device_simulator/voltha_bal_driver.c - asfvolt16-driver - Gitiles

 /*
 ** Copyright 2017-present Open Networking Foundation
 **
 ** 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 <signal.h>
 #include <stdio.h>
 #include <unistd.h>
 #include <sys/time.h>
 #include "bal_msg_type.grpc-c.h"
 #include "bal_osmsg.grpc-c.h"
 #include "bal_model_ids.grpc-c.h"
 #include "bal_obj.grpc-c.h"
 #include "bal_model_types.grpc-c.h"
 #include "bal_errno.grpc-c.h"
 #include "bal.grpc-c.h"

 #ifdef BAL_STUB
 #include "bal_stub.h"
 #else
 #include "asfvolt16_driver.h"
 #endif

 /* Global varibles */
 balCoreIpInfo coreIpPortInfo;

 static grpc_c_server_t *test_server;

 static void sigint_handler (int x) {
    grpc_c_server_destroy(test_server);
    exit(0);
 }

 /*
  * This functions gets invoked whenever bal RPC gets called
  */
 void bal__bal_cfg_get_cb(grpc_c_context_t *context)
 {
    BalCfg *get_cfg;

    /*
     * Read incoming message into get_cfg
     */
    if (context->gcc_payload) {
       context->gcc_stream->read(context, (void **)&get_cfg, 0);
    }

 #ifndef BAL_STUB
    //asfvolt16_bal_cfg_get(key, get_cfg);
 #endif
 }

 /*
  * This functions gets invoked whenever bal RPC gets called
  */
 void bal__bal_cfg_set_cb(grpc_c_context_t *context)
 {
    BalCfg *set_cfg;
    BalErr bal_err;
    int ret_val = 0;

    /*
     * Read incoming message into set_cfg
     */
    if (context->gcc_payload) {
       context->gcc_stream->read(context, (void **)&set_cfg, 0);
    }

    /*
     * send it to BAL
     */

    bal_err__init(&bal_err);

    bal_err.err= 0;

    /*
     * Write reply back to the client
     */

    ret_val = context->gcc_stream->write(context, &bal_err, 0);
    if (ret_val != GRPC_C_WRITE_OK) {
       if(ret_val == GRPC_C_WRITE_PENDING) {
          printf("write is pending, sleep for 10 sec\n", ret_val);
          sleep(10);
       }
       else {
          printf("Failed to write\n", ret_val);
          exit(1);
       }
    }

    grpc_c_status_t status;
    status.gcs_code = 0;

    /*
     * Finish response for RPC
     */
    if (context->gcc_stream->finish(context, &status)) {
       printf("Failed to write status\n");
       exit(1);
    }

 #ifdef BAL_STUB
    pthread_mutex_lock(&lock);

    struct QNode *temp = newNode(set_cfg->hdr->obj_type,
          BAL_ERRNO__BAL_ERR_OK,
          set_cfg->device_id);

 /*   if(set_cfg->hdr->has_obj_type)
    { */

       switch(set_cfg->hdr->obj_type)
       {
          case BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL:
             {
                printf("\n***************************************************\n");
                printf("Received Access Terminal Configuration msg\n");
                printf("***************************************************\n");
             }
             break;
          case BAL_OBJ_ID__BAL_OBJ_ID_INTERFACE:
             {
                printf("\n***************************************************\n");
                printf("Received PON Interface Configuration msg\n");
                printf("***************************************************\n");
                temp->intf_id = set_cfg->interface->key->intf_id;
                printf("Pon ID = %d\n", temp->intf_id);
             }
             break;
          case BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL:
             {
           printf("\n*****************************************************\n");
           printf("Received ONU Activation msg\n");
           printf("*****************************************************\n");
           temp->intf_id = set_cfg->terminal->key->intf_id;
           temp->onu_id = set_cfg->terminal->key->sub_term_id;
           memset(temp->vendor_id, 0, BAL_DEVICE_STR_LEN);
           memcpy(temp->vendor_id,
                 set_cfg->terminal->data->serial_number->vendor_id,
                 strlen(set_cfg->terminal->data->serial_number->vendor_id));
           memset(temp->vendor_specific, 0, BAL_DEVICE_STR_LEN);
           memcpy(temp->vendor_specific,
                 set_cfg->terminal->data->serial_number->vendor_specific,
                 strlen(set_cfg->terminal->data->serial_number->vendor_specific));

