.Ptr(),
m_notifier_data_from_user->iEapFastNotifierBuffer.Size()));
if ( m_notifier_data_from_user->iEapFastNotifierBuffer.Size() > 0 )
{
HBufC8* notifier_data8 = HBufC8::NewLC(m_notifier_data_from_user->iEapFastNotifierBuffer.Size());
TPtr8 notifier_dataPtr8 = notifier_data8->Des();
notifier_dataPtr8.Copy(m_notifier_data_from_user->iEapFastNotifierBuffer); // Unicode -> ascii.
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::CompleteNotifierL ShowNotifierItem - Data copy done")));
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::CompleteNotifierL ShowNotifierItem:PW from UI (8bits)",
notifier_dataPtr8.Ptr(),
notifier_dataPtr8.Size()));
status = m_userResponse.set_copy_of_buffer(
notifier_dataPtr8.Ptr(),
notifier_dataPtr8.Size());
CleanupStack::PopAndDestroy( notifier_data8 );
}
break;
}
default:
{
EAP_TRACE_DEBUG_SYMBIAN(
( _L( "eap_am_type_tls_peap_symbian_c::CompleteNotifierL() m_state = %d not supported." ),
m_state ) );
}
}
return status;
}
//--------------------------------------------------
void eap_am_type_tls_peap_symbian_c::ConvertUnicodeToAsciiL(const TDesC16& aFromUnicode, TDes8& aToAscii)
{
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::ConvertUnicodeToAsciiL:From TEXT",
aFromUnicode.Ptr(),
aFromUnicode.Size()));
if(aFromUnicode.Length() <= 0)
{
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ConvertUnicodeToAsciiL: Return: NOTHING TO CONVERT")));
return;
}
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ConvertUnicodeToAsciiL, aFromUnicode.Length=%d, aFromUnicode.Size=%d"),
aFromUnicode.Length(), aFromUnicode.Size()));
// Convert from Unicode to ascii.
HBufC8* aFromUnicodeBuf8 = HBufC8::NewLC(aFromUnicode.Length()); // Half times size of source (or length) is enough here.
TPtr8 aFromUnicodePtr8 = aFromUnicodeBuf8->Des();
EAP_TRACE_DEBUG_SYMBIAN(
(_L("eap_am_type_tls_peap_symbian_c::ConvertUnicodeToAsciiL, aFromUnicodePtr8.Length=%d, aFromUnicodePtr8.Size=%d, aFromUnicodePtr8.MaxLength=%d, aFromUnicodePtr8.MaxSize=%d"),
aFromUnicodePtr8.Length(), aFromUnicodePtr8.Size(), aFromUnicodePtr8.MaxLength(), aFromUnicodePtr8.MaxSize()));
aFromUnicodePtr8.Copy(aFromUnicode); // Unicode -> ascii.
aToAscii = aFromUnicodePtr8;
CleanupStack::PopAndDestroy(aFromUnicodeBuf8); // Delete aFromUnicodeBuf8.
EAP_TRACE_DATA_DEBUG_SYMBIAN(
("eap_am_type_tls_peap_symbian_c::ConvertUnicodeToAsciiL:To ASCII",
aToAscii.Ptr(),
aToAscii.Size()));
}
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL()
// ---------------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL()
{
/* Check validity of password against timelimit */
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("CheckPasswordTimeValidityL - Start\n")));
TInt64 maxSessionTime = 0;
TInt64 fullAuthTime = 0;
// get max session time
HBufC* buf = HBufC::NewLC( KMaxSqlQueryLength );
TPtr sqlStatement = buf->Des();
_LIT( KSqlQuery, "SELECT %S FROM %S WHERE %S=%d AND %S=%d AND %S=%d" );
sqlStatement.Format(
KSqlQuery,
&cf_str_EAP_FAST_max_session_validity_time_literal,
&KFastGeneralSettingsDBTableName,
&KServiceType, m_index_type,
&KServiceIndex, m_index,
&KTunnelingType, m_tunneling_vendor_type );
TRAPD( err, maxSessionTime = ReadIntDbValueL(
m_database,
cf_str_EAP_FAST_max_session_validity_time_literal,
sqlStatement ) );
if ( err != KErrNone )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,
( EAPL( "ERROR: Leave happened trying to read max session time, \
error=%d.\n" ), err ) );
}
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL("CheckPasswordTimeValidityL - maxSessionTime=%ld\n"),
maxSessionTime ) );
#ifdef USE_PAC_STORE
sqlStatement.Zero();
if ( !iPacStoreDb )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL("CheckPasswordTimeValidityL - iPacStoreDb is NULL.\n")));
CleanupStack::PopAndDestroy( buf ); // Delete buf.
