colosseum-near-rt-ric/setup/e2/RIC-E2-TERMINATION/TEST/T1/E2Builder.h

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2021-12-08 21:17:46 +01:00
/*
* Copyright 2019 AT&T Intellectual Property
* Copyright 2019 Nokia
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
//
// Created by adi ENZEL on 12/10/19.
//
#ifndef E2_E2BUILDER_H
#define E2_E2BUILDER_H
#include <cstring>
#include <cstdio>
#include <cerrno>
#include <cstdlib>
#include <sys/types.h>
#include <error.h>
#include <algorithm>
#include <3rdparty/oranE2SM/E2SM-gNB-NRT-RANfunction-Definition.h>
#include <3rdparty/oranE2SM/RIC-InsertStyle-List.h>
#include <3rdparty/oranE2SM/RANparameterDef-Item.h>
#include <3rdparty/oranE2/GlobalE2node-en-gNB-ID.h>
//#include <mdclog/mdclog.h>
#include "oranE2/E2AP-PDU.h"
#include "oranE2/InitiatingMessage.h"
#include "oranE2/SuccessfulOutcome.h"
#include "oranE2/UnsuccessfulOutcome.h"
#include "oranE2/ProtocolIE-Field.h"
#include "oranE2/ENB-ID.h"
#include "oranE2/GlobalENB-ID.h"
#include "oranE2/GlobalE2node-gNB-ID.h"
#include "oranE2/constr_TYPE.h"
#include "oranE2/asn_constant.h"
using namespace std;
#define printEntry(type, function); fprintf(stdout, "start Test %s , %s", type, function);
static void checkAndPrint(asn_TYPE_descriptor_t *typeDescriptor, void *data, char *dataType, const char *function) {
char errbuf[128]; /* Buffer for error message */
size_t errlen = sizeof(errbuf); /* Size of the buffer */
if (asn_check_constraints(typeDescriptor, data, errbuf, &errlen) != 0) {
fprintf(stderr, "%s Constraint validation failed: %s", dataType, errbuf);
}
fprintf(stdout, "%s successes function %s", dataType, function);
}
void createPLMN_IDByMCCandMNC(PLMN_Identity_t *plmnId, int mcc, int mnc) {
//printEntry("PLMN_Identity_t", __func__)
ASN_STRUCT_RESET(asn_DEF_PLMN_Identity, plmnId);
plmnId->size = 3;
plmnId->buf = (uint8_t *) calloc(1, 3);
volatile auto mcc1 = (unsigned int) (mcc / 100);
volatile auto mcc2 = (unsigned int) (mcc / 10 % 10);
volatile auto mcc3 = (unsigned int) (mcc % 10);
plmnId->buf[0] = mcc2 << 4 | mcc1;
volatile auto mnc1 = (unsigned int)0;
volatile auto mnc2 = (unsigned int)0;
volatile auto mnc3 = (unsigned int)0;
if (mnc >= 100) {
mnc1 = (unsigned int) (mnc / 100);
mnc2 = (unsigned int) (mnc / 10 % 10);
mnc3 = (unsigned int) (mnc % 10);
} else {
mnc1 = (unsigned int) (mnc / 10);
mnc2 = (unsigned int) (mnc % 10);
mnc3 = 15;
}
plmnId->buf[1] = mcc3 << 4 | mnc3 ;
plmnId->buf[2] = mnc2 << 4 | mnc1 ;
//checkAndPrint(&asn_DEF_PLMN_Identity, plmnId, (char *) "PLMN_Identity_t", __func__);
}
PLMN_Identity_t *createPLMN_ID(const unsigned char *data) {
printEntry("PLMN_Identity_t", __func__)
auto *plmnId = (PLMN_Identity_t *) calloc(1, sizeof(PLMN_Identity_t));
ASN_STRUCT_RESET(asn_DEF_PLMN_Identity, plmnId);
plmnId->size = 3;
plmnId->buf = (uint8_t *) calloc(1, 3);
memcpy(plmnId->buf, data, 3);
checkAndPrint(&asn_DEF_PLMN_Identity, plmnId, (char *) "PLMN_Identity_t", __func__);
return plmnId;
}
BIT_STRING_t *createBIT_STRING(int size, int unusedBits, uint8_t *data) {
printEntry("BIT_STRING_t", __func__)
auto *bitString = (BIT_STRING_t *) calloc(1, sizeof(BIT_STRING_t));
ASN_STRUCT_RESET(asn_DEF_BIT_STRING, bitString);
bitString->size = size;
bitString->bits_unused = unusedBits;
bitString->buf = (uint8_t *) calloc(1, size);
// set bits to zero
data[bitString->size - 1] = ((unsigned) (data[bitString->size - 1] >>
(unsigned) bitString->bits_unused)
<< (unsigned) bitString->bits_unused);
memcpy(bitString->buf, data, size);
checkAndPrint(&asn_DEF_BIT_STRING, bitString, (char *) "BIT_STRING_t", __func__);
return bitString;
}
OCTET_STRING_t *createOCTET_STRING(const unsigned char *data, int size) {
printEntry("OCTET_STRING_t", __func__)
auto *octs = (PLMN_Identity_t *) calloc(1, sizeof(PLMN_Identity_t));
ASN_STRUCT_RESET(asn_DEF_OCTET_STRING, octs);
octs->size = size;
octs->buf = (uint8_t *) calloc(1, size);
memcpy(octs->buf, data, size);
