@ -34,7 +34,7 @@
namespace srsepc {
s1ap * s1ap : : m_instance = NULL ;
boost: : mutex s1ap_instance_mutex ;
pthread_mutex_t s1ap_instance_mutex = PTHREAD_MUTEX_INITIALIZER ;
s1ap : : s1ap ( ) :
m_s1mme ( - 1 ) ,
@ -51,21 +51,24 @@ s1ap::~s1ap()
s1ap *
s1ap : : get_instance ( void )
{
boost : : mutex : : scoped_lock lock ( s1ap_instance_mutex ) ;
if ( NULL = = m_instance ) {
pthread_mutex_lock ( & s1ap_instance_mutex ) ;
if ( m_instance = = NULL ) {
m_instance = new s1ap ( ) ;
}
pthread_mutex_unlock ( & s1ap_instance_mutex ) ;
return ( m_instance ) ;
}
void
s1ap : : cleanup ( void )
{
boost: : mutex : : scoped_lock lock ( s1ap_instance_mutex ) ;
pthread_mutex_lock( & s1ap_instance_mutex ) ;
if ( NULL ! = m_instance ) {
delete m_instance ;
m_instance = NULL ;
}
pthread_mutex_unlock ( & s1ap_instance_mutex ) ;
}
int
@ -75,7 +78,7 @@ s1ap::init(s1ap_args_t s1ap_args, srslte::log_filter *s1ap_log, hss_interface_s1
m_s1ap_args = s1ap_args ;
srslte : : s1ap_mccmnc_to_plmn ( s1ap_args . mcc , s1ap_args . mnc , & m_plmn ) ;
m_next_m_tmsi = rand ( ) ;
m_next_m_tmsi = 0xF000 ;
//Init log
m_s1ap_log = s1ap_log ;
@ -83,17 +86,15 @@ s1ap::init(s1ap_args_t s1ap_args, srslte::log_filter *s1ap_log, hss_interface_s1
m_hss = hss_ ;
//Init message handlers
m_s1ap_mngmt_proc = s1ap_mngmt_proc : : get_instance ( ) ; //Managment procedures
m_s1ap_mngmt_proc = s1ap_mngmt_proc : : get_instance ( ) ; //Managment procedures
m_s1ap_mngmt_proc - > init ( ) ;
m_s1ap_nas_transport = s1ap_nas_transport : : get_instance ( ) ; //NAS Transport procedures
m_s1ap_nas_transport = s1ap_nas_transport : : get_instance ( ) ; //NAS Transport procedures
m_s1ap_nas_transport - > init ( m_hss ) ;
m_s1ap_ctx_mngmt_proc = s1ap_ctx_mngmt_proc : : get_instance ( ) ; //Context Management Procedures
m_s1ap_ctx_mngmt_proc - > init ( ) ;
//Get pointer to GTP-C class
m_mme_gtpc = mme_gtpc : : get_instance ( ) ;
//Initialize S1-MME
m_s1mme = enb_listen ( ) ;
@ -107,16 +108,23 @@ s1ap::stop()
if ( m_s1mme ! = - 1 ) {
close ( m_s1mme ) ;
}
std : : map < uint16_t , enb_ctx_t * > : : iterator it = m_active_enbs . begin ( ) ;
while ( it! = m_active_enbs . end ( ) )
std : : map < uint16_t , enb_ctx_t * > : : iterator enb_ it = m_active_enbs . begin ( ) ;
while ( enb_ it! = m_active_enbs . end ( ) )
{
m_s1ap_log - > info ( " Deleting eNB context. eNB Id: 0x%x \n " , it - > second - > enb_id ) ;
m_s1ap_log - > console ( " Deleting eNB context. eNB Id: 0x%x \n " , it - > second - > enb_id ) ;
delete_ues_in_enb ( it - > second - > enb_id ) ;
delete it - > second ;
m_active_enbs . erase ( it + + ) ;
m_s1ap_log - > info ( " Deleting eNB context. eNB Id: 0x%x \n " , enb_it - > second - > enb_id ) ;
m_s1ap_log - > console ( " Deleting eNB context. eNB Id: 0x%x \n " , enb_it - > second - > enb_id ) ;
delete enb_it - > second ;
m_active_enbs . erase ( enb_it + + ) ;
}