User::Leave( KErrArgument );
}
_LIT( KSqlQuery1, "SELECT %S FROM %S" );
sqlStatement.Format(
KSqlQuery1,
&KFASTLastPasswordIdentityTime,
&KPacStoreGeneralSettingsTableName );
RDbNamedDatabase& db = iPacStoreDb->GetPacStoreDb();
TRAP( err, fullAuthTime = ReadIntDbValueL(
db,
KFASTLastPasswordIdentityTime,
sqlStatement ) );
if ( err == KErrNotFound ) // KFASTLastPasswordIdentityTime was not found
{
TRAP( err, FixOldTablesForPwdIdentityTimeL() );
if ( err != KErrNone )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"ERROR: eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL() \
Leave happened trying to fix old table for pwd \
identity time, error=%d.\n" ), err ) );
User::Leave( err );
}
TRAP( err, fullAuthTime = ReadIntDbValueL(
db,
KFASTLastPasswordIdentityTime,
sqlStatement ) );
if ( err != KErrNone )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"ERROR: eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL() \
Leave happened trying to read full auth. time, \
error=%d.\n" ), err ) );
User::Leave( err );
}
}
else if ( err != KErrNone )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"ERROR: eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL() \
Leave happened trying to read full auth. time, \
error=%d.\n" ), err ) );
User::Leave( err );
}
#else
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL("CheckPasswordTimeValidityL - PAC store is not used.\n")));
CleanupStack::PopAndDestroy( buf ); // Delete buf.
User::Leave( KErrNotSupported );
#endif
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,
( EAPL( "CheckPasswordTimeValidityL - fullAuthTime=%ld.\n" ),
fullAuthTime ) );
CleanupStack::PopAndDestroy( buf ); // Delete buf.
// If the max session time from DB is zero then we use the
// one read from configuration file.
if( maxSessionTime == 0)
{
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("CheckPasswordTimeValidityL - Using max session validity time from config file\n")));
maxSessionTime = m_max_session_time; // value from configuration file.
}
// Get the current time.
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("UpdatePasswordTimeL - Get time\n")));
TTime currentTime;
currentTime.UniversalTime();
TTime lastFullAuthTime(fullAuthTime);
#if defined(_DEBUG) || defined(DEBUG)
TDateTime currentDateTime = currentTime.DateTime();
TDateTime fullAuthDateTime = lastFullAuthTime.DateTime();
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("CheckPasswordTimeValidityL Session Validity - Current Time, %2d-%2d-%4d : %2d-%2d-%2d-%d\n"),
currentDateTime.Day()+1, currentDateTime.Month()+1, currentDateTime.Year(), currentDateTime.Hour(),
currentDateTime.Minute(), currentDateTime.Second(), currentDateTime.MicroSecond()));
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("CheckPasswordTimeValidityL Session Validity - Last Full Auth Time, %2d-%2d-%4d : %2d-%2d-%2d-%d\n"),
fullAuthDateTime.Day()+1, fullAuthDateTime.Month()+1, fullAuthDateTime.Year(), fullAuthDateTime.Hour(),
fullAuthDateTime.Minute(), fullAuthDateTime.Second(), fullAuthDateTime.MicroSecond()));
#endif
TTimeIntervalMicroSeconds interval = currentTime.MicroSecondsFrom(lastFullAuthTime);
EAP_TRACE_DATA_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,(EAPL("eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL:interval in microseconds:"),
&(interval.Int64()),
sizeof(interval.Int64()) ) );
EAP_TRACE_DATA_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,(EAPL("eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL:max session time in microseconds:"),
&(maxSessionTime),
sizeof(maxSessionTime) ) );
#if defined(_DEBUG) || defined(DEBUG)
TTimeIntervalMinutes intervalMins;
TInt error = currentTime.MinutesFrom(lastFullAuthTime, intervalMins);
if(error == KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL")
EAPL("interval in Minutes =%d\n"),
intervalMins.Int()));
}
#endif
if( maxSessionTime >= interval.Int64() )
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL - Session Valid \n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
/* do nothing */
}
else
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT, (EAPL("eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL - Session NOT Valid \n")));
EAP_TRACE_END(m_am_tools, TRACE_FLAGS_DEFAULT);
m_tls_application->remove_cached_pac_store_data();
TRAPD(error, UpdatePasswordTimeL());
if(error != KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("EAP-FAST: eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL() ERROR: LEAVE from UpdatePasswordTimeL() error=%d"),