             }
             break;
     case BAL_OBJ_ID__BAL_OBJ_ID_PACKET:
        {
           switch(set_cfg->packet->key->packet_send_dest->type)
           {
              case BAL_DEST_TYPE__BAL_DEST_TYPE_ITU_OMCI_CHANNEL:
                 {
                    printf("\n*****************************************************\n");
                    printf("Received OMCI msg\n");
                    printf("*****************************************************\n");
                    temp->intf_id = set_cfg->terminal->key->intf_id;
                    temp->onu_id = set_cfg->terminal->key->sub_term_id;
                 }
                 break;
              default:
                 {
                    ("\n*****************************************************\n");
                    printf("Dest type invalid\n");
                    printf("*****************************************************\n");
                 }
                 break;
           }
        }
        break;
     default:
        {
           ("\n*****************************************************\n");
           printf("Received Invalid msg\n");
           printf("*****************************************************\n");
                     pthread_mutex_unlock(&lock);
                     return;
        }
        break;
       }
       enQueue(set_cfg->hdr->obj_type, temp);
 /*
    }
    else
    {
       printf("BALSTUB:Cfg Set recevied without object type");
    } */
    pthread_mutex_unlock(&lock);
    sleep(2);
    pthread_cond_signal(&cv);
 /*
    if(BAL_OBJ_ID__BAL_OBJ_ID_INTERFACE == set_cfg->hdr->obj_type)
    {
       sleep(5);
       struct QNode *temp1 = newNode(BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL,
             BAL_ERRNO__BAL_ERR_OK,
             set_cfg->device_id);
       temp1->intf_id = set_cfg->interface->key->intf_id;
       temp1->onu_id = 65535;
       printf("sending _onu_discovery_indiaction\n");
       enQueue(BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL, temp1);
       pthread_cond_signal(&cv);
    }
 */
 #else
    if(BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL == set_cfg->hdr->obj_type)
    {
       sleep(5);//enable this if running with gdb
    }
    asfvolt16_bal_cfg_set(set_cfg);
 #endif
 }


 /*
  * This functions gets invoked whenever bal clear RPC gets called
  */
 void bal__bal_cfg_clear_cb(grpc_c_context_t *context)
 {
    BalKey *clear_key;

    /*
     * Read incoming message into clear_key
     */
    if (context->gcc_payload) {
       context->gcc_stream->read(context, (void **)&clear_key, 0);
    }

 #ifndef BAL_STUB
    asfvolt16_bal_cfg_clear(clear_key);
 #endif
 }


 /*
  * This functions gets invoked whenever bal Init RPC gets called
  */
 void bal__bal_api_init_cb(grpc_c_context_t *context)
 {
    BalInit *bal_init;
    BalErr bal_err;
    int ret_val;

    /*
     * Read incoming message into set_cfg
     */
    if (context->gcc_payload) {
       context->gcc_stream->read(context, (void **)&bal_init, 0);
    }

    /*
     * send it to BAL
     */


    ("\n*****************************************************\n");
    printf("Received API Init msg\n");
    printf("*****************************************************\n");

    bal_err__init(&bal_err);

    bal_err.err= 0;

    /*
     * Write reply back to the client
     */
    ret_val = context->gcc_stream->write(context, &bal_err, 0);
    if (ret_val != GRPC_C_WRITE_OK) {
       if(ret_val == GRPC_C_WRITE_PENDING) {
          printf("write is pending, sleep for 10 sec\n", ret_val);
          sleep(10);
       }
       else {
          printf("Failed to write\n", ret_val);
          exit(1);
       }
    }

    grpc_c_status_t status;
    status.gcs_code = 0;

    /*
     * Finish response for RPC
     */
    if (context->gcc_stream->finish(context, &status)) {
       printf("Failed to write status\n");
       exit(1);
    }

 #ifndef BAL_STUB
    asfvolt16_bal_init(bal_init, &coreIpPortInfo);
 #else
    printf("\nRecevied IP Address == %s \n", bal_init->voltha_adapter_ip_port);
    stub_bal_init(bal_init);
 #endif