std : : map < uint64_t , ue_ctx_t * > : : iterator ue_it = m_imsi_to_ue_ctx . begin ( ) ;
while ( ue_it ! = m_imsi_to_ue_ctx . end ( ) )
{
m_s1ap_log - > info ( " Deleting UE EMM context. IMSI: %015lu \n " , ue_it - > first ) ;
m_s1ap_log - > console ( " Deleting UE EMM context. IMSI: %015lu \n " , ue_it - > first ) ;
delete ue_it - > second ;
m_imsi_to_ue_ctx . erase ( ue_it + + ) ;
}
//Cleanup message handlers
s1ap_mngmt_proc : : cleanup ( ) ;
s1ap_nas_transport : : cleanup ( ) ;
@ -124,55 +132,18 @@ s1ap::stop()
return ;
}
void
s1ap : : delete_enb_ctx( int32_t assoc_id )
int
s1ap : : get_s1_mme( )
{
std : : map < int32_t , uint16_t > : : iterator it_assoc = m_sctp_to_enb_id . find ( assoc_id ) ;
uint16_t enb_id = it_assoc - > second ;
std : : map < uint16_t , enb_ctx_t * > : : iterator it_ctx = m_active_enbs . find ( enb_id ) ;
if ( it_ctx = = m_active_enbs . end ( ) | | it_assoc = = m_sctp_to_enb_id . end ( ) )
{
m_s1ap_log - > error ( " Could not find eNB to delete. Association: %d \n " , assoc_id ) ;
return ;
}
m_s1ap_log - > info ( " Deleting eNB context. eNB Id: 0x%x \n " , enb_id ) ;
m_s1ap_log - > console ( " Deleting eNB context. eNB Id: 0x%x \n " , enb_id ) ;
//Delete connected UEs ctx
delete_ues_in_enb ( enb_id ) ;
//Delete eNB
delete it_ctx - > second ;
m_active_enbs . erase ( it_ctx ) ;
m_sctp_to_enb_id . erase ( it_assoc ) ;
return ;
return m_s1mme ;
}
void
s1ap : : delete_ues_in_enb( uint16_t enb_id )
uint32_t
s1ap : : get_next_mme_ue_s1ap_id ( )
{
//delete UEs ctx
std : : map < uint16_t , std : : set < uint32_t > > : : iterator ues_in_enb = m_enb_id_to_ue_ids . find ( enb_id ) ;
std : : set < uint32_t > : : iterator ue_id = ues_in_enb - > second . begin ( ) ;
while ( ue_id ! = ues_in_enb - > second . end ( ) )
{
std : : map < uint32_t , ue_ctx_t * > : : iterator ue_ctx = m_active_ues . find ( * ue_id ) ;
m_s1ap_log - > info ( " Deleting UE context. UE IMSI: %lu \n " , ue_ctx - > second - > imsi ) ;
m_s1ap_log - > console ( " Deleting UE context. UE IMSI: %lu \n " , ue_ctx - > second - > imsi ) ;
delete ue_ctx - > second ; //delete UE context
m_active_ues . erase ( ue_ctx ) ; //remove from general MME map
ues_in_enb - > second . erase ( ue_id + + ) ; //erase from the eNB's UE set
}
return m_next_mme_ue_s1ap_id + + ;
}
int
s1ap : : get_s1_mme ( )
{
return m_s1mme ;
}
int
s1ap : : enb_listen ( )
@ -282,7 +253,8 @@ s1ap::handle_initiating_message(LIBLTE_S1AP_INITIATINGMESSAGE_STRUCT *msg, stru
m_s1ap_ctx_mngmt_proc - > handle_ue_context_release_request ( & msg - > choice . UEContextReleaseRequest , enb_sri , reply_buffer , & reply_flag ) ;
break ;
default :
m_s1ap_log - > error ( " Unhandled intiating message: %s \n " , liblte_s1ap_initiatingmessage_choice_text [ msg - > choice_type ] ) ;
m_s1ap_log - > error ( " Unhandled S1AP intiating message: %s \n " , liblte_s1ap_initiatingmessage_choice_text [ msg - > choice_type ] ) ;