error));
}
}
} // eap_am_type_tls_peap_symbian_c::CheckPasswordTimeValidityL()
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::AlterTableL()
// ---------------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::AlterTableL(
RDbNamedDatabase& aDb,
TAlterTableCmd aCmd,
const TDesC& aTableName,
const TDesC& aColumnName,
const TDesC& aColumnDef )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"eap_am_type_tls_peap_symbian_c::AlterTableL() IN\n" ) ) );
CDbColSet* colSet = aDb.ColSetL( aTableName );
User::LeaveIfNull( colSet );
CleanupStack::PushL( colSet );
EAP_TRACE_DEBUG_SYMBIAN( ( _L(
"eap_am_type_tls_peap_symbian_c::AlterTableL() \
Number of columns in %S table is %d.\n" ),
&aTableName, colSet->Count() ) );
if ( aCmd == EAddColumn )
{
// Check if there is a target column
if( colSet->ColNo( aColumnName ) != KDbNullColNo )
{
EAP_TRACE_DEBUG_SYMBIAN( ( _L(
"eap_am_type_tls_peap_symbian_c::AlterTableL() \
Column %S exists already in table %S.\n" ),
&aColumnName, &aTableName ) );
CleanupStack::PopAndDestroy( colSet );
return;
}
}
else
{
// Check if there is a target column
if( colSet->ColNo( aColumnName ) == KDbNullColNo )
{
EAP_TRACE_DEBUG_SYMBIAN( ( _L(
"eap_am_type_tls_peap_symbian_c::AlterTableL() \
Column %S does not exists already in table %S.\n" ),
&aColumnName, &aTableName ) );
CleanupStack::PopAndDestroy( colSet );
return;
}
}
HBufC* buf = HBufC::NewLC( KMaxSqlQueryLength );
TPtr sqlStatement = buf->Des();
_LIT( KSqlAddCol, "ALTER TABLE %S ADD %S %S" );
_LIT( KSqlRemoveCol, "ALTER TABLE %S DROP %S" );
if ( aCmd == EAddColumn )
{
sqlStatement.Format( KSqlAddCol, &aTableName,
&aColumnName, &aColumnDef );
}
else
{
sqlStatement.Format( KSqlRemoveCol, &aTableName,
&aColumnName );
}
EAP_TRACE_DEBUG_SYMBIAN( ( _L(
"eap_am_type_tls_peap_symbian_c::AlterTableL(): sqlStatement=%S\n"),
&sqlStatement ) );
User::LeaveIfError( aDb.Execute( sqlStatement ) );
CleanupStack::PopAndDestroy( buf );
CleanupStack::PopAndDestroy( colSet );
CDbColSet* alteredColSet = aDb.ColSetL( aTableName );
User::LeaveIfNull( alteredColSet );
EAP_TRACE_DEBUG_SYMBIAN( ( _L(
"eap_am_type_tls_peap_symbian_c::AlterTableL() \
Number of columns in %S table is %d.\n" ),
&aTableName, alteredColSet->Count() ) );
delete alteredColSet;
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"eap_am_type_tls_peap_symbian_c::AlterTableL() OUT\n" ) ) );
} // eap_am_type_tls_peap_symbian_c::AlterTableL()
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::FixOldTablesForPwdIdentityTimeL()
// ---------------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::FixOldTablesForPwdIdentityTimeL()
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"eap_am_type_tls_peap_symbian_c::FixOldTablesForPwdIdentityTimeL() IN" ) ) );
// remove password identity time from fast table
_LIT( KColumnDef, "BIGINT" );
AlterTableL( m_database, ERemoveColumn, KFastGeneralSettingsDBTableName,
KFASTLastPasswordIdentityTime );
// add password identity time to PAC store table
#ifdef USE_PAC_STORE
if ( !iPacStoreDb )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"ERROR: eap_am_type_tls_peap_symbian_c::FixOldTablesForPwdIdentityTimeL() \
iPacStoreDb is NULL.\n" ) ) );
User::Leave( KErrArgument );
}
RDbNamedDatabase& pacStoreDb = iPacStoreDb->GetPacStoreDb();
AlterTableL( pacStoreDb, EAddColumn , KPacStoreGeneralSettingsTableName,
KFASTLastPasswordIdentityTime, KColumnDef );
#else
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"ERROR: eap_am_type_tls_peap_symbian_c::FixOldTablesForPwdIdentityTimeL() \
PAC store is not used.\n" ) ) );
User::Leave( KErrNotSupported );
#endif
// update password identity time
UpdatePasswordTimeL();
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"eap_am_type_tls_peap_symbian_c::FixOldTablesForPwdIdentityTimeL() OUT" ) ) );
} // eap_am_type_tls_peap_symbian_c::FixOldTablesForPwdIdentityTimeL()
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::FixOldTableForPacStoreInitL()
// ---------------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::FixOldTableForPacStoreInitL()
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"eap_am_type_tls_peap_symbian_c::FixOldTableForPacStoreInitL() IN\n" ) ) );
#ifdef USE_PAC_STORE
if ( !iPacStoreDb )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"ERROR: eap_am_type_tls_peap_symbian_c::FixOldTableForPacStoreInitL() \
iPacStoreDb is NULL.\n" ) ) );
User::Leave( KErrArgument );
}
RDbNamedDatabase& pacStoreDb = iPacStoreDb->GetPacStoreDb();