 }


 /*
  * This functions gets invoked whenever bal finish RPC gets called
  */
 void bal__bal_api_finish_cb(grpc_c_context_t *context)
 {
 #if 0
    void *finish_init;

    /*
     * Read incoming message into set_cfg
     */
    if (context->gcc_payload) {
       context->gcc_stream->read(context, (void **)&finish_init);
    }
 #endif
 }

 #if 0
 /*
  * This functions gets invoked whenever bal finish RPC gets called
  */
 void bal_ind__bal_ind_info_cb(grpc_c_context_t *context)
 {
 #if 0
    void *finish_init;

    /*
     * Read incoming message into set_cfg
     */
    if (context->gcc_payload) {
       context->gcc_stream->read(context, (void **)&finish_init);
    }
 #endif
 }
 #endif

 void bal_ind__bal_acc_term_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_acc_term_oper_sts_cng_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_flow_oper_sts_cng_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_flow_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_group_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_iface_oper_sts_cng_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_iface_los_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_iface_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_iface_stat_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_subs_term_oper_sts_cng_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_subs_term_discovery_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_subs_term_alarm_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_subs_term_dgi_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_subs_term_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_tm_queue_ind_info_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_tm_sched_ind_info_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_pkt_bearer_channel_rx_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_pkt_omci_channel_rx_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal_ind__bal_pkt_ieee_oam_channel_rx_ind_cb(grpc_c_context_t *context)
 {
 }
 void bal__bal_api_heartbeat_cb(grpc_c_context_t *context)
 {
    BalHeartbeat *bal_hb;
    BalErr bal_err;

    /*
     * Read incoming message into set_cfg
     */
    printf("\nRecevied HeartBeat from Adapter\n");
    if (context->gcc_payload) {
 	context->gcc_stream->read(context, (void **)&bal_hb, 0);
    }

    printf("Received Heart Beat msg\n");

    bal_err__init(&bal_err);

    bal_err.err= 0;

    /*
     * Write reply back to the client
     */
     if (!context->gcc_stream->write(context, &bal_err, 0)) {
     } else {
               printf("Failed to write\n");
 	      exit(1);
     }

     grpc_c_status_t status;
     status.gcs_code = 0;

     /*
      * Finish response for RPC
      */
     if (context->gcc_stream->finish(context, &status)) {
 	printf("Failed to write status\n");
 	exit(1);
     }
    printf("\nSent HeartBeat Response to Adapter\n");
 }

 /*
  * Takes socket path as argument
  */
 int main (int argc, char **argv)
 {
    int i = 0;
    grpc_c_server_t *server = NULL;

    if (argc < 6) {
       fprintf(stderr, "Missing socket path argument\n");
       exit(1);
    }

    strcpy(coreIpPortInfo.bal_core_arg1, argv[2] /*, strlen(argv[2])*/);
    strcpy(coreIpPortInfo.bal_core_ip_port, argv[3]/*, strlen(argv[3])*/);
    strcpy(coreIpPortInfo.bal_core_arg2, argv[4]/*, strlen(argv[4])*/);
    strcpy(coreIpPortInfo.bal_shared_lib_ip_port, argv[5]/*, strlen(argv[5])*/);

    signal(SIGINT, sigint_handler);
    /*
     * Initialize grpc-c library to be used with vanilla gRPC
     */
    grpc_c_init(GRPC_THREADS, NULL);

    /*
     * Create server object
     */
    test_server = grpc_c_server_create(argv[1]);

    if (test_server == NULL) {
       printf("Failed to create server\n");
       exit(1);
    }

    /*
     * Initialize greeter service
     */
    printf("\nbal_voltha_app running.....\n");
    bal__service_init(test_server);

    /*
     * Start server
     */
    grpc_c_server_start(test_server);

 #ifdef BAL_STUB
    printf("\nCreating a stub thread\n");
    create_stub_thread();
 #endif

    /*
     * Blocks server to wait to completion
     */
    grpc_c_server_wait(test_server);

    /* code added for example Makefile to compile grpc-c along with edgecore driver */
    bal__service_init(server);

 }
	/*
	** Copyright 2017-present Open Networking Foundation
	**
	** 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 <signal.h>
	#include <stdio.h>
	#include <unistd.h>
	#include <sys/time.h>
	#include "bal_msg_type.grpc-c.h"
	#include "bal_osmsg.grpc-c.h"
	#include "bal_model_ids.grpc-c.h"
	#include "bal_obj.grpc-c.h"
	#include "bal_model_types.grpc-c.h"
	#include "bal_errno.grpc-c.h"
	#include "bal.grpc-c.h"

	#ifdef BAL_STUB
	#include "bal_stub.h"
	#else
	#include "asfvolt16_driver.h"
	#endif

	/* Global varibles */
	balCoreIpInfo coreIpPortInfo;

	static grpc_c_server_t *test_server;

	static void sigint_handler (int x) {
	grpc_c_server_destroy(test_server);
	exit(0);
	}

	/*
	* This functions gets invoked whenever bal RPC gets called
	*/
	void bal__bal_cfg_get_cb(grpc_c_context_t *context)
	{
	BalCfg *get_cfg;

	/*
	* Read incoming message into get_cfg
	*/
	if (context->gcc_payload) {
	context->gcc_stream->read(context, (void **)&get_cfg, 0);
	}

	#ifndef BAL_STUB
	//asfvolt16_bal_cfg_get(key, get_cfg);
	#endif
	}

	/*
	* This functions gets invoked whenever bal RPC gets called
	*/
	void bal__bal_cfg_set_cb(grpc_c_context_t *context)
	{
	BalCfg *set_cfg;
	BalErr bal_err;
	int ret_val = 0;

	/*
	* Read incoming message into set_cfg
	*/
	if (context->gcc_payload) {
	context->gcc_stream->read(context, (void **)&set_cfg, 0);
	}

	/*
	* send it to BAL
	*/

	bal_err__init(&bal_err);

	bal_err.err= 0;

	/*
	* Write reply back to the client
	*/

	ret_val = context->gcc_stream->write(context, &bal_err, 0);
	if (ret_val != GRPC_C_WRITE_OK) {
	if(ret_val == GRPC_C_WRITE_PENDING) {
	printf("write is pending, sleep for 10 sec\n", ret_val);
	sleep(10);
	}
	else {
	printf("Failed to write\n", ret_val);
	exit(1);
	}
	}

	grpc_c_status_t status;
	status.gcs_code = 0;

	/*
	* Finish response for RPC
	*/
	if (context->gcc_stream->finish(context, &status)) {
	printf("Failed to write status\n");
	exit(1);
	}

	#ifdef BAL_STUB
	pthread_mutex_lock(&lock);

	struct QNode *temp = newNode(set_cfg->hdr->obj_type,
	BAL_ERRNO__BAL_ERR_OK,
	set_cfg->device_id);

	/* if(set_cfg->hdr->has_obj_type)
	{ */

	switch(set_cfg->hdr->obj_type)
	{
	case BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL:
	{
	printf("\n***************************************************\n");
	printf("Received Access Terminal Configuration msg\n");
	printf("***************************************************\n");
	}
	break;
	case BAL_OBJ_ID__BAL_OBJ_ID_INTERFACE:
	{
	printf("\n***************************************************\n");
	printf("Received PON Interface Configuration msg\n");
	printf("***************************************************\n");
	temp->intf_id = set_cfg->interface->key->intf_id;
	printf("Pon ID = %d\n", temp->intf_id);
	}
	break;
	case BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL:
	{
	printf("\n*****************************************************\n");
	printf("Received ONU Activation msg\n");
	printf("*****************************************************\n");
	temp->intf_id = set_cfg->terminal->key->intf_id;
	temp->onu_id = set_cfg->terminal->key->sub_term_id;
	memset(temp->vendor_id, 0, BAL_DEVICE_STR_LEN);
	memcpy(temp->vendor_id,
	set_cfg->terminal->data->serial_number->vendor_id,
	strlen(set_cfg->terminal->data->serial_number->vendor_id));
	memset(temp->vendor_specific, 0, BAL_DEVICE_STR_LEN);
	memcpy(temp->vendor_specific,
	set_cfg->terminal->data->serial_number->vendor_specific,
	strlen(set_cfg->terminal->data->serial_number->vendor_specific));