m_s1ap_log - > console ( " Unhandled S1APintiating message: %s \n " , liblte_s1ap_initiatingmessage_choice_text [ msg - > choice_type ] ) ;
}
//Send Reply to eNB
if ( reply_flag = = true )
@ -290,7 +262,8 @@ s1ap::handle_initiating_message(LIBLTE_S1AP_INITIATINGMESSAGE_STRUCT *msg, stru
ssize_t n_sent = sctp_send ( m_s1mme , reply_buffer - > msg , reply_buffer - > N_bytes , enb_sri , 0 ) ;
if ( n_sent = = - 1 )
{
m_s1ap_log - > console ( " Failed to send S1 Setup Setup Reply \n " ) ;
m_s1ap_log - > console ( " Failed to send S1AP Initiating Reply. \n " ) ;
m_s1ap_log - > error ( " Failed to send S1AP Initiating Reply. \n " ) ;
m_pool - > deallocate ( reply_buffer ) ;
return false ;
}
@ -306,53 +279,128 @@ s1ap::handle_successful_outcome(LIBLTE_S1AP_SUCCESSFULOUTCOME_STRUCT *msg)
case LIBLTE_S1AP_SUCCESSFULOUTCOME_CHOICE_INITIALCONTEXTSETUPRESPONSE :
m_s1ap_log - > info ( " Received Initial Context Setup Response. \n " ) ;
return m_s1ap_ctx_mngmt_proc - > handle_initial_context_setup_response ( & msg - > choice . InitialContextSetupResponse ) ;
case LIBLTE_S1AP_SUCCESSFULOUTCOME_CHOICE_UECONTEXTRELEASECOMPLETE :
m_s1ap_log - > info ( " Received UE Context Release Complete \n " ) ;
return m_s1ap_ctx_mngmt_proc - > handle_ue_context_release_complete ( & msg - > choice . UEContextReleaseComplete ) ;
default :
m_s1ap_log - > error ( " Unhandled successful outcome message: %s \n " , liblte_s1ap_successfuloutcome_choice_text [ msg - > choice_type ] ) ;
}
return true ;
}
//eNB Context Managment
void
s1ap : : add_new_enb_ctx ( const enb_ctx_t & enb_ctx , const struct sctp_sndrcvinfo * enb_sri )
{
m_s1ap_log - > info ( " Adding new eNB context. eNB ID %d \n " , enb_ctx . enb_id ) ;
std : : set < uint32_t > ue_set ;
enb_ctx_t * enb_ptr = new enb_ctx_t ;
memcpy ( enb_ptr , & enb_ctx , sizeof ( enb_ctx_t ) ) ;
m_active_enbs . insert ( std : : pair < uint16_t , enb_ctx_t * > ( enb_ptr - > enb_id , enb_ptr ) ) ;
m_sctp_to_enb_id . insert ( std : : pair < int32_t , uint16_t > ( enb_sri - > sinfo_assoc_id , enb_ptr - > enb_id ) ) ;
m_enb_id_to_ue_ids . insert ( std : : pair < uint16_t , std : : set < uint32_t > > ( enb_ptr - > enb_id , ue_set ) ) ;
return ;
}
enb_ctx_t *
s1ap : : find_enb_ctx ( uint16_t enb_id )
{
std : : map < uint16_t , enb_ctx_t * > : : iterator it = m_active_enbs . find ( enb_id ) ;
if ( it = = m_active_enbs . end ( ) )
{
return NULL ;
}
else
{
return it - > second ;
}
}
void
s1ap : : delete_enb_ctx ( int32_t assoc_id )
{
std : : map < int32_t , uint16_t > : : iterator it_assoc = m_sctp_to_enb_id . find ( assoc_id ) ;
uint16_t enb_id = it_assoc - > second ;
std : : map < uint16_t , enb_ctx_t * > : : iterator it_ctx = m_active_enbs . find ( enb_id ) ;
if ( it_ctx = = m_active_enbs . end ( ) | | it_assoc = = m_sctp_to_enb_id . end ( ) )
{
m_s1ap_log - > error ( " Could not find eNB to delete. Association: %d \n " , assoc_id ) ;
return ;
}