_LIT( KColumnDef, "UNSIGNED INTEGER" );
AlterTableL( pacStoreDb, EAddColumn, KPacStoreGeneralSettingsTableName,
KPacStoreInitialized, KColumnDef );
#else
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"ERROR: eap_am_type_tls_peap_symbian_c::FixOldTableForPacStoreInitL() \
PAC store is not used.\n" ) ) );
User::Leave( KErrNotSupported );
#endif
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, ( EAPL(
"eap_am_type_tls_peap_symbian_c::FixOldTableForPacStoreInitL() OUT\n" ) ) );
} // eap_am_type_tls_peap_symbian_c::FixOldTableForPacStoreInitL()
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::ReadIntDbValue()
// ---------------------------------------------------------
//
TInt64 eap_am_type_tls_peap_symbian_c::ReadIntDbValueL(
RDbNamedDatabase& aDb,
const TDesC& aColumnName,
const TDesC& aSqlStatement )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL( "eap_am_type_tls_peap_symbian_c::ReadIntDbValueL()\n" ) ) );
TPtrC columnName;
columnName.Set( aColumnName );
RDbView view;
// Evaluate view
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL( "ReadIntDbValue() prepare view\n" ) ) );
User::LeaveIfError( view.Prepare( aDb, TDbQuery(
aSqlStatement ) ) );
CleanupClosePushL( view );
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL("ReadIntDbValue() evaluate view\n" ) ) );
User::LeaveIfError( view.EvaluateAll() );
// Get the first (and only) row
view.FirstL();
view.GetL();
// Get column set so we get the correct column numbers
CDbColSet* colSet = view.ColSetL();
CleanupStack::PushL( colSet );
TInt64 retVal = view.ColInt64( colSet->ColNo( columnName ) );
CleanupStack::PopAndDestroy( colSet ); // Delete colSet.
CleanupStack::PopAndDestroy( &view ); // Close view.
return retVal;
} // eap_am_type_tls_peap_symbian_c::ReadIntDbValueL
// ---------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::UpdatePasswordTimeL()
// ---------------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::UpdatePasswordTimeL()
{
/* update last password time */
TPtrC lastFullPasswordTimeString;
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("UpdatePasswordTimeL - Start\n")));
lastFullPasswordTimeString.Set(KFASTLastPasswordIdentityTime);
HBufC* buf = HBufC::NewLC(KMaxSqlQueryLength);
TPtr sqlStatement = buf->Des();
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("UpdatePasswordTimeL - prepare query\n")));
// Query all the relevant parameters
_LIT(KSQLQuery, "SELECT %S FROM %S");
sqlStatement.Format( KSQLQuery, &lastFullPasswordTimeString,
&KPacStoreGeneralSettingsTableName );
RDbView view;
// Evaluate view
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("UpdatePasswordTimeL - prepare view\n")));
#ifdef USE_PAC_STORE
if ( !iPacStoreDb )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL("CheckPasswordTimeValidityL - iPacStoreDb is NULL.\n")));
CleanupStack::PopAndDestroy( buf ); // Delete buf.
User::Leave( KErrArgument );
}
RDbNamedDatabase& db = iPacStoreDb->GetPacStoreDb();
User::LeaveIfError( view.Prepare( db, TDbQuery( sqlStatement ),
TDbWindow::EUnlimited ) );
CleanupClosePushL( view );
#else
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT, (
EAPL("CheckPasswordTimeValidityL - PAC store is not used.\n")));
CleanupStack::PopAndDestroy( buf ); // Delete buf.
User::Leave( KErrNotSupported );
#endif
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("UpdatePasswordTimeL - evaluate view\n")));
User::LeaveIfError(view.EvaluateAll());
// Get the first (and only) row for updation.
view.FirstL();
view.UpdateL();
// Get column set so we get the correct column numbers
CDbColSet* colSet = view.ColSetL();
CleanupStack::PushL(colSet);
// Get the current universal time.
EAP_TRACE_DEBUG(m_am_tools,
TRACE_FLAGS_DEFAULT, (
EAPL("UpdatePasswordTimeL - Get time\n")));
TTime currentTime;
currentTime.UniversalTime();
TDateTime currentDateTime = currentTime.DateTime();
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::UpdatePasswordTimeL:store_authentication_time, %2d-%2d-%4d : %2d-%2d-%2d-%d\n"),
currentDateTime.Day()+1, currentDateTime.Month()+1,currentDateTime.Year(), currentDateTime.Hour(),
currentDateTime.Minute(), currentDateTime.Second(), currentDateTime.MicroSecond()));
TInt64 fullAuthTime = currentTime.Int64();
view.SetColL(colSet->ColNo(lastFullPasswordTimeString), fullAuthTime);
view.PutL();
CleanupStack::PopAndDestroy(colSet); // Delete colSet.
CleanupStack::PopAndDestroy(&view); // Close view.
CleanupStack::PopAndDestroy(buf); // Delete buf.