	}
	break;
	case BAL_OBJ_ID__BAL_OBJ_ID_PACKET:
	{
	switch(set_cfg->packet->key->packet_send_dest->type)
	{
	case BAL_DEST_TYPE__BAL_DEST_TYPE_ITU_OMCI_CHANNEL:
	{
	printf("\n*****************************************************\n");
	printf("Received OMCI msg\n");
	printf("*****************************************************\n");
	temp->intf_id = set_cfg->terminal->key->intf_id;
	temp->onu_id = set_cfg->terminal->key->sub_term_id;
	}
	break;
	default:
	{
	("\n*****************************************************\n");
	printf("Dest type invalid\n");
	printf("*****************************************************\n");
	}
	break;
	}
	}
	break;
	default:
	{
	("\n*****************************************************\n");
	printf("Received Invalid msg\n");
	printf("*****************************************************\n");
	pthread_mutex_unlock(&lock);
	return;
	}
	break;
	}
	enQueue(set_cfg->hdr->obj_type, temp);
	/*
	}
	else
	{
	printf("BALSTUB:Cfg Set recevied without object type");
	} */
	pthread_mutex_unlock(&lock);
	sleep(2);
	pthread_cond_signal(&cv);
	/*
	if(BAL_OBJ_ID__BAL_OBJ_ID_INTERFACE == set_cfg->hdr->obj_type)
	{
	sleep(5);
	struct QNode *temp1 = newNode(BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL,
	BAL_ERRNO__BAL_ERR_OK,
	set_cfg->device_id);
	temp1->intf_id = set_cfg->interface->key->intf_id;
	temp1->onu_id = 65535;
	printf("sending _onu_discovery_indiaction\n");
	enQueue(BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL, temp1);
	pthread_cond_signal(&cv);
	}
	*/
	#else
	if(BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL == set_cfg->hdr->obj_type)
	{
	sleep(5);//enable this if running with gdb
	}
	asfvolt16_bal_cfg_set(set_cfg);
	#endif
	}


	/*
	* This functions gets invoked whenever bal clear RPC gets called
	*/
	void bal__bal_cfg_clear_cb(grpc_c_context_t *context)
	{
	BalKey *clear_key;

	/*
	* Read incoming message into clear_key
	*/
	if (context->gcc_payload) {
	context->gcc_stream->read(context, (void **)&clear_key, 0);
	}

	#ifndef BAL_STUB
	asfvolt16_bal_cfg_clear(clear_key);
	#endif
	}


	/*
	* This functions gets invoked whenever bal Init RPC gets called
	*/
	void bal__bal_api_init_cb(grpc_c_context_t *context)
	{
	BalInit *bal_init;
	BalErr bal_err;
	int ret_val;

	/*
	* Read incoming message into set_cfg
	*/
	if (context->gcc_payload) {
	context->gcc_stream->read(context, (void **)&bal_init, 0);
	}

	/*
	* send it to BAL
	*/


	("\n*****************************************************\n");
	printf("Received API Init msg\n");
	printf("*****************************************************\n");

	bal_err__init(&bal_err);

	bal_err.err= 0;

	/*
	* Write reply back to the client
	*/
	ret_val = context->gcc_stream->write(context, &bal_err, 0);
	if (ret_val != GRPC_C_WRITE_OK) {
	if(ret_val == GRPC_C_WRITE_PENDING) {
	printf("write is pending, sleep for 10 sec\n", ret_val);
	sleep(10);
	}
	else {
	printf("Failed to write\n", ret_val);
	exit(1);
	}
	}

	grpc_c_status_t status;
	status.gcs_code = 0;

	/*
	* Finish response for RPC
	*/
	if (context->gcc_stream->finish(context, &status)) {
	printf("Failed to write status\n");
	exit(1);
	}

	#ifndef BAL_STUB
	asfvolt16_bal_init(bal_init, &coreIpPortInfo);
	#else
	printf("\nRecevied IP Address == %s \n", bal_init->voltha_adapter_ip_port);
	stub_bal_init(bal_init);
	#endif

	}


	/*
	* This functions gets invoked whenever bal finish RPC gets called
	*/
	void bal__bal_api_finish_cb(grpc_c_context_t *context)
	{
	#if 0
	void *finish_init;

	/*
	* Read incoming message into set_cfg
	*/
	if (context->gcc_payload) {
	context->gcc_stream->read(context, (void **)&finish_init);
	}
	#endif
	}

	#if 0
	/*
	* This functions gets invoked whenever bal finish RPC gets called
	*/
	void bal_ind__bal_ind_info_cb(grpc_c_context_t *context)
	{
	#if 0
	void *finish_init;

	/*
	* Read incoming message into set_cfg
	*/
	if (context->gcc_payload) {
	context->gcc_stream->read(context, (void **)&finish_init);
	}
	#endif
	}
	#endif

	void bal_ind__bal_acc_term_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_acc_term_oper_sts_cng_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_flow_oper_sts_cng_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_flow_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_group_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_iface_oper_sts_cng_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_iface_los_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_iface_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_iface_stat_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_subs_term_oper_sts_cng_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_subs_term_discovery_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_subs_term_alarm_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_subs_term_dgi_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_subs_term_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_tm_queue_ind_info_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_tm_sched_ind_info_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_pkt_bearer_channel_rx_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_pkt_omci_channel_rx_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal_ind__bal_pkt_ieee_oam_channel_rx_ind_cb(grpc_c_context_t *context)
	{
	}
	void bal__bal_api_heartbeat_cb(grpc_c_context_t *context)
	{
	BalHeartbeat *bal_hb;
	BalErr bal_err;

	/*
	* Read incoming message into set_cfg
	*/
	printf("\nRecevied HeartBeat from Adapter\n");
	if (context->gcc_payload) {
	context->gcc_stream->read(context, (void **)&bal_hb, 0);
	}

	printf("Received Heart Beat msg\n");

	bal_err__init(&bal_err);

	bal_err.err= 0;

	/*
	* Write reply back to the client
	*/
	if (!context->gcc_stream->write(context, &bal_err, 0)) {
	} else {
	printf("Failed to write\n");
	exit(1);
	}

	grpc_c_status_t status;
	status.gcs_code = 0;

	/*
	* Finish response for RPC
	*/
	if (context->gcc_stream->finish(context, &status)) {
	printf("Failed to write status\n");
	exit(1);
	}
	printf("\nSent HeartBeat Response to Adapter\n");
	}

	/*
	* Takes socket path as argument
	*/
	int main (int argc, char **argv)
	{
	int i = 0;
	grpc_c_server_t *server = NULL;

	if (argc < 6) {
	fprintf(stderr, "Missing socket path argument\n");
	exit(1);
	}

	strcpy(coreIpPortInfo.bal_core_arg1, argv[2] /, strlen(argv[2])/);
	strcpy(coreIpPortInfo.bal_core_ip_port, argv[3]/, strlen(argv[3])/);
	strcpy(coreIpPortInfo.bal_core_arg2, argv[4]/, strlen(argv[4])/);
	strcpy(coreIpPortInfo.bal_shared_lib_ip_port, argv[5]/, strlen(argv[5])/);

	signal(SIGINT, sigint_handler);
	/*
	* Initialize grpc-c library to be used with vanilla gRPC
	*/
	grpc_c_init(GRPC_THREADS, NULL);

	/*
	* Create server object
	*/
	test_server = grpc_c_server_create(argv[1]);

	if (test_server == NULL) {
	printf("Failed to create server\n");
	exit(1);
	}

	/*
	* Initialize greeter service
	*/
	printf("\nbal_voltha_app running.....\n");
	bal__service_init(test_server);

	/*
	* Start server
	*/
	grpc_c_server_start(test_server);

	#ifdef BAL_STUB
	printf("\nCreating a stub thread\n");
	create_stub_thread();
	#endif

	/*
	* Blocks server to wait to completion
	*/
	grpc_c_server_wait(test_server);

	/* code added for example Makefile to compile grpc-c along with edgecore driver */
	bal__service_init(server);

	}