#define TRACE_MODULE _esm_sm #include "core_debug.h" #include "nas/nas_message.h" #include "mme_event.h" #include "mme_sm.h" #include "mme_fd_path.h" #include "emm_handler.h" #include "esm_build.h" #include "esm_handler.h" #include "mme_s11_handler.h" #include "nas_path.h" #include "mme_gtp_path.h" void esm_state_initial(fsm_t *s, event_t *e) { d_assert(s, return, "Null param"); mme_sm_trace(3, e); FSM_TRAN(s, &esm_state_inactive); } void esm_state_final(fsm_t *s, event_t *e) { d_assert(s, return, "Null param"); mme_sm_trace(3, e); } void esm_state_inactive(fsm_t *s, event_t *e) { status_t rv; mme_ue_t *mme_ue = NULL; mme_sess_t *sess = NULL; mme_bearer_t *bearer = NULL; d_assert(s, return, "Null param"); d_assert(e, return, "Null param"); mme_sm_trace(3, e); bearer = mme_bearer_find(event_get_param1(e)); d_assert(bearer, return, "Null param"); sess = bearer->sess; d_assert(sess, return, "Null param"); mme_ue = sess->mme_ue; d_assert(mme_ue, return, "Null param"); switch (event_get(e)) { case FSM_ENTRY_SIG: { break; } case FSM_EXIT_SIG: { break; } case MME_EVT_ESM_MESSAGE: { nas_message_t *message = (nas_message_t *)event_get_param3(e); d_assert(message, break, "Null param"); switch(message->esm.h.message_type) { case NAS_PDN_CONNECTIVITY_REQUEST: { d_trace(3, "[ESM] PDN Connectivity request\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); rv = esm_handle_pdn_connectivity_request( bearer, &message->esm.pdn_connectivity_request); if (rv != CORE_OK) { FSM_TRAN(s, esm_state_exception); break; } break; } case NAS_ESM_INFORMATION_RESPONSE: { d_trace(3, "[ESM] ESM information response\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); rv = esm_handle_information_response( sess, &message->esm.esm_information_response); if (rv != CORE_OK) { FSM_TRAN(s, esm_state_exception); break; } break; } case NAS_ACTIVATE_DEFAULT_EPS_BEARER_CONTEXT_ACCEPT: { d_trace(3, "[ESM] Activate default EPS bearer " "context accept\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); /* Check if Initial Context Setup Response or * E-RAB Setup Response is received */ if (MME_HAVE_ENB_S1U_PATH(bearer)) { rv = mme_gtp_send_modify_bearer_request(bearer, 0); d_assert(rv == CORE_OK,, "gtp send failed"); } rv = nas_send_activate_all_dedicated_bearers(bearer); d_assert(rv == CORE_OK,, "nas send failed"); FSM_TRAN(s, esm_state_active); break; } case NAS_ACTIVATE_DEDICATED_EPS_BEARER_CONTEXT_ACCEPT: { d_trace(3, "[ESM] Activate dedicated EPS bearer " "context accept\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); /* Check if Initial Context Setup Response or * E-RAB Setup Response is received */ if (MME_HAVE_ENB_S1U_PATH(bearer)) { rv = mme_gtp_send_create_bearer_response(bearer); d_assert(rv == CORE_OK,, "gtp send failed"); } FSM_TRAN(s, esm_state_active); break; } default: { d_error("Unknown message(type:%d)", message->esm.h.message_type); break; } } break; } default: { d_error("Unknown event %s", mme_event_get_name(e)); break; } } } void esm_state_active(fsm_t *s, event_t *e) { status_t rv; mme_ue_t *mme_ue = NULL; mme_sess_t *sess = NULL; mme_bearer_t *bearer = NULL; d_assert(s, return, "Null param"); d_assert(e, return, "Null param"); mme_sm_trace(3, e); bearer = mme_bearer_find(event_get_param1(e)); d_assert(bearer, return, "Null param"); sess = bearer->sess; d_assert(sess, return, "Null param"); mme_ue = sess->mme_ue; d_assert(mme_ue, return, "Null param"); switch (event_get(e)) { case FSM_ENTRY_SIG: { break; } case FSM_EXIT_SIG: { break; } case MME_EVT_ESM_MESSAGE: { nas_message_t *message = (nas_message_t *)event_get_param3(e); d_assert(message, break, "Null param"); switch(message->esm.h.message_type) { case NAS_PDN_CONNECTIVITY_REQUEST: { d_trace(3, "[ESM] PDN Connectivity request\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); rv = esm_handle_pdn_connectivity_request( bearer, &message->esm.pdn_connectivity_request); if (rv != CORE_OK) { FSM_TRAN(s, esm_state_exception); break; } FSM_TRAN(s, esm_state_inactive); break; } case NAS_PDN_DISCONNECT_REQUEST: { d_trace(3, "[ESM] PDN disconnect request\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); if (MME_HAVE_SGW_S1U_PATH(sess)) { rv = mme_gtp_send_delete_session_request(sess); d_assert(rv == CORE_OK, return, "mme_gtp_send_delete_session_request error"); } else { rv = nas_send_deactivate_bearer_context_request(bearer); d_assert(rv == CORE_OK, return, "nas_send_deactivate_bearer_context_request failed"); } FSM_TRAN(s, esm_state_pdn_will_disconnect); break; } case NAS_MODIFY_EPS_BEARER_CONTEXT_ACCEPT: { d_trace(3, "[ESM] Modify EPS bearer context accept\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); rv = mme_gtp_send_update_bearer_response(bearer); d_assert(rv == CORE_OK, return, "mme_gtp_send_update_session_request error"); break; } case NAS_DEACTIVATE_EPS_BEARER_CONTEXT_ACCEPT: { d_trace(3, "[ESM] [A] Deactivate EPS bearer " "context accept\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); rv = mme_gtp_send_delete_bearer_response(bearer); d_assert(rv == CORE_OK, return, "mme_gtp_send_delete_session_request error"); FSM_TRAN(s, esm_state_bearer_deactivated); break; } default: { d_error("Unknown message(type:%d)", message->esm.h.message_type); break; } } break; } default: { d_error("Unknown event %s", mme_event_get_name(e)); break; } } } void esm_state_pdn_will_disconnect(fsm_t *s, event_t *e) { mme_ue_t *mme_ue = NULL; mme_sess_t *sess = NULL; mme_bearer_t *bearer = NULL; d_assert(s, return, "Null param"); d_assert(e, return, "Null param"); mme_sm_trace(3, e); bearer = mme_bearer_find(event_get_param1(e)); d_assert(bearer, return, "Null param"); sess = bearer->sess; d_assert(sess, return, "Null param"); mme_ue = sess->mme_ue; d_assert(mme_ue, return, "Null param"); switch (event_get(e)) { case FSM_ENTRY_SIG: { break; } case FSM_EXIT_SIG: { break; } case MME_EVT_ESM_MESSAGE: { nas_message_t *message = (nas_message_t *)event_get_param3(e); d_assert(message, break, "Null param"); switch(message->esm.h.message_type) { case NAS_DEACTIVATE_EPS_BEARER_CONTEXT_ACCEPT: { d_trace(3, "[ESM] [D] Deactivate EPS bearer " "context accept\n"); d_trace(5, " IMSI[%s] PTI[%d] EBI[%d]\n", mme_ue->imsi_bcd, sess->pti, bearer->ebi); FSM_TRAN(s, esm_state_pdn_did_disconnect); break; } default: { d_error("Unknown message(type:%d)", message->esm.h.message_type); break; } } break; } default: { d_error("Unknown event %s", mme_event_get_name(e)); break; } } } void esm_state_pdn_did_disconnect(fsm_t *s, event_t *e) { mme_sm_trace(3, e); switch (event_get(e)) { case FSM_ENTRY_SIG: { break; } case FSM_EXIT_SIG: { break; } default: { d_error("Unknown event %s", mme_event_get_name(e)); break; } } } void esm_state_bearer_deactivated(fsm_t *s, event_t *e) { mme_sm_trace(3, e); switch (event_get(e)) { case FSM_ENTRY_SIG: { break; } case FSM_EXIT_SIG: { break; } default: { d_error("Unknown event %s", mme_event_get_name(e)); break; } } } void esm_state_exception(fsm_t *s, event_t *e) { mme_sm_trace(3, e); switch (event_get(e)) { case FSM_ENTRY_SIG: { break; } case FSM_EXIT_SIG: { break; } default: { d_error("Unknown event %s", mme_event_get_name(e)); break; } } }