checkAndPrint(&asn_DEF_OCTET_STRING, octs, (char *) "OCTET_STRING_t", __func__);
return octs;
}
ENB_ID_t *createENB_ID(ENB_ID_PR enbType, unsigned char *data) {
printEntry("ENB_ID_t", __func__)
auto *enb = (ENB_ID_t *) calloc(1, sizeof(ENB_ID_t));
ASN_STRUCT_RESET(asn_DEF_ENB_ID, enb);
enb->present = enbType;
switch (enbType) {
case ENB_ID_PR_macro_eNB_ID: { // 20 bit 3 bytes
enb->choice.macro_eNB_ID.size = 3;
enb->choice.macro_eNB_ID.bits_unused = 4;
enb->present = ENB_ID_PR_macro_eNB_ID;
enb->choice.macro_eNB_ID.buf = (uint8_t *) calloc(1, enb->choice.macro_eNB_ID.size);
data[enb->choice.macro_eNB_ID.size - 1] = ((unsigned) (data[enb->choice.macro_eNB_ID.size - 1] >>
(unsigned) enb->choice.macro_eNB_ID.bits_unused)
<< (unsigned) enb->choice.macro_eNB_ID.bits_unused);
memcpy(enb->choice.macro_eNB_ID.buf, data, enb->choice.macro_eNB_ID.size);
break;
}
case ENB_ID_PR_home_eNB_ID: { // 28 bit 4 bytes
enb->choice.home_eNB_ID.size = 4;
enb->choice.home_eNB_ID.bits_unused = 4;
enb->present = ENB_ID_PR_home_eNB_ID;
enb->choice.home_eNB_ID.buf = (uint8_t *) calloc(1, enb->choice.home_eNB_ID.size);
data[enb->choice.home_eNB_ID.size - 1] = ((unsigned) (data[enb->choice.home_eNB_ID.size - 1] >>
(unsigned) enb->choice.home_eNB_ID.bits_unused)
<< (unsigned) enb->choice.home_eNB_ID.bits_unused);
memcpy(enb->choice.home_eNB_ID.buf, data, enb->choice.home_eNB_ID.size);
break;
}
case ENB_ID_PR_short_Macro_eNB_ID: { // 18 bit - 3 bytes
enb->choice.short_Macro_eNB_ID.size = 3;
enb->choice.short_Macro_eNB_ID.bits_unused = 6;
enb->present = ENB_ID_PR_short_Macro_eNB_ID;
enb->choice.short_Macro_eNB_ID.buf = (uint8_t *) calloc(1, enb->choice.short_Macro_eNB_ID.size);
data[enb->choice.short_Macro_eNB_ID.size - 1] = (
(unsigned) (data[enb->choice.short_Macro_eNB_ID.size - 1] >>
(unsigned) enb->choice.short_Macro_eNB_ID.bits_unused)
<< (unsigned) enb->choice.short_Macro_eNB_ID.bits_unused);
memcpy(enb->choice.short_Macro_eNB_ID.buf, data, enb->choice.short_Macro_eNB_ID.size);
break;
}
case ENB_ID_PR_long_Macro_eNB_ID: { // 21
enb->choice.long_Macro_eNB_ID.size = 3;
enb->choice.long_Macro_eNB_ID.bits_unused = 3;
enb->present = ENB_ID_PR_long_Macro_eNB_ID;
enb->choice.long_Macro_eNB_ID.buf = (uint8_t *) calloc(1, enb->choice.long_Macro_eNB_ID.size);
data[enb->choice.long_Macro_eNB_ID.size - 1] =
((unsigned) (data[enb->choice.long_Macro_eNB_ID.size - 1] >> (unsigned) enb->choice.long_Macro_eNB_ID.bits_unused)
<< (unsigned) enb->choice.long_Macro_eNB_ID.bits_unused);
memcpy(enb->choice.long_Macro_eNB_ID.buf, data, enb->choice.long_Macro_eNB_ID.size);
break;
}
default:
free(enb);
return nullptr;
}
checkAndPrint(&asn_DEF_ENB_ID, enb, (char *) "ENB_ID_t", __func__);
return enb;
}
GlobalENB_ID_t *createGlobalENB_ID(PLMN_Identity_t *plmnIdentity, ENB_ID_t *enbId) {
printEntry("GlobalENB_ID_t", __func__)
auto *genbId = (GlobalENB_ID_t *) calloc(1, sizeof(GlobalENB_ID_t));
ASN_STRUCT_RESET(asn_DEF_GlobalENB_ID, genbId);
memcpy(&genbId->pLMN_Identity, plmnIdentity, sizeof(PLMN_Identity_t));
memcpy(&genbId->eNB_ID, enbId, sizeof(ENB_ID_t));
checkAndPrint(&asn_DEF_GlobalENB_ID, genbId, (char *) "GlobalENB_ID_t", __func__);
return genbId;
}
//static void buildInitiatingMessagePDU(E2AP_PDU_t &pdu, InitiatingMessage_t *initMsg) {
// pdu.present = E2AP_PDU_PR_initiatingMessage;
// pdu.choice.initiatingMessage = initMsg;
//}
template<typename T>
static void buildInitMsg(InitiatingMessage_t &initMsg,
InitiatingMessage__value_PR present,
ProcedureCode_t procedureCode,
Criticality_t criticality,
T *value) {
initMsg.value.present = present;
initMsg.procedureCode = procedureCode;
initMsg.criticality = criticality;
switch (present) {
case InitiatingMessage__value_PR_RICsubscriptionRequest: {
memcpy(&initMsg.value.choice.RICsubscriptionRequest, value, sizeof(*value));
break;
}
case InitiatingMessage__value_PR_RICsubscriptionDeleteRequest: {
memcpy(&initMsg.value.choice.RICsubscriptionDeleteRequest, value, sizeof(*value));
break;
}
case InitiatingMessage__value_PR_RICserviceUpdate: {