/* update end */
} // eap_am_type_tls_peap_symbian_c::UpdatePasswordTimeL()
eap_status_e eap_am_type_tls_peap_symbian_c::CreateMasterkeyL()
{
HBufC8* password = HBufC8::NewLC(m_userResponse.get_data_length());
TPtr8 passwordPtr = password->Des();
m_PAC_store_password.set_copy_of_buffer(&m_userResponse);
passwordPtr.Copy(m_userResponse.get_data(), m_userResponse.get_data_length());
m_eap_fast_completion_status = m_am_tools->convert_am_error_to_eapol_error(iPacStoreDb->CreateAndSaveMasterKeyL(passwordPtr));
CleanupStack::PopAndDestroy(password);
return m_eap_fast_completion_status;
}
#endif //#if defined(USE_FAST_EAP_TYPE)
// ================= TTLS-PAP public exported =======================
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::is_ttls_pap_session_valid()
// ------------------------------------------------------------------------
//
EAP_FUNC_EXPORT
bool eap_am_type_tls_peap_symbian_c::is_ttls_pap_session_valid()
{
DEBUG( "eap_am_type_tls_peap_symbian_c::is_ttls_pap_session_valid()" );
TBool isValid = EFalse;
TInt err = KErrNone;
bool retVal = false;
TRAP( err, isValid = IsTtlsPapSessionValidL() );
if ( err != KErrNone )
{
DEBUG1( "eap_am_type_tls_peap_symbian_c::is_ttls_pap_session_valid() ERROR: \
Leave, err==%d.", err );
retVal = false;
}
else
{
retVal = ( isValid ) ? true : false;
}
return retVal;
}
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::query_ttls_pap_username_and_password()
// ------------------------------------------------------------------------
//
EAP_FUNC_EXPORT eap_status_e
eap_am_type_tls_peap_symbian_c::query_ttls_pap_username_and_password(
const eap_variable_data_c * const aInSrvChallengeUtf8 )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::query_ttls_pap_username_and_password()" );
eap_status_e status( eap_status_pending_request );
if ( !iEapTtlsPapActive )
{
TRAPD( err, iEapTtlsPapActive = CEapTtlsPapActive::NewL(
this, m_am_tools ) );
if ( err != KErrNone )
{
DEBUG1( "eap_am_type_tls_peap_symbian_c::query_ttls_pap_username_and_password() \
ERROR: CEapTtlsPapActive::NewL(), err=%d.", err );
return ConvertAmErrorToEapolError( err );
}
}
if ( aInSrvChallengeUtf8 != NULL )
{
iEapTtlsPapActive->UpdateSrvChallenge( *aInSrvChallengeUtf8 );
}
TBool startedOk = iEapTtlsPapActive->Start(
CEapTtlsPapActive::EEapTtlsPapActiveQueryUserNameAndPassword );
if ( !startedOk )
{
status = eap_status_process_general_error;
}
if ( status != eap_status_pending_request )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::query_ttls_pap_username_and_password() \
ERROR: status != eap_status_pending_request" );
}
return status;
}
// ================= TTLS-PAP public not exported =======================
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::verify_ttls_pap_username_and_password()
// ------------------------------------------------------------------------
//
eap_status_e
eap_am_type_tls_peap_symbian_c::verify_ttls_pap_username_and_password(
const eap_variable_data_c * const /*aUserName*/,
const eap_variable_data_c * const /*aUserPassword*/ )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::verify_ttls_pap_username_and_password()" );
return eap_status_not_supported;
}
// ================= TTLS-PAP public new =======================
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::CompleteQueryTtlsPapUserNameAndPassword()
// ------------------------------------------------------------------------
//
eap_status_e
eap_am_type_tls_peap_symbian_c::CompleteQueryTtlsPapUserNameAndPassword(
eap_status_e aStatus,
const TDesC8& aUserNameUtf8,
const TDesC8& aPasswordUtf8 )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::CompleteQueryTtlsPapUserNameAndPassword()" );
eap_status_e retStatus = aStatus;
eap_status_e tmpStatus = eap_status_ok;
eap_variable_data_c userNameUtf8( m_am_tools );
eap_variable_data_c passwordUtf8( m_am_tools );
tmpStatus = userNameUtf8.set_copy_of_buffer(