m_s1ap_log - > info ( " Deleting eNB context. eNB Id: 0x%x \n " , enb_id ) ;
m_s1ap_log - > console ( " Deleting eNB context. eNB Id: 0x%x \n " , enb_id ) ;
//Delete connected UEs ctx
release_ues_ecm_ctx_in_enb ( enb_id ) ;
//Delete eNB
delete it_ctx - > second ;
m_active_enbs . erase ( it_ctx ) ;
m_sctp_to_enb_id . erase ( it_assoc ) ;
return ;
}
//UE Context Management
bool
s1ap : : delete_ue_ctx ( ue_ctx_t * ue_ctx )
s1ap : : add_ue_ctx_to_imsi_map ( ue_ctx_t * ue_ctx )
{
uint32_t mme_ue_s1ap_id = ue_ctx - > mme_ue_s1ap_id ;
std : : map < uint32_t , ue_ctx_t * > : : iterator ue_ctx_it = m_active_ues . find ( mme_ue_s1ap_id ) ;
if ( ue_ctx_it = = m_active_ues . end ( ) )
std : : map < uint64_t , ue_ctx_t * > : : iterator ctx_it = m_imsi_to_ue_ctx . find ( ue_ctx - > emm_ctx . imsi ) ;
if ( ctx_it ! = m_imsi_to_ue_ctx . end ( ) )
{
m_s1ap_log - > info ( " UE not found. MME-UE S1AP Id: %d \n " , mme_ue_s1ap_id ) ;
m_s1ap_log - > error( " UE Context already exists. IMSI %015lu " , ue_ctx - > emm_ctx . imsi ) ;
return false ;
}
if ( ue_ctx - > ecm_ctx . mme_ue_s1ap_id ! = 0 )
{
std : : map < uint32_t , ue_ctx_t * > : : iterator ctx_it2 = m_mme_ue_s1ap_id_to_ue_ctx . find ( ue_ctx - > ecm_ctx . mme_ue_s1ap_id ) ;
if ( ctx_it2 ! = m_mme_ue_s1ap_id_to_ue_ctx . end ( ) & & ctx_it2 - > second ! = ue_ctx )
{
m_s1ap_log - > error ( " Context identified with IMSI does not match context identified by MME UE S1AP Id. \n " ) ;
return false ;
}
}
m_imsi_to_ue_ctx . insert ( std : : pair < uint64_t , ue_ctx_t * > ( ue_ctx - > emm_ctx . imsi , ue_ctx ) ) ;
m_s1ap_log - > debug ( " Saved UE context corresponding to IMSI %015lu \n " , ue_ctx - > emm_ctx . imsi ) ;
return true ;
}
//Delete UE within eNB UE set
std : : map < int32_t , uint16_t > : : iterator it = m_sctp_to_enb_id . find ( ue_ctx - > enb_sri . sinfo_assoc_id ) ;
if ( it = = m_sctp_to_enb_id . end ( ) )
bool
s1ap : : add_ue_ctx_to_mme_ue_s1ap_id_map ( ue_ctx_t * ue_ctx )
{
if ( ue_ctx - > ecm_ctx . mme_ue_s1ap_id = = 0 )
{
m_s1ap_log - > error ( " Could not find eNB for this request. \n " ) ;
m_s1ap_log - > error ( " Could not add UE context to MME UE S1AP map. MME UE S1AP ID 0 is not valid. " ) ;
return false ;
}
uint16_t enb_id = it - > second ;
std : : map < uint16_t , std : : set < uint32_t > > : : iterator ue_set = m_enb_id_to_ue_ids . find ( enb_id ) ;
if ( ue_set = = m_enb_id_to_ue_ids . end ( ) )
std : : map < uint32_t , ue_ctx_t * > : : iterator ctx_it = m_mme_ue_s1ap_id_to_ue_ctx . find ( ue_ctx - > ecm_ctx . mme_ue_s1ap_id ) ;
if ( ctx_it ! = m_mme_ue_s1ap_id_to_ue_ctx . end ( ) )
{
m_s1ap_log - > error ( " Could not find the eNB's UEs. \n " ) ;
m_s1ap_log - > error ( " UE Context already exists. MME UE S1AP Id %015lu" , ue_ctx - > emm_ctx . imsi ) ;
return false ;
}
ue_set - > second . erase ( mme_ue_s1ap_id ) ;
//Delete UE context
delete ue_ctx ;
m_active_ues . erase ( ue_ctx_it ) ;
m_s1ap_log - > info ( " Deleted UE Context. \n " ) ;
if ( ue_ctx - > ecm_ctx . imsi ! = 0 )
{
std : : map < uint32_t , ue_ctx_t * > : : iterator ctx_it2 = m_mme_ue_s1ap_id_to_ue_ctx . find ( ue_ctx - > ecm_ctx . mme_ue_s1ap_id ) ;
if ( ctx_it2 ! = m_mme_ue_s1ap_id_to_ue_ctx . end ( ) & & ctx_it2 - > second ! = ue_ctx )
{
m_s1ap_log - > error ( " Context identified with MME UE S1AP Id does not match context identified by IMSI. \n " ) ;
return false ;
}
}
m_mme_ue_s1ap_id_to_ue_ctx . insert ( std : : pair < uint32_t , ue_ctx_t * > ( ue_ctx - > ecm_ctx . mme_ue_s1ap_id , ue_ctx ) ) ;
m_s1ap_log - > debug ( " Saved UE context corresponding to MME UE S1AP Id %d \n " , ue_ctx - > ecm_ctx . mme_ue_s1ap_id ) ;
return true ;
}
enb_ctx_t *
s1ap : : find_ enb_ctx( uint16_t enb _id)
u e_ctx_t*
s1ap : : find_ ue_ctx_from_mme_ue_s1ap_id( uint32_t mme_ue_s1ap _id)
{
std : : map < uint 16_t, enb_ctx_t * > : : iterator it = m_active_enbs . find ( enb _id) ;
if ( it = = m_ active_enbs . end ( ) )
std : : map < uint 32_t, ue_ctx_t * > : : iterator it = m_mme_ue_s1ap_id_to_ue_ctx . find ( mme_ue_s1ap _id) ;
if ( it = = m_ mme_ue_s1ap_id_to_ue_ctx . end ( ) )
{
return NULL ;
}
@ -362,27 +410,13 @@ s1ap::find_enb_ctx(uint16_t enb_id)
}
}
void
s1ap : : add_new_enb_ctx ( const enb_ctx_t & enb_ctx , const struct sctp_sndrcvinfo * enb_sri )
{
m_s1ap_log - > info ( " Adding new eNB context. eNB ID %d \n " , enb_ctx . enb_id ) ;
std : : set < uint32_t > ue_set ;
enb_ctx_t * enb_ptr = new enb_ctx_t ;
memcpy ( enb_ptr , & enb_ctx , sizeof ( enb_ctx_t ) ) ;
m_active_enbs . insert ( std : : pair < uint16_t , enb_ctx_t * > ( enb_ptr - > enb_id , enb_ptr ) ) ;
m_sctp_to_enb_id . insert ( std : : pair < int32_t , uint16_t > ( enb_sri - > sinfo_assoc_id , enb_ptr - > enb_id ) ) ;
m_enb_id_to_ue_ids . insert ( std : : pair < uint16_t , std : : set < uint32_t > > ( enb_ptr - > enb_id , ue_set ) ) ;
return ;
}
ue_ctx_t *
s1ap : : find_ue_ctx ( uint32_t mme_ue_s1ap_id )
s1ap : : find_ue_ctx_from_imsi ( uint64_t imsi )
{
std : : map < uint 32 _t, ue_ctx_t * > : : iterator it = m_ active_ues. find ( mme_ue_s1ap_id ) ;
if ( it = = m_ active_ues . end ( ) )
{
return NULL ;
std : : map < uint64_t , ue_ctx_t * > : : iterator it = m_imsi_to_ue_ctx . find ( imsi ) ;
if ( it = = m_imsi_to_ue_ctx . end ( ) )
{
return NULL ;
}
else
{
@ -391,58 +425,127 @@ s1ap::find_ue_ctx(uint32_t mme_ue_s1ap_id)
}
void
s1ap : : add_new_ue_ctx ( const ue_ctx_t & ue_ctx )
s1ap : : release_ues_ecm_ctx_in_enb ( uint16_t enb_id )
{
//delete UEs ctx
std : : map < uint16_t , std : : set < uint32_t > > : : iterator ues_in_enb = m_enb_id_to_ue_ids . find ( enb_id ) ;
std : : set < uint32_t > : : iterator ue_id = ues_in_enb - > second . begin ( ) ;
while ( ue_id ! = ues_in_enb - > second . end ( ) )
{
std : : map < uint32_t , ue_ctx_t * > : : iterator ue_ctx = m_mme_ue_s1ap_id_to_ue_ctx . find ( * ue_id ) ;
ue_ecm_ctx_t * ecm_ctx = & ue_ctx - > second - > ecm_ctx ;
m_s1ap_log - > info ( " Releasing UE ECM context. UE-MME S1AP Id: %d \n " , ecm_ctx - > mme_ue_s1ap_id ) ;
m_s1ap_log - > console ( " Releasing UE ECM context. UE-MME S1AP Id: %d \n " , ecm_ctx - > mme_ue_s1ap_id ) ;
ues_in_enb - > second . erase ( ecm_ctx - > mme_ue_s1ap_id ) ;
ecm_ctx - > state = ECM_STATE_IDLE ;
ecm_ctx - > mme_ue_s1ap_id = 0 ;
ecm_ctx - > enb_ue_s1ap_id = 0 ;
}
}
bool
s1ap : : release_ue_ecm_ctx ( uint32_t mme_ue_s1ap_id )
{
ue_ctx_t * ue_ptr = new ue_ctx_t ;
memcpy ( ue_ptr , & ue_ctx , sizeof ( ue_ctx ) ) ;
m_active_ues . insert ( std : : pair < uint32_t , ue_ctx_t * > ( ue_ptr - > mme_ue_s1ap_id , ue_ptr ) ) ;
std : : map < int32_t , uint16_t > : : iterator it_enb = m_sctp_to_enb_id . find ( ue_ptr - > enb_sri . sinfo_assoc_id ) ;
uint16_t enb_id = it_enb - > second ;
std : : map < uint16_t , std : : set < uint32_t > > : : iterator it_ue_id = m_enb_id_to_ue_ids . find ( enb_id ) ;
if ( it_ue_id = = m_enb_id_to_ue_ids . end ( ) )
ue_ctx_t * ue_ctx = find_ue_ctx_from_mme_ue_s1ap_id ( mme_ue_s1ap_id ) ;
if ( ue_ctx = = NULL )
{
m_s1ap_log - > error ( " Could not find eNB's UEs \n " ) ;
return ;
m_s1ap_log - > error ( " Cannot release UE ECM context, UE not found. MME-UE S1AP Id: %d \n " , mme_ue_s1ap_id ) ;
return false ;
}
it_ue_id - > second . insert ( ue_ptr - > mme_ue_s1ap_id ) ;
return ;
ue_ecm_ctx_t * ecm_ctx = & ue_ctx - > ecm_ctx ;
//Delete UE within eNB UE set
std : : map < int32_t , uint16_t > : : iterator it = m_sctp_to_enb_id . find ( ecm_ctx - > enb_sri . sinfo_assoc_id ) ;
if ( it = = m_sctp_to_enb_id . end ( ) )
{
m_s1ap_log - > error ( " Could not find eNB for UE release request. \n " ) ;
return false ;
}
uint16_t enb_id = it - > second ;
std : : map < uint16_t , std : : set < uint32_t > > : : iterator ue_set = m_enb_id_to_ue_ids . find ( enb_id ) ;
if ( ue_set = = m_enb_id_to_ue_ids . end ( ) )
{
m_s1ap_log - > error ( " Could not find the eNB's UEs. \n " ) ;
return false ;
}
ue_set - > second . erase ( mme_ue_s1ap_id ) ;
//Release UE ECM context
m_mme_ue_s1ap_id_to_ue_ctx . erase ( mme_ue_s1ap_id ) ;
ecm_ctx - > state = ECM_STATE_IDLE ;
ecm_ctx - > mme_ue_s1ap_id = 0 ;
ecm_ctx - > enb_ue_s1ap_id = 0 ;
m_s1ap_log - > info ( " Released UE ECM Context. \n " ) ;
return true ;
}
uint32_t
s1ap : : get_next_mme_ue_s1ap_id ( )
bool
s1ap : : delete_ue_ctx( uint64_t imsi )
{
return m_next_mme_ue_s1ap_id + + ;
ue_ctx_t * ue_ctx = find_ue_ctx_from_imsi ( imsi ) ;
if ( ue_ctx = = NULL )
{
m_s1ap_log - > info ( " Cannot delete UE context, UE not found. IMSI: %d \n " , imsi ) ;
return false ;
}
//Make sure to release ECM ctx
if ( ue_ctx - > ecm_ctx . mme_ue_s1ap_id ! = 0 )
{
release_ue_ecm_ctx ( ue_ctx - > ecm_ctx . mme_ue_s1ap_id ) ;
}
//Delete UE context
m_imsi_to_ue_ctx . erase ( imsi ) ;
delete ue_ctx ;
m_s1ap_log - > info ( " Deleted UE Context. \n " ) ;
return true ;
}
//UE Bearer Managment
void
s1ap : : activate_eps_bearer ( uint32_t mme_s1ap_id , uint8_t ebi )
s1ap : : activate_eps_bearer ( uint 64_t imsi , uint8_t ebi )
{
std : : map < uint32_t , ue_ctx_t * > : : iterator ue_ctx_it = m_active_ues . find ( mme_s1ap_id ) ;
if ( ue_ctx_it = = m_active_ues . end ( ) )
std : : map < uint64_t , ue_ctx_t * > : : iterator ue_ctx_it = m_imsi_to_ue_ctx . find ( imsi ) ;
if ( ue_ctx_it = = m_imsi_to_ue_ctx . end ( ) )
{
m_s1ap_log - > error ( " Could not activate EPS bearer: Could not find UE context \n " ) ;
return ;
}
//Make sure NAS is active
uint32_t mme_ue_s1ap_id = ue_ctx_it - > second - > ecm_ctx . mme_ue_s1ap_id ;
std : : map < uint32_t , ue_ctx_t * > : : iterator it = m_mme_ue_s1ap_id_to_ue_ctx . find ( mme_ue_s1ap_id ) ;
if ( it = = m_mme_ue_s1ap_id_to_ue_ctx . end ( ) )
{
m_s1ap_log - > error ( " Could not find UE context \n " ) ;
m_s1ap_log - > error ( " Could not activate EPS bearer: ECM context seems to be missing \n " ) ;
return ;
}
ue_ctx_t * ue_ctx = ue_ctx_it - > second ;
if ( ue_ctx - > erabs_ctx [ ebi ] . state ! = ERAB_CTX_SETUP )
ue_ecm_ctx_t * ecm_ctx = & ue_ctx_it - > second - > ecm_ctx ;
if ( ecm_ctx - > erabs_ctx [ ebi ] . state ! = ERAB_CTX_SETUP )
{
m_s1ap_log - > error ( " EPS Bearer could not be activated. MME S1AP Id %d, EPS Bearer id %d, state %d \n " , mme_s1ap_id , ebi , ue_ctx - > erabs_ctx [ ebi ] . state ) ;
m_s1ap_log - > console ( " EPS Bearer could not be activated. MME S1AP Id %d, EPS Bearer id %d \n " , mme_s1ap_id , ebi , ue_ctx - > erabs_ctx [ ebi ] . state ) ;
m_s1ap_log - > error ( " Could not be activate EPS Bearer, bearer in wrong state: MME S1AP Id %d, EPS Bearer id %d, state %d\n " , mme_ ue_ s1ap_id, ebi , ecm _ctx- > erabs_ctx [ ebi ] . state ) ;
m_s1ap_log - > console ( " Could not be activate EPS Bearer, bearer in wrong state: MME S1AP Id %d, EPS Bearer id %d\n " , mme_ ue_ s1ap_id, ebi , ecm _ctx- > erabs_ctx [ ebi ] . state ) ;
return ;
}
ue_ctx - > erabs_ctx [ ebi ] . state = ERAB_ACTIVE ;
m_s1ap_log - > info ( " Activated EPS Bearer \n " ) ;
ecm_ctx - > erabs_ctx [ ebi ] . state = ERAB_ACTIVE ;
ecm_ctx - > state = ECM_STATE_CONNECTED ;
m_s1ap_log - > info ( " Activated EPS Bearer: Bearer id %d \n " , ebi ) ;
return ;
}
uint32_t
s1ap : : allocate_m_tmsi ( uint 32_t mme_ue_s1ap_id )
s1ap : : allocate_m_tmsi ( uint 64_t imsi )
{
//uint32_t m_tmsi = m_next_m_tmsi++;
//m_tmsi_to_s1ap_id.insert(std::pair<uint32_t,uint32_t>(m_tmsi,mme_ue_s1ap_id));
uint32_t m_tmsi = 0x0123 ;
// uint32_t m_tmsi = m_next_m_tmsi++;
uint32_t m_tmsi = m_next_m_tmsi ;
m_tmsi_to_imsi . insert ( std : : pair < uint32_t , uint64_t > ( m_tmsi , imsi ) ) ;
m_s1ap_log - > debug ( " Allocated M-TMSI 0x%x to IMSI %015lu, \n " , m_tmsi , imsi ) ;
return m_tmsi ;
}
@ -478,3 +581,4 @@ s1ap::print_enb_ctx_info(const std::string &prefix, const enb_ctx_t &enb_ctx)
}
} //namespace srsepc