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gerrit.opencord.org / asfvolt16-driver / b0b19339a79377519de35182f27c5503a8686524 / . / device_simulator / bal_stub.c
blob: 522c56a8a16bdb70427d0c312e5b4051b6271571 [file] [log] [blame]
/*
** 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.
*/
#ifdef BAL_STUB
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <signal.h>
#include "bal_stub.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_indications.grpc-c.h"
#include "bal.grpc-c.h"
char *voltha_ip_and_port = NULL;
void *stub_thread(void *v)
{
int status;
pthread_mutex_lock(&lock);
pthread_cond_wait(&cv, &lock);
while(NULL != shared_queue->front)
{
BalErr *output;
BalObjId prevObjType;
char vendor_id[20];
char vendor_specific[20];
struct QNode *front = deQueue(shared_queue);
/* prepare and send rpc response */
BalIndications balIndCfg;
memset(&balIndCfg, 0, sizeof(BalIndications));
bal_indications__init(&balIndCfg);
balIndCfg.has_objtype = 1;
balIndCfg.objtype = front->obj_type;
balIndCfg.device_id = front->device_id;
printf("Device Id = %s\n", front->device_id);
switch(front->obj_type)
{
case BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL:
{
printf("***************************************************\n");
printf("Successful Indication sent for ACCESS_TERMINAL\n");
printf("***************************************************\n");
balIndCfg.u_case = BAL_INDICATIONS__U_ACCESS_TERM_IND;
prevObjType = front->obj_type;
BalAccessTerminalKey accTermKey;
memset(&accTermKey, 0, sizeof(BalAccessTerminalKey));
bal_access_terminal_key__init(&accTermKey);
accTermKey.has_access_term_id = 1;
accTermKey.access_term_id = 1;
BalAccessTerminalIndData data;
memset(&data, 0, sizeof(BalAccessTerminalIndData));
bal_access_terminal_ind_data__init(&data);
data.has_admin_state = 1;
data.admin_state = BAL_STATE__BAL_STATE_UP;
BalAccessTerminalInd access_term_ind;
memset(&access_term_ind, 0, sizeof(BalAccessTerminalInd));
bal_access_terminal_ind__init(&access_term_ind);
access_term_ind.data = &data;
access_term_ind.key = &accTermKey;
balIndCfg.access_term_ind = &access_term_ind;
status = bal_ind__bal_acc_term_ind(client, NULL, &balIndCfg, &output, NULL, 0);
}
break;
case BAL_OBJ_ID__BAL_OBJ_ID_INTERFACE:
{
printf("***************************************************\n");
printf("Successful Indication sent for PON INTERFACE UP\n");
printf("***************************************************\n");
balIndCfg.u_case = BAL_INDICATIONS__U_INTERFACE_IND;
prevObjType = front->obj_type;
status = bal_ind__bal_iface_ind(client, NULL, &balIndCfg, &output, NULL, 0);
}
break;
case BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL:
{
BalSubscriberTerminalKey subTermKey;
memset(&subTermKey, 0, sizeof(BalSubscriberTerminalKey));
bal_subscriber_terminal_key__init(&subTermKey);
BalSerialNumber serial_number;
memset(&serial_number, 0, sizeof(BalSerialNumber));
bal_serial_number__init(&serial_number);
/*
char vendor_id[20];
memset(&vendor_id, 0, 20);
strcpy(vendor_id,"4252434D");
char vendor_specific[20];
memset(&vendor_specific, 0, 20);
strcpy(vendor_specific,"12345678");
if(BAL_OBJ_ID__BAL_OBJ_ID_INTERFACE == prevObjType)
{
balIndCfg.u_case = BAL_INDICATIONS__U_TERMINAL_DISC;
BalSubscriberTerminalSubTermDisc terminal_disc;
memset(&terminal_disc, 0, sizeof(BalSubscriberTerminalSubTermDisc));
bal_subscriber_terminal_sub_term_disc__init(&terminal_disc);
balIndCfg.terminal_disc = &terminal_disc;
balIndCfg.terminal_disc->key = &subTermKey;