aUserNameUtf8.Ptr(), aUserNameUtf8.Length() );
if ( tmpStatus != eap_status_ok && retStatus == eap_status_ok )
{
retStatus = tmpStatus;
}
tmpStatus = passwordUtf8.set_copy_of_buffer(
aPasswordUtf8.Ptr(), aPasswordUtf8.Length() );
if ( tmpStatus != eap_status_ok && retStatus == eap_status_ok )
{
retStatus = tmpStatus;
}
if ( m_tls_am_partner == NULL )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::CompleteQueryTtlsPapUserNameAndPassword() \
ERROR: m_tls_am_partner is NULL." );
return eap_status_process_general_error;
}
retStatus = m_tls_am_partner->
complete_query_ttls_pap_username_and_password(
&userNameUtf8, &passwordUtf8, retStatus );
return retStatus;
} // eap_am_type_tls_peap_symbian_c::CompleteQueryTtlsPapUserNameAndPassword(
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::ConvertAmErrorToEapolError()
// ------------------------------------------------------------------------
//
eap_status_e
eap_am_type_tls_peap_symbian_c::ConvertAmErrorToEapolError( TInt aErr )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::ConvertAmErrorToEapolError()" );
if ( m_am_tools )
{
return m_am_tools->convert_am_error_to_eapol_error( aErr );
}
return eap_status_process_general_error;
}
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::ReadTtlsPapDbL()
// ------------------------------------------------------------------------
//
//| EAP_TLS_PEAP_ttls_pap_password_prompt | UNSIGNED INTEGER | cf_str_EAP_TLS_PEAP_ttls_pap_password_prompt_literal |//
//| EAP_TLS_PEAP_ttls_pap_username | VARCHAR(253) | cf_str_EAP_TLS_PEAP_ttls_pap_username_literal |//
//| EAP_TLS_PEAP_ttls_pap_password | VARCHAR(128) | cf_str_EAP_TLS_PEAP_ttls_pap_password_literal |//
//| EAP_TLS_PEAP_ttls_pap_max_session_validity_time | BIGINT | cf_str_EAP_TLS_PEAP_ttls_pap_max_session_validity_time_literal |//
//| EAP_TLS_PEAP_ttls_pap_last_full_authentication_time | BIGINT | KTTLSPAPLastFullAuthTime |//
void eap_am_type_tls_peap_symbian_c::ReadTtlsPapDbL(
TTtlsPapDbInfo& aOutDbInfo )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::ReadTtlsPapDbL()" );
HBufC* buf = HBufC::NewLC( KMaxSqlQueryLength );
TPtr sqlStatement = buf->Des();
// Query all the relevant parameters
_LIT( KSQLQuery,
"SELECT %S, %S, %S, %S, %S FROM %S WHERE %S=%d AND %S=%d AND %S=%d" );
sqlStatement.Format( KSQLQuery,
&cf_str_EAP_TLS_PEAP_ttls_pap_password_prompt_literal, // select´
&cf_str_EAP_TLS_PEAP_ttls_pap_username_literal, // select
&cf_str_EAP_TLS_PEAP_ttls_pap_password_literal, // select
&cf_str_EAP_TLS_PEAP_ttls_pap_max_session_validity_time_literal, // select
&KTTLSPAPLastFullAuthTime, // select
&KTtlsDatabaseTableName, // from
&KServiceType, m_index_type, // where %S=%d
&KServiceIndex, m_index, // where %S=%d
&KTunnelingType, eap_type_ttls ); // where %S=%d
RDbView view;
// Evaluate view
User::LeaveIfError( view.Prepare( m_database, TDbQuery( sqlStatement ) ) );
CleanupClosePushL( view );
User::LeaveIfError( view.EvaluateAll() );
// Get the first (and only) row
if (view.FirstL())
{
view.GetL();
// Get column set so we get the correct column numbers
CDbColSet* colSet = view.ColSetL();
CleanupStack::PushL( colSet );
// columns reading
aOutDbInfo.iUsrPwdInfo.iPasswordPromptEnabled = view.ColUint(
colSet->ColNo( cf_str_EAP_TLS_PEAP_ttls_pap_password_prompt_literal ) );
aOutDbInfo.iUsrPwdInfo.iUserName = view.ColDes(
colSet->ColNo( cf_str_EAP_TLS_PEAP_ttls_pap_username_literal ) );
aOutDbInfo.iUsrPwdInfo.iPassword = view.ColDes(
colSet->ColNo( cf_str_EAP_TLS_PEAP_ttls_pap_password_literal ) );
aOutDbInfo.iMaxSessionTime = view.ColInt64(
colSet->ColNo( cf_str_EAP_TLS_PEAP_ttls_pap_max_session_validity_time_literal ) );
aOutDbInfo.iLastFullAuthTime = view.ColInt64(
colSet->ColNo( KTTLSPAPLastFullAuthTime ) );
CleanupStack::PopAndDestroy( colSet ); // Delete colSet.
}
CleanupStack::PopAndDestroy( &view ); // Close view.
CleanupStack::PopAndDestroy( buf ); // Delete buf.
} // eap_am_type_tls_peap_symbian_c::ReadTtlsPapDbL()
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::WriteTtlsPapDbL()
// ------------------------------------------------------------------------
//
//| EAP_TLS_PEAP_ttls_pap_password_prompt | UNSIGNED INTEGER | cf_str_EAP_TLS_PEAP_ttls_pap_password_prompt_literal |//
//| EAP_TLS_PEAP_ttls_pap_username | VARCHAR(253) | cf_str_EAP_TLS_PEAP_ttls_pap_username_literal |//
//| EAP_TLS_PEAP_ttls_pap_password | VARCHAR(128) | cf_str_EAP_TLS_PEAP_ttls_pap_password_literal |//
//| EAP_TLS_PEAP_ttls_pap_max_session_validity_time | BIGINT | cf_str_EAP_TLS_PEAP_ttls_pap_max_session_validity_time_literal |//
//| EAP_TLS_PEAP_ttls_pap_last_full_authentication_time | BIGINT | KTTLSPAPLastFullAuthTime |//
void eap_am_type_tls_peap_symbian_c::WriteTtlsPapDbL(
const TTtlsPapDbInfo& aInDbInfo )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::WriteTtlsPapDbL()" );
HBufC* buf = HBufC::NewLC( KMaxSqlQueryLength );
TPtr sqlStatement = buf->Des();
// Query all the relevant parameters
_LIT( KSQLQuery,
"SELECT %S, %S, %S, %S, %S FROM %S WHERE %S=%d AND %S=%d AND %S=%d" );
sqlStatement.Format( KSQLQuery,
&cf_str_EAP_TLS_PEAP_ttls_pap_password_prompt_literal, // select´
&cf_str_EAP_TLS_PEAP_ttls_pap_username_literal, // select
&cf_str_EAP_TLS_PEAP_ttls_pap_password_literal, // select
&cf_str_EAP_TLS_PEAP_ttls_pap_max_session_validity_time_literal, // select
&KTTLSPAPLastFullAuthTime, // select
&KTtlsDatabaseTableName, // from
&KServiceType, m_index_type, // where %S=%d
&KServiceIndex, m_index, // where %S=%d
&KTunnelingType, m_tunneling_vendor_type ); // where %S=%d
RDbView view;
// Evaluate view
User::LeaveIfError( view.Prepare( m_database, TDbQuery( sqlStatement ) ) );
CleanupClosePushL( view );
User::LeaveIfError( view.EvaluateAll() );
// Get the first (and only) row
if (view.FirstL())
{
view.UpdateL();
// Get column set so we get the correct column numbers
CDbColSet* colSet = view.ColSetL();
CleanupStack::PushL( colSet );
// columns updating
view.SetColL( colSet->ColNo(
cf_str_EAP_TLS_PEAP_ttls_pap_password_prompt_literal ),
aInDbInfo.iUsrPwdInfo.iPasswordPromptEnabled );
view.SetColL( colSet->ColNo(
cf_str_EAP_TLS_PEAP_ttls_pap_username_literal ),
aInDbInfo.iUsrPwdInfo.iUserName );
view.SetColL( colSet->ColNo(
cf_str_EAP_TLS_PEAP_ttls_pap_password_literal ),
aInDbInfo.iUsrPwdInfo.iPassword );
view.SetColL( colSet->ColNo(
cf_str_EAP_TLS_PEAP_ttls_pap_max_session_validity_time_literal ),
aInDbInfo.iMaxSessionTime );
view.SetColL( colSet->ColNo(
KTTLSPAPLastFullAuthTime ),
aInDbInfo.iLastFullAuthTime );
view.PutL();
CleanupStack::PopAndDestroy( colSet ); // Delete colSet.
}
CleanupStack::PopAndDestroy( &view ); // Close view.
CleanupStack::PopAndDestroy( buf ); // Delete buf.
} // eap_am_type_tls_peap_symbian_c::WriteTtlsPapDbL()
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::SetTtlsPapColumnToNullL
// ------------------------------------------------------------------------
//
void eap_am_type_tls_peap_symbian_c::SetTtlsPapColumnToNullL( const TDesC& aColName )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::SetColumnNullL()" );
HBufC* buf = HBufC::NewLC( KMaxSqlQueryLength );
TPtr sqlStatement = buf->Des();
// Query all the relevant parameters
_LIT( KSQLQuery,
"SELECT %S FROM %S WHERE %S=%d AND %S=%d AND %S=%d" );
sqlStatement.Format( KSQLQuery,
&aColName, // select´
&KTtlsDatabaseTableName, // from
&KServiceType, m_index_type, // where %S=%d
&KServiceIndex, m_index, // where %S=%d
&KTunnelingType, m_tunneling_vendor_type ); // where %S=%d
RDbView view;
// Evaluate view
User::LeaveIfError( view.Prepare( m_database, TDbQuery( sqlStatement ) ) );
CleanupClosePushL( view );
User::LeaveIfError( view.EvaluateAll() );
// Get the first (and only) row
if (view.FirstL())
{
view.UpdateL();
// Get column set so we get the correct column numbers
CDbColSet* colSet = view.ColSetL();
CleanupStack::PushL( colSet );
// set column to null
view.SetColNullL( colSet->ColNo( aColName ) );
view.PutL();
CleanupStack::PopAndDestroy( colSet ); // Delete colSet.