memcpy(&initMsg.value.choice.RICserviceUpdate, value, sizeof(*value));
break;
}
case InitiatingMessage__value_PR_RICcontrolRequest: {
memcpy(&initMsg.value.choice.RICcontrolRequest, value, sizeof(*value));
break;
}
case InitiatingMessage__value_PR_RICindication: {
memcpy(&initMsg.value.choice.RICindication, value, sizeof(*value));
break;
}
case InitiatingMessage__value_PR_RICserviceQuery: {
memcpy(&initMsg.value.choice.RICserviceQuery, value, sizeof(*value));
break;
}
case InitiatingMessage__value_PR_NOTHING:
default : {
break;
}
}
}
//static void buildSuccsesfulMessagePDU(E2AP_PDU_t &pdu, SuccessfulOutcome_t *succMsg) {
// pdu.present = E2AP_PDU_PR_successfulOutcome;
// pdu.choice.successfulOutcome = succMsg;
//}
template<typename T>
static void buildSuccMsg(SuccessfulOutcome_t &succMsg,
SuccessfulOutcome__value_PR present,
ProcedureCode_t procedureCode,
Criticality_t criticality,
T *value) {
succMsg.value.present = present;
succMsg.procedureCode = procedureCode;
succMsg.criticality = criticality;
switch (present) {
case SuccessfulOutcome__value_PR_RICsubscriptionResponse: {
memcpy(&succMsg.value.choice.RICsubscriptionResponse, value, sizeof(*value));
break;
}
case SuccessfulOutcome__value_PR_RICsubscriptionDeleteResponse: {
memcpy(&succMsg.value.choice.RICsubscriptionDeleteResponse, value, sizeof(*value));
break;
}
case SuccessfulOutcome__value_PR_RICserviceUpdateAcknowledge: {
memcpy(&succMsg.value.choice.RICserviceUpdateAcknowledge, value, sizeof(*value));
break;
}
case SuccessfulOutcome__value_PR_RICcontrolAcknowledge: {
memcpy(&succMsg.value.choice.RICcontrolAcknowledge, value, sizeof(*value));
break;
}
case SuccessfulOutcome__value_PR_ResetResponse: {
memcpy(&succMsg.value.choice.ResetResponse, value, sizeof(*value));
break;
}
case SuccessfulOutcome__value_PR_NOTHING:
default:
break;
}
}
//static void buildUnSucssesfullMessagePDU(E2AP_PDU_t &pdu, UnsuccessfulOutcome_t *unSuccMsg) {
// pdu.present = E2AP_PDU_PR_unsuccessfulOutcome;
// pdu.choice.unsuccessfulOutcome = unSuccMsg;
//}
template<typename T>
static void buildUnSuccMsg(UnsuccessfulOutcome_t &unSuccMsg,
UnsuccessfulOutcome__value_PR present,
ProcedureCode_t procedureCode,
Criticality_t criticality,
T *value) {
unSuccMsg.value.present = present;
unSuccMsg.procedureCode = procedureCode;
unSuccMsg.criticality = criticality;
switch (present) {
case UnsuccessfulOutcome__value_PR_RICsubscriptionFailure: {
memcpy(&unSuccMsg.value.choice.RICsubscriptionFailure, value, sizeof(*value));
break;
}
case UnsuccessfulOutcome__value_PR_RICsubscriptionDeleteFailure: {
memcpy(&unSuccMsg.value.choice.RICsubscriptionDeleteFailure, value, sizeof(*value));
break;
}
case UnsuccessfulOutcome__value_PR_RICserviceUpdateFailure: {
memcpy(&unSuccMsg.value.choice.RICserviceUpdateFailure, value, sizeof(*value));
break;
}
case UnsuccessfulOutcome__value_PR_RICcontrolFailure: {
memcpy(&unSuccMsg.value.choice.RICcontrolFailure, value, sizeof(*value));
break;
}
case UnsuccessfulOutcome__value_PR_NOTHING:
default:
break;
}
}
//static void createPLMN_ID(PLMN_Identity_t &plmnId, const unsigned char *data) {
// //printEntry("PLMN_Identity_t", __func__)
// //PLMN_Identity_t *plmnId = calloc(1, sizeof(PLMN_Identity_t));
// ASN_STRUCT_RESET(asn_DEF_PLMN_Identity, &plmnId);
// plmnId.size = 3;// uint64_t st = 0;
//// uint32_t aux1 = 0;
//// st = rdtscp(aux1);
//
// plmnId.buf = (uint8_t *) calloc(1, 3);
// memcpy(plmnId.buf, data, 3);
//
// checkAndPrint(&asn_DEF_PLMN_Identity, &plmnId, (char *) "PLMN_Identity_t", __func__);
//
//}
static void createENB_ID(ENB_ID_t &enb, ENB_ID_PR enbType, unsigned char *data) {
//printEntry("ENB_ID_t", __func__)
ASN_STRUCT_RESET(asn_DEF_ENB_ID, &enb);
enb.present = enbType;
switch (enbType) {
case ENB_ID_PR_macro_eNB_ID: { // 20 bit 3 bytes
enb.choice.macro_eNB_ID.size = 3;
enb.choice.macro_eNB_ID.bits_unused = 4;
enb.present = ENB_ID_PR_macro_eNB_ID;
enb.choice.macro_eNB_ID.buf = (uint8_t *) calloc(1, enb.choice.macro_eNB_ID.size);
data[enb.choice.macro_eNB_ID.size - 1] = ((unsigned) (data[enb.choice.macro_eNB_ID.size - 1]
>> (unsigned) enb.choice.macro_eNB_ID.bits_unused)
<< (unsigned) enb.choice.macro_eNB_ID.bits_unused);
memcpy(enb.choice.macro_eNB_ID.buf, data, enb.choice.macro_eNB_ID.size);
break;
}
case ENB_ID_PR_home_eNB_ID: { // 28 bit 4 bytes
enb.choice.home_eNB_ID.size = 4;
enb.choice.home_eNB_ID.bits_unused = 4;
enb.present = ENB_ID_PR_home_eNB_ID;
enb.choice.home_eNB_ID.buf = (uint8_t *) calloc(1, enb.choice.home_eNB_ID.size);
data[enb.choice.home_eNB_ID.size - 1] = ((unsigned) (data[enb.choice.home_eNB_ID.size - 1]
>> (unsigned) enb.choice.home_eNB_ID.bits_unused)
<< (unsigned) enb.choice.home_eNB_ID.bits_unused);
memcpy(enb.choice.home_eNB_ID.buf, data, enb.choice.home_eNB_ID.size);
break;
}
case ENB_ID_PR_short_Macro_eNB_ID: { // 18 bit - 3 bytes
enb.choice.short_Macro_eNB_ID.size = 3;
enb.choice.short_Macro_eNB_ID.bits_unused = 6;
enb.present = ENB_ID_PR_short_Macro_eNB_ID;
enb.choice.short_Macro_eNB_ID.buf = (uint8_t *) calloc(1, enb.choice.short_Macro_eNB_ID.size);
data[enb.choice.short_Macro_eNB_ID.size - 1] = ((unsigned) (data[enb.choice.short_Macro_eNB_ID.size - 1]
>> (unsigned) enb.choice.short_Macro_eNB_ID.bits_unused)
<< (unsigned) enb.choice.short_Macro_eNB_ID.bits_unused);
memcpy(enb.choice.short_Macro_eNB_ID.buf, data, enb.choice.short_Macro_eNB_ID.size);
break;
}
case ENB_ID_PR_long_Macro_eNB_ID: { // 21
enb.choice.long_Macro_eNB_ID.size = 3;
enb.choice.long_Macro_eNB_ID.bits_unused = 3;
enb.present = ENB_ID_PR_long_Macro_eNB_ID;
enb.choice.long_Macro_eNB_ID.buf = (uint8_t *) calloc(1, enb.choice.long_Macro_eNB_ID.size);
data[enb.choice.long_Macro_eNB_ID.size - 1] = ((unsigned) (data[enb.choice.long_Macro_eNB_ID.size - 1]
>> (unsigned) enb.choice.long_Macro_eNB_ID.bits_unused)
<< (unsigned) enb.choice.long_Macro_eNB_ID.bits_unused);
memcpy(enb.choice.long_Macro_eNB_ID.buf, data, enb.choice.long_Macro_eNB_ID.size);
break;
}
default:
break;
}
checkAndPrint(&asn_DEF_ENB_ID, &enb, (char *) "ENB_ID_t", __func__);
}
static void buildGlobalENB_ID(GlobalENB_ID_t *gnbId,
const unsigned char *gnbData,
ENB_ID_PR enbType,
unsigned char *enbData) {
auto *plmnID = createPLMN_ID(gnbData);
memcpy(&gnbId->pLMN_Identity, plmnID, sizeof(PLMN_Identity_t));
createENB_ID(gnbId->eNB_ID, enbType, enbData);
checkAndPrint(&asn_DEF_GlobalENB_ID, gnbId, (char *) "GlobalENB_ID_t", __func__);
}
void buildSetupRequest(E2AP_PDU_t *pdu, int mcc, int mnc) {
ASN_STRUCT_RESET(asn_DEF_E2AP_PDU, pdu);
pdu->choice.initiatingMessage = (InitiatingMessage_t *)calloc(1, sizeof(InitiatingMessage_t));
auto *initiatingMessage = pdu->choice.initiatingMessage;
ASN_STRUCT_RESET(asn_DEF_InitiatingMessage, initiatingMessage);
initiatingMessage->procedureCode = ProcedureCode_id_E2setup;
initiatingMessage->criticality = Criticality_reject;
initiatingMessage->value.present = InitiatingMessage__value_PR_E2setupRequest;
auto *e2SetupRequestIEs = (E2setupRequestIEs_t *)calloc(1, sizeof(E2setupRequestIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupRequestIEs, e2SetupRequestIEs);
e2SetupRequestIEs->value.choice.GlobalE2node_ID.present = GlobalE2node_ID_PR_gNB;
e2SetupRequestIEs->value.choice.GlobalE2node_ID.choice.gNB = (GlobalE2node_gNB_ID_t *)calloc(1, sizeof(GlobalE2node_gNB_ID_t));
auto *globalE2NodeGNbId = e2SetupRequestIEs->value.choice.GlobalE2node_ID.choice.gNB;
ASN_STRUCT_RESET(asn_DEF_GlobalE2node_gNB_ID, globalE2NodeGNbId);
createPLMN_IDByMCCandMNC(&globalE2NodeGNbId->global_gNB_ID.plmn_id, mcc, mnc);
globalE2NodeGNbId->global_gNB_ID.gnb_id.present = GNB_ID_Choice_PR_gnb_ID;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size = 4;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf =
(uint8_t *) calloc(1, globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size); //22..32 bits
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.bits_unused = 0;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf[0] = 0xB5;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf[1] = 0xC6;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf[2] = 0x77;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf[3] = 0x88;
e2SetupRequestIEs->criticality = Criticality_reject;
e2SetupRequestIEs->id = ProtocolIE_ID_id_GlobalE2node_ID;
e2SetupRequestIEs->value.present = E2setupRequestIEs__value_PR_GlobalE2node_ID;
auto *e2SetupRequest = &initiatingMessage->value.choice.E2setupRequest;
ASN_STRUCT_RESET(asn_DEF_E2setupRequest, e2SetupRequest);
ASN_SEQUENCE_ADD(&e2SetupRequest->protocolIEs.list, e2SetupRequestIEs);
pdu->present = E2AP_PDU_PR_initiatingMessage;
}
void buildSetupRequesteenGNB(E2AP_PDU_t *pdu, int mcc, int mnc) {
ASN_STRUCT_RESET(asn_DEF_E2AP_PDU, pdu);
pdu->choice.initiatingMessage = (InitiatingMessage_t *)calloc(1, sizeof(InitiatingMessage_t));
auto *initiatingMessage = pdu->choice.initiatingMessage;
ASN_STRUCT_RESET(asn_DEF_InitiatingMessage, initiatingMessage);
initiatingMessage->procedureCode = ProcedureCode_id_E2setup;
initiatingMessage->criticality = Criticality_reject;
initiatingMessage->value.present = InitiatingMessage__value_PR_E2setupRequest;
auto *e2SetupRequestIEs = (E2setupRequestIEs_t *)calloc(1, sizeof(E2setupRequestIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupRequestIEs, e2SetupRequestIEs);
e2SetupRequestIEs->value.choice.GlobalE2node_ID.present = GlobalE2node_ID_PR_en_gNB;
e2SetupRequestIEs->value.choice.GlobalE2node_ID.choice.en_gNB = (GlobalE2node_en_gNB_ID_t *)calloc(1, sizeof(GlobalE2node_en_gNB_ID_t));
auto *globalE2NodeEN_GNb = e2SetupRequestIEs->value.choice.GlobalE2node_ID.choice.en_gNB;
ASN_STRUCT_RESET(asn_DEF_GlobalE2node_en_gNB_ID, globalE2NodeEN_GNb);
globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.present = ENGNB_ID_PR_gNB_ID;
createPLMN_IDByMCCandMNC(&globalE2NodeEN_GNb->global_gNB_ID.pLMN_Identity, mcc, mnc);
globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.choice.gNB_ID.size = 4;
globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.choice.gNB_ID.buf =
(uint8_t *) calloc(1, globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.choice.gNB_ID.size); //22..32 bits
globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.choice.gNB_ID.buf[0] = 0xC5;
globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.choice.gNB_ID.buf[1] = 0xC6;
globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.choice.gNB_ID.buf[2] = 0xC7;
globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.choice.gNB_ID.buf[3] = 0xF8;
globalE2NodeEN_GNb->global_gNB_ID.gNB_ID.choice.gNB_ID.bits_unused = 0;
e2SetupRequestIEs->criticality = Criticality_reject;
e2SetupRequestIEs->id = ProtocolIE_ID_id_GlobalE2node_ID;
e2SetupRequestIEs->value.present = E2setupRequestIEs__value_PR_GlobalE2node_ID;
auto *e2SetupRequest = &initiatingMessage->value.choice.E2setupRequest;
ASN_STRUCT_RESET(asn_DEF_E2setupRequest, e2SetupRequest);
ASN_SEQUENCE_ADD(&e2SetupRequest->protocolIEs.list, e2SetupRequestIEs);
pdu->present = E2AP_PDU_PR_initiatingMessage;
}
void buildSetupRequestWithFunc(E2AP_PDU_t *pdu, int mcc, int mnc) {
ASN_STRUCT_RESET(asn_DEF_E2AP_PDU, pdu);
pdu->choice.initiatingMessage = (InitiatingMessage_t *)calloc(1, sizeof(InitiatingMessage_t));
auto *initiatingMessage = pdu->choice.initiatingMessage;
ASN_STRUCT_RESET(asn_DEF_InitiatingMessage, initiatingMessage);
initiatingMessage->procedureCode = ProcedureCode_id_E2setup;
initiatingMessage->criticality = Criticality_reject;
initiatingMessage->value.present = InitiatingMessage__value_PR_E2setupRequest;
auto *e2SetupRequestIEs = (E2setupRequestIEs_t *)calloc(1, sizeof(E2setupRequestIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupRequestIEs, e2SetupRequestIEs);
e2SetupRequestIEs->value.choice.GlobalE2node_ID.choice.gNB = (GlobalE2node_gNB_ID_t *)calloc(1, sizeof(GlobalE2node_gNB_ID_t));
auto *globalE2NodeGNbId = e2SetupRequestIEs->value.choice.GlobalE2node_ID.choice.gNB;
ASN_STRUCT_RESET(asn_DEF_GlobalE2node_gNB_ID, globalE2NodeGNbId);
createPLMN_IDByMCCandMNC(&globalE2NodeGNbId->global_gNB_ID.plmn_id, mcc, mnc);
globalE2NodeGNbId->global_gNB_ID.gnb_id.present = GNB_ID_Choice_PR_gnb_ID;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size = 4;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf =
(uint8_t *) calloc(1, globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.size); //22..32 bits
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.bits_unused = 0;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf[0] = 0xB5;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf[1] = 0xC6;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf[2] = 0x77;
globalE2NodeGNbId->global_gNB_ID.gnb_id.choice.gnb_ID.buf[3] = 0x88;
e2SetupRequestIEs->criticality = Criticality_reject;
e2SetupRequestIEs->id = ProtocolIE_ID_id_GlobalE2node_ID;
e2SetupRequestIEs->value.present = E2setupRequestIEs__value_PR_GlobalE2node_ID;
e2SetupRequestIEs->value.choice.GlobalE2node_ID.present = GlobalE2node_ID_PR_gNB;
auto *e2SetupRequest = &initiatingMessage->value.choice.E2setupRequest;
ASN_STRUCT_RESET(asn_DEF_E2setupRequest, e2SetupRequest);
ASN_SEQUENCE_ADD(&e2SetupRequest->protocolIEs.list, e2SetupRequestIEs);
auto *ranFlistIEs = (E2setupRequestIEs_t *)calloc(1, sizeof(E2setupRequestIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupRequestIEs, ranFlistIEs);
ranFlistIEs->criticality = Criticality_reject;
ranFlistIEs->id = ProtocolIE_ID_id_RANfunctionsAdded;
ranFlistIEs->value.present = E2setupRequestIEs__value_PR_RANfunctions_List;
auto *itemIes = (RANfunction_ItemIEs_t *)calloc(1, sizeof(RANfunction_ItemIEs_t));
ASN_STRUCT_RESET(asn_DEF_RANfunction_ItemIEs, itemIes);
E2SM_gNB_NRT_RANfunction_Definition_t ranFunDef;
uint8_t funcDes[] = "asdfghjklpoiuytrewq\0";
ranFunDef.ranFunction_Name.ranFunction_Description.buf = (uint8_t *)calloc(1, strlen((char *)funcDes));
ranFunDef.ranFunction_Name.ranFunction_Description.size = strlen((char *)funcDes);
memcpy(ranFunDef.ranFunction_Name.ranFunction_Description.buf, funcDes, strlen((char *)funcDes));
uint8_t funcOID[] = "ABCDEFGHIJ1234567890\0";
ranFunDef.ranFunction_Name.ranFunction_E2SM_OID.buf = (uint8_t *)calloc(1, strlen((char *)funcOID));
ranFunDef.ranFunction_Name.ranFunction_E2SM_OID.size = strlen((char *)funcOID);
memcpy(ranFunDef.ranFunction_Name.ranFunction_E2SM_OID.buf, funcOID, strlen((char *)funcOID));
uint8_t shortName[] = "Nothing to declare\0";
ranFunDef.ranFunction_Name.ranFunction_ShortName.buf = (uint8_t *)calloc(1, strlen((char *)shortName));
ranFunDef.ranFunction_Name.ranFunction_ShortName.size = strlen((char *)shortName);
memcpy(ranFunDef.ranFunction_Name.ranFunction_ShortName.buf, shortName, strlen((char *)shortName));
RIC_InsertStyle_List_t insertStyleList;
insertStyleList.ric_CallProcessIDFormat_Type = 28l;
insertStyleList.ric_IndicationHeaderFormat_Type = 29;
insertStyleList.ric_IndicationMessageFormat_Type = 30;
insertStyleList.ric_InsertActionFormat_Type = 31l;
uint8_t styleName[] = "What a style\0";
insertStyleList.ric_InsertStyle_Name.buf = (uint8_t *)calloc(1, strlen((char *)styleName));
insertStyleList.ric_InsertStyle_Name.size = strlen((char *)styleName);
memcpy(insertStyleList.ric_InsertStyle_Name.buf, styleName, strlen((char *)styleName));
insertStyleList.ric_InsertStyle_Type = 23;
RANparameterDef_Item_t raNparameterDefItem;
raNparameterDefItem.ranParameter_ID = 8;
raNparameterDefItem.ranParameter_Type = 12;
uint8_t ItemName[] = "What a style\0";
raNparameterDefItem.ranParameter_Name.buf = (uint8_t *)calloc(1, strlen((char *)ItemName));
raNparameterDefItem.ranParameter_Name.size = strlen((char *)ItemName);
memcpy(raNparameterDefItem.ranParameter_Name.buf, ItemName, strlen((char *)ItemName));
ASN_SEQUENCE_ADD(&insertStyleList.ric_InsertRanParameterDef_List.list, &raNparameterDefItem);
ASN_SEQUENCE_ADD(&ranFunDef.ric_InsertStyle_List->list, &insertStyleList);
//ranFunDef.ric_InsertStyle_List.
uint8_t buffer[8192];
size_t buffer_size = 8192;
auto *ranDef = &itemIes->value.choice.RANfunction_Item.ranFunctionDefinition;
auto er = asn_encode_to_buffer(nullptr, ATS_ALIGNED_BASIC_PER, &asn_DEF_E2SM_gNB_NRT_RANfunction_Definition, &ranFunDef, buffer, buffer_size);
if (er.encoded == -1) {
cerr << "encoding of " << asn_DEF_E2SM_gNB_NRT_RANfunction_Definition.name << " failed, " << strerror(errno) << endl;
exit(-1);
} else if (er.encoded > (ssize_t) buffer_size) {
cerr << "Buffer of size " << buffer_size << " is to small for " << asn_DEF_E2SM_gNB_NRT_RANfunction_Definition.name << endl;
exit(-1);
} else {
ranDef->buf = (uint8_t *)calloc(1, er.encoded);
ranDef->size = er.encoded;
memcpy(ranDef->buf, buffer, ranDef->size);
}
itemIes->id = ProtocolIE_ID_id_RANfunction_Item;
itemIes->criticality = Criticality_reject;
itemIes->value.present = RANfunction_ItemIEs__value_PR_RANfunction_Item;
itemIes->value.choice.RANfunction_Item.ranFunctionID = 1;
// auto *ranDef = &itemIes->value.choice.RANfunction_Item.ranFunctionDefinition;
// ranDef->size = 3;
// ranDef->buf = (uint8_t *)calloc(1, ranDef->size);
// memcpy(ranDef->buf, buf, ranDef->size);
ASN_SEQUENCE_ADD(&ranFlistIEs->value.choice.RANfunctions_List.list, itemIes);
auto *itemIes1 = (RANfunction_ItemIEs_t *)calloc(1, sizeof(RANfunction_ItemIEs_t));
ASN_STRUCT_RESET(asn_DEF_RANfunction_ItemIEs, itemIes1);
itemIes1->id = ProtocolIE_ID_id_RANfunction_Item;
itemIes1->criticality = Criticality_reject;
itemIes1->value.present = RANfunction_ItemIEs__value_PR_RANfunction_Item;
itemIes1->value.choice.RANfunction_Item.ranFunctionID = 7;
ranDef = &itemIes1->value.choice.RANfunction_Item.ranFunctionDefinition;
ranDef->buf = (uint8_t *)calloc(1, er.encoded);
ranDef->size = er.encoded;
memcpy(ranDef->buf, buffer, ranDef->size);
ASN_SEQUENCE_ADD(&ranFlistIEs->value.choice.RANfunctions_List.list, itemIes1);
ASN_SEQUENCE_ADD(&e2SetupRequest->protocolIEs.list, ranFlistIEs);
pdu->present = E2AP_PDU_PR_initiatingMessage;
}
void buildSetupSuccsessfulResponse(E2AP_PDU_t *pdu, int mcc, int mnc, uint8_t *data) {
ASN_STRUCT_RESET(asn_DEF_E2AP_PDU, pdu);
pdu->choice.successfulOutcome = (SuccessfulOutcome_t *)calloc(1, sizeof(SuccessfulOutcome_t));
SuccessfulOutcome_t *successfulOutcome = pdu->choice.successfulOutcome;
ASN_STRUCT_RESET(asn_DEF_E2setupResponse, &successfulOutcome->value.choice.E2setupResponse);
successfulOutcome->procedureCode = ProcedureCode_id_E2setup;
successfulOutcome->criticality = Criticality_reject;
successfulOutcome->value.present = SuccessfulOutcome__value_PR_E2setupResponse;
auto *globalRicidIE = (E2setupResponseIEs_t *)calloc(1, sizeof(E2setupResponseIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupResponseIEs, globalRicidIE);
globalRicidIE->criticality = Criticality_reject;
globalRicidIE->id = ProtocolIE_ID_id_GlobalRIC_ID;
globalRicidIE->value.present = E2setupResponseIEs__value_PR_GlobalRIC_ID;
createPLMN_IDByMCCandMNC(&globalRicidIE->value.choice.GlobalRIC_ID.pLMN_Identity, mcc, mnc);
globalRicidIE->value.choice.GlobalRIC_ID.ric_ID = {nullptr, 3, 4};
globalRicidIE->value.choice.GlobalRIC_ID.ric_ID.buf = (uint8_t *)calloc(1, globalRicidIE->value.choice.GlobalRIC_ID.ric_ID.size);
memcpy(globalRicidIE->value.choice.GlobalRIC_ID.ric_ID.buf, data, globalRicidIE->value.choice.GlobalRIC_ID.ric_ID.size);
globalRicidIE->value.choice.GlobalRIC_ID.ric_ID.buf[2] &= (unsigned)0xF0;
ASN_STRUCT_RESET(asn_DEF_E2setupResponse, &successfulOutcome->value.choice.E2setupResponse);
ASN_SEQUENCE_ADD(&successfulOutcome->value.choice.E2setupResponse.protocolIEs.list, globalRicidIE);
