blob: 1f74389fd873478910c5e9ac8c7fd613338a8eda [file] [log] [blame]
/*****************************************************************************
# *
# Copyright 2020 AT&T Intellectual Property *
# *
# 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. *
# *
******************************************************************************/
#include <stdio.h>
#include <unistd.h>
#include <string>
#include <iostream>
#include <fstream>
#include <vector>
#include "e2sim.hpp"
#include "e2sim_defs.h"
#include "e2sim_sctp.hpp"
#include "e2ap_message_handler.hpp"
#include "encode_e2apv1.hpp"
using namespace std;
int client_fd = 0;
void E2Sim::register_subscription_callback(long func_id, SubscriptionCallback cb) {
printf("%%%%about to register callback for subscription for func_id %d\n", func_id);
subscription_callbacks[func_id] = cb;
}
SubscriptionCallback E2Sim::get_subscription_callback(long func_id) {
printf("%%%%we are getting the subscription callback for func id %d\n", func_id);
SubscriptionCallback cb = subscription_callbacks[func_id];
return cb;
}
void E2Sim::register_e2sm(long func_id, OCTET_STRING_t *ostr) {
//Error conditions:
//If we already have an entry for func_id
printf("%%%%about to register e2sm func desc for %d\n", func_id);
ran_functions_registered[func_id] = ostr;
}
void E2Sim::encode_and_send_sctp_data(E2AP_PDU_t* pdu)
{
uint8_t *buf;
sctp_buffer_t data;
data.len = e2ap_asn1c_encode_pdu(pdu, &buf);
memcpy(data.buffer, buf, min(data.len, MAX_SCTP_BUFFER));
sctp_send_data(client_fd, data);
}
void E2Sim::wait_for_sctp_data()
{
sctp_buffer_t recv_buf;
if(sctp_receive_data(client_fd, recv_buf) > 0)
{
LOG_I("[SCTP] Received new data of size %d", recv_buf.len);
e2ap_handle_sctp_data(client_fd, recv_buf, false, this);
}
}
void E2Sim::generate_e2apv1_subscription_response_success(E2AP_PDU *e2ap_pdu, long reqActionIdsAccepted[], long reqActionIdsRejected[], int accept_size, int reject_size, long reqRequestorId, long reqInstanceId) {
encoding::generate_e2apv1_subscription_response_success(e2ap_pdu, reqActionIdsAccepted, reqActionIdsRejected, accept_size, reject_size, reqRequestorId, reqInstanceId);
}
void E2Sim::generate_e2apv1_indication_request_parameterized(E2AP_PDU *e2ap_pdu, long requestorId, long instanceId, long ranFunctionId, long actionId, long seqNum, uint8_t *ind_header_buf, int header_length, uint8_t *ind_message_buf, int message_length) {
encoding::generate_e2apv1_indication_request_parameterized(e2ap_pdu, requestorId, instanceId, ranFunctionId, actionId, seqNum, ind_header_buf, header_length, ind_message_buf, message_length);
}
int E2Sim::run_loop(int argc, char* argv[]){
printf("Start E2 Agent (E2 Simulator\n");
ifstream simfile;
string line;
simfile.open("simulation.txt", ios::in);
if (simfile.is_open()) {
while (getline(simfile, line)) {
cout << line << "\n";
}
simfile.close();
}
bool xmlenc = false;
options_t ops = read_input_options(argc, argv);
printf("After reading input options\n");
//E2 Agent will automatically restart upon sctp disconnection
// int server_fd = sctp_start_server(ops.server_ip, ops.server_port);
client_fd = sctp_start_client(ops.server_ip, ops.server_port);
E2AP_PDU_t* pdu_setup = (E2AP_PDU_t*)calloc(1,sizeof(E2AP_PDU));
printf("After starting client\n");
printf("client_fd value is %d\n", client_fd);
std::vector<encoding::ran_func_info> all_funcs;
//Loop through RAN function definitions that are registered
for (std::pair<long, OCTET_STRING_t*> elem : ran_functions_registered) {
printf("looping through ran func\n");
encoding::ran_func_info next_func;
next_func.ranFunctionId = elem.first;
next_func.ranFunctionDesc = elem.second;
next_func.ranFunctionRev = (long)2;
all_funcs.push_back(next_func);
}
printf("about to call setup request encode\n");
generate_e2apv1_setup_request_parameterized(pdu_setup, all_funcs);
printf("After generating e2setup req\n");
xer_fprint(stderr, &asn_DEF_E2AP_PDU, pdu_setup);
printf("After XER Encoding\n");
auto buffer_size = MAX_SCTP_BUFFER;
unsigned char buffer[MAX_SCTP_BUFFER];
sctp_buffer_t data;
char *error_buf = (char*)calloc(300, sizeof(char));
size_t errlen;
asn_check_constraints(&asn_DEF_E2AP_PDU, pdu_setup, error_buf, &errlen);
printf("error length %d\n", errlen);
printf("error buf %s\n", error_buf);
auto er = asn_encode_to_buffer(nullptr, ATS_ALIGNED_BASIC_PER, &asn_DEF_E2AP_PDU, pdu_setup, buffer, buffer_size);
data.len = er.encoded;
fprintf(stderr, "er encded is %d\n", er.encoded);
memcpy(data.buffer, buffer, er.encoded);
if(sctp_send_data(client_fd, data) > 0) {
LOG_I("[SCTP] Sent E2-SETUP-REQUEST");
} else {
LOG_E("[SCTP] Unable to send E2-SETUP-REQUEST to peer");
}
sctp_buffer_t recv_buf;
LOG_I("[SCTP] Waiting for SCTP data");
while(1) //constantly looking for data on SCTP interface
{
if(sctp_receive_data(client_fd, recv_buf) <= 0)
break;
LOG_I("[SCTP] Received new data of size %d", recv_buf.len);
e2ap_handle_sctp_data(client_fd, recv_buf, xmlenc, this);
if (xmlenc) xmlenc = false;
}
return 0;
}