}
CleanupStack::PopAndDestroy( &view ); // Close view.
CleanupStack::PopAndDestroy( buf ); // Delete buf.
} // eap_am_type_tls_peap_symbian_c::SetTtlsPapColumnToNullL()
// ================= TTLS-PAP private =======================
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::IsTtlsPapSessionValidL()
// ------------------------------------------------------------------------
//
TBool eap_am_type_tls_peap_symbian_c::IsTtlsPapSessionValidL()
{
DEBUG( "eap_am_type_tls_peap_symbian_c::IsTtlsPapSessionValidL()" );
TTtlsPapDbInfo dbInfo;
TInt err = KErrNone;
TBool retValue = EFalse;
TRAP( err, ReadTtlsPapDbL( dbInfo ) );
if ( err != KErrNone )
{
DEBUG1( "eap_am_type_tls_peap_symbian_c::IsTtlsPapSessionValidL() ERROR: \
Leave happened, err=%d.", err );
retValue = EFalse;
}
else
{
if ( dbInfo.iUsrPwdInfo.iPasswordPromptEnabled )
{
// If the max session time from DB is zero then we use the
// one read from configuration file.
if( dbInfo.iMaxSessionTime == 0 )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::IsTtlsPapSessionValidL() \
Using max TTLS PAP session validity time from config file." );
// use value from config file
dbInfo.iMaxSessionTime = iEapTtlsPapMaxSessionConfigTime;
}
retValue = CheckTtlsPapSessionValidity( dbInfo.iMaxSessionTime,
dbInfo.iLastFullAuthTime );
}
}
return retValue;
} // eap_am_type_tls_peap_symbian_c::IsTtlsPapSessionValidL()
// ------------------------------------------------------------------------
// eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity()
// ------------------------------------------------------------------------
//
TBool eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity(
const TInt64& aInMaxSessionTime,
const TInt64& aInLastFullAuthTime )
{
DEBUG( "eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity()" );
// Get the current time.
TTime currentTime;
currentTime.UniversalTime();
TTime lastFullAuthTime( aInLastFullAuthTime );
#if defined(_DEBUG) || defined(DEBUG)
TDateTime currentDateTime = currentTime.DateTime();
TDateTime fullAuthDateTime = lastFullAuthTime.DateTime();
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,
( EAPL( "Session Validity - Current Time, %2d-%2d-%4d : %2d-%2d-%2d-%d\n" ),
currentDateTime.Day()+1, currentDateTime.Month()+1, currentDateTime.Year(),
currentDateTime.Hour(), currentDateTime.Minute(), currentDateTime.Second(),
currentDateTime.MicroSecond() ) );
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
( EAPL( "Session Validity - Last Full Auth Time, %2d-%2d-%4d : %2d-%2d-%2d-%d\n" ),
fullAuthDateTime.Day()+1, fullAuthDateTime.Month()+1, fullAuthDateTime.Year(), fullAuthDateTime.Hour(),
fullAuthDateTime.Minute(), fullAuthDateTime.Second(), fullAuthDateTime.MicroSecond()));
#endif
TTimeIntervalMicroSeconds interval = currentTime.MicroSecondsFrom(lastFullAuthTime);
EAP_TRACE_DATA_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,
( EAPL( "eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity:interval in microseconds:"),
&( interval.Int64() ), sizeof( interval.Int64() ) ) );
EAP_TRACE_DATA_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,
( EAPL( "eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity:max session time in microseconds:"),
&( aInMaxSessionTime ), sizeof( aInMaxSessionTime ) ) );
#if defined(_DEBUG) || defined(DEBUG)
TTimeIntervalMinutes intervalMins;
TInt error = currentTime.MinutesFrom(lastFullAuthTime, intervalMins);
if(error == KErrNone)
{
EAP_TRACE_DEBUG(
m_am_tools,
TRACE_FLAGS_DEFAULT,
(EAPL("eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity()")
EAPL("interval in Minutes =%d\n"),
intervalMins.Int()));
}
#endif
if( aInMaxSessionTime >= interval.Int64() )
{
EAP_TRACE_DEBUG( m_am_tools, TRACE_FLAGS_DEFAULT,
( EAPL( "eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity - Session Valid \n" ) ) );
EAP_TRACE_END( m_am_tools, TRACE_FLAGS_DEFAULT );
return ETrue;
}
else
{
EAP_TRACE_DEBUG(m_am_tools, TRACE_FLAGS_DEFAULT,
( EAPL( "eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity - Session NOT Valid \n" ) ) );
EAP_TRACE_END( m_am_tools, TRACE_FLAGS_DEFAULT );
return EFalse;
}
} // eap_am_type_tls_peap_symbian_c::CheckTtlsPapSessionValidity
// End of file.