auto *ranFunctionAdd = (E2setupResponseIEs_t *)calloc(1, sizeof(E2setupResponseIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupResponseIEs, ranFunctionAdd);
ranFunctionAdd->criticality = Criticality_reject;
ranFunctionAdd->id = ProtocolIE_ID_id_RANfunctionsAccepted;
ranFunctionAdd->value.present = E2setupResponseIEs__value_PR_RANfunctionsID_List;
auto *ranFuncIdItemIEs = (RANfunctionID_ItemIEs_t *)calloc(1, sizeof(RANfunctionID_ItemIEs_t));
ranFuncIdItemIEs->criticality = Criticality_ignore;
ranFuncIdItemIEs->id = ProtocolIE_ID_id_RANfunctionID_Item;
ranFuncIdItemIEs->value.present = RANfunctionID_ItemIEs__value_PR_RANfunctionID_Item;
ranFuncIdItemIEs->value.choice.RANfunctionID_Item.ranFunctionID = 10;
ranFuncIdItemIEs->value.choice.RANfunctionID_Item.ranFunctionRevision = 1;
ASN_SEQUENCE_ADD(&ranFunctionAdd->value.choice.RANfunctionsID_List.list, ranFuncIdItemIEs);
ASN_SEQUENCE_ADD(&successfulOutcome->value.choice.E2setupResponse.protocolIEs.list, ranFunctionAdd);
pdu->present = E2AP_PDU_PR_successfulOutcome;
}
void buildSetupUnSuccsessfulResponse(E2AP_PDU_t *pdu) {
ASN_STRUCT_RESET(asn_DEF_E2AP_PDU, pdu);
pdu->choice.unsuccessfulOutcome = (UnsuccessfulOutcome_t *)calloc(1, sizeof(UnsuccessfulOutcome_t));
UnsuccessfulOutcome_t *uns = pdu->choice.unsuccessfulOutcome;
uns->procedureCode = ProcedureCode_id_E2setup;
uns->criticality = Criticality_reject;
uns->value.present = UnsuccessfulOutcome__value_PR_E2setupFailure;
ASN_STRUCT_RESET(asn_DEF_E2setupFailure, &uns->value.choice.E2setupFailure);
{
auto *e2SetupFIE = (E2setupFailureIEs_t *) calloc(1, sizeof(E2setupFailureIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupFailureIEs, e2SetupFIE);
e2SetupFIE->criticality = Criticality_ignore;
e2SetupFIE->id = ProtocolIE_ID_id_Cause;
e2SetupFIE->value.present = E2setupFailureIEs__value_PR_Cause;
e2SetupFIE->value.choice.Cause.present = Cause_PR_transport;
e2SetupFIE->value.choice.Cause.choice.transport = CauseTransport_transport_resource_unavailable;
ASN_SEQUENCE_ADD(&uns->value.choice.E2setupFailure.protocolIEs.list, e2SetupFIE);
}
{
auto *e2SetupFIE = (E2setupFailureIEs_t *) calloc(1, sizeof(E2setupFailureIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupFailureIEs, e2SetupFIE);
e2SetupFIE->criticality = Criticality_ignore;
e2SetupFIE->id = ProtocolIE_ID_id_TimeToWait;
e2SetupFIE->value.present = E2setupFailureIEs__value_PR_TimeToWait;
e2SetupFIE->value.choice.TimeToWait = TimeToWait_v60s;
ASN_SEQUENCE_ADD(&uns->value.choice.E2setupFailure.protocolIEs.list, e2SetupFIE);
}
{
auto *e2SetupFIE = (E2setupFailureIEs_t *) calloc(1, sizeof(E2setupFailureIEs_t));
ASN_STRUCT_RESET(asn_DEF_E2setupFailureIEs, e2SetupFIE);
e2SetupFIE->criticality = Criticality_ignore;
e2SetupFIE->id = ProtocolIE_ID_id_CriticalityDiagnostics;
e2SetupFIE->value.present = E2setupFailureIEs__value_PR_CriticalityDiagnostics;
e2SetupFIE->value.choice.CriticalityDiagnostics.procedureCode = (ProcedureCode_t *)calloc(1,sizeof(ProcedureCode_t));
*e2SetupFIE->value.choice.CriticalityDiagnostics.procedureCode = ProcedureCode_id_E2setup;
e2SetupFIE->value.choice.CriticalityDiagnostics.triggeringMessage = (TriggeringMessage_t *)calloc(1,sizeof(TriggeringMessage_t));
*e2SetupFIE->value.choice.CriticalityDiagnostics.triggeringMessage = TriggeringMessage_initiating_message;
e2SetupFIE->value.choice.CriticalityDiagnostics.procedureCriticality = (Criticality_t *)calloc(1, sizeof(Criticality_t));
*e2SetupFIE->value.choice.CriticalityDiagnostics.procedureCriticality = Criticality_reject;
ASN_SEQUENCE_ADD(&uns->value.choice.E2setupFailure.protocolIEs.list, e2SetupFIE);
}
pdu->present = E2AP_PDU_PR_unsuccessfulOutcome;
}
#endif //E2_E2BUILDER_H