balIndCfg.terminal_disc->key->has_sub_term_id = 1;
balIndCfg.terminal_disc->key->sub_term_id = front->onu_id;
balIndCfg.terminal_disc->key->has_intf_id = 1;
balIndCfg.terminal_disc->key->intf_id = front->intf_id;
BalSubscriberTerminalSubTermDiscData subTermCfgData;
memset(&subTermCfgData, 0, sizeof(BalSubscriberTerminalSubTermDiscData));
bal_subscriber_terminal_sub_term_disc_data__init(&subTermCfgData);
balIndCfg.terminal_disc->data = &subTermCfgData;
balIndCfg.terminal_disc->data->serial_number = &serial_number;
balIndCfg.terminal_disc->data->serial_number->vendor_id = vendor_id;
printf("\n***************************************************\n");
printf("Sending ONU discovery message\n");
printf("***************************************************\n");
status = bal_ind__bal_subs_term_discovery_ind(client, NULL, &balIndCfg, &output, NULL, 0);
}
else
{
*/
balIndCfg.u_case = BAL_INDICATIONS__U_TERMINAL_DISC;
balIndCfg.has_sub_group = 1;
balIndCfg.sub_group = BAL_SUBSCRIBER_TERMINAL_AUTO_ID__BAL_SUBSCRIBER_TERMINAL_AUTO_ID_SUB_TERM_DISC;
BalSubscriberTerminalSubTermDisc terminal_disc;
memset(&terminal_disc, 0, sizeof(BalSubscriberTerminalSubTermDisc));
bal_subscriber_terminal_sub_term_disc__init(&terminal_disc);
balIndCfg.terminal_disc = &terminal_disc;
balIndCfg.terminal_disc->key = &subTermKey;
balIndCfg.terminal_disc->key->has_sub_term_id = 1;
balIndCfg.terminal_disc->key->sub_term_id = front->onu_id;
balIndCfg.terminal_disc->key->has_intf_id = 1;
balIndCfg.terminal_disc->key->intf_id = front->intf_id;
BalSubscriberTerminalSubTermDiscData subTermDiscCfgData;
memset(&subTermDiscCfgData, 0, sizeof(BalSubscriberTerminalSubTermDiscData));
bal_subscriber_terminal_sub_term_disc_data__init(&subTermDiscCfgData);
balIndCfg.terminal_disc->data = &subTermDiscCfgData;
balIndCfg.terminal_disc->data->serial_number = &serial_number;
balIndCfg.terminal_disc->data->serial_number->vendor_id = front->vendor_id;
balIndCfg.terminal_disc->data->serial_number->vendor_specific = front->vendor_specific;
printf("\n***************************************************\n");
printf("Sending ONU discovery message\n");
printf("***************************************************\n");
status = bal_ind__bal_subs_term_discovery_ind(client, NULL, &balIndCfg, &output, NULL, 0);
balIndCfg.u_case = BAL_INDICATIONS__U_TERMINAL_IND;
balIndCfg.has_sub_group = 1;
balIndCfg.sub_group = BAL_SUBSCRIBER_TERMINAL_AUTO_ID__BAL_SUBSCRIBER_TERMINAL_AUTO_ID_IND;
BalSubscriberTerminalInd terminal_ind;
memset(&terminal_ind, 0, sizeof(BalSubscriberTerminalInd));
bal_subscriber_terminal_ind__init(&terminal_ind);
balIndCfg.terminal_ind = &terminal_ind;
balIndCfg.terminal_ind->key = &subTermKey;
balIndCfg.terminal_ind->key->has_sub_term_id = 1;
balIndCfg.terminal_ind->key->sub_term_id = front->onu_id;
balIndCfg.terminal_ind->key->has_intf_id = 1;
balIndCfg.terminal_ind->key->intf_id = front->intf_id;
BalSubscriberTerminalIndData subTermCfgData;
memset(&subTermCfgData, 0, sizeof(BalSubscriberTerminalIndData));
bal_subscriber_terminal_ind_data__init(&subTermCfgData);
balIndCfg.terminal_ind->data = &subTermCfgData;
balIndCfg.terminal_ind->data->has_admin_state = 1;
balIndCfg.terminal_ind->data->admin_state = BAL_STATE__BAL_STATE_UP;
balIndCfg.terminal_ind->data->has_oper_status = 1;
balIndCfg.terminal_ind->data->oper_status = BAL_STATUS__BAL_STATUS_UP;
balIndCfg.terminal_ind->data->serial_number = &serial_number;
balIndCfg.terminal_ind->data->serial_number->vendor_id = front->vendor_id;
balIndCfg.terminal_ind->data->serial_number->vendor_specific = front->vendor_specific;
printf("***************************************************\n");
printf("ONU Activation Successful %s\n", balIndCfg.terminal_ind->data->serial_number->vendor_specific);
printf("***************************************************\n");
status = bal_ind__bal_subs_term_ind(client, NULL, &balIndCfg, &output, NULL, 0);
/*
}
*/
prevObjType = front->obj_type;
}
break;
case BAL_OBJ_ID__BAL_OBJ_ID_PACKET:
{
balIndCfg.u_case = BAL_INDICATIONS__U_BAL_OMCI_RESP;
BalPacketItuOmciChannelRx balomciresp;
memset(&balomciresp, 0, sizeof(BalPacketItuOmciChannelRx));
bal_packet_itu_omci_channel_rx__init(&balomciresp);
BalPacketKey balomcirespkey;
memset(&balomcirespkey, 0, sizeof(BalPacketKey));
bal_packet_key__init(&balomcirespkey);
balomciresp.key = &balomcirespkey;
BalDest balomcirespkeydest;
memset(&balomcirespkeydest, 0, sizeof(BalDest));
bal_dest__init(&balomcirespkeydest);
balomciresp.key->packet_send_dest = &balomcirespkeydest;
balomciresp.key->packet_send_dest->has_type = 1;
balomciresp.key->packet_send_dest->type = BAL_DEST_TYPE__BAL_DEST_TYPE_ITU_OMCI_CHANNEL;
balomciresp.key->packet_send_dest->u_case = BAL_DEST__U_ITU_OMCI_CHANNEL;
BalItuOmciChannel itu_omci_channel;
memset(&itu_omci_channel, 0, sizeof(BalItuOmciChannel));
bal_itu_omci_channel__init(&itu_omci_channel);
balomciresp.key->packet_send_dest->itu_omci_channel = &itu_omci_channel;
balomciresp.key->packet_send_dest->itu_omci_channel->has_sub_term_id = 1;
balomciresp.key->packet_send_dest->itu_omci_channel->sub_term_id = front->onu_id;
balomciresp.key->packet_send_dest->itu_omci_channel->has_intf_id = 1;
balomciresp.key->packet_send_dest->itu_omci_channel->intf_id = front->intf_id;
status = bal_ind__bal_pkt_omci_channel_rx_ind(client, NULL, &balIndCfg, &output, NULL, 0);
}
break;
default:
{
balIndCfg.u_case = BAL_INDICATIONS__U__NOT_SET;
prevObjType = front->obj_type;
}
break;
}
free(front);
pthread_mutex_unlock(&lock);
pthread_mutex_lock(&lock);
pthread_cond_wait(&cv, &lock);
}
return NULL;
}
void create_stub_thread()
{
pthread_t threadId = 0;
/* create shared queue */
shared_queue = createQueue();
pthread_create(&threadId, NULL, stub_thread, NULL);
}
/* A utility function to create an empty queue */
bal_queue *createQueue()
{
shared_queue = (struct Queue*)malloc(sizeof(struct Queue));
shared_queue->front = shared_queue->rear = NULL;
return shared_queue;
}
/* A utility function to create a new linked list node */
struct QNode* newNode(int objKey, int status, char *device_id)
{
struct QNode *temp = (struct QNode*)malloc(sizeof(struct QNode));
temp->obj_type = objKey;
temp->status = status;
if(device_id != NULL)
{
memset(temp->device_id, 0, BAL_DEVICE_STR_LEN);
memcpy(temp->device_id, device_id, strlen(device_id));
}
temp->next = NULL;
return temp;
}
/* The function to add data to shared_queue - Add end of the queue */
void enQueue(int objKey, struct QNode *temp)
{
/* Create a new LL node */
/* If queue is empty, then new node is front and rear both */
if (shared_queue->rear == NULL)
{
shared_queue->front = shared_queue->rear = temp;
return;
}
/* Add the new node at the end of queue and change rear */
shared_queue->rear->next = temp;
shared_queue->rear = temp;
}
/* Function to remove data from shared_queue - FIFO */
struct QNode *deQueue()
{
/* If queue is empty, return NULL */
if (shared_queue->front == NULL)
{
return NULL;
}
/* Store previous front and move front one node ahead */
struct QNode *temp = shared_queue->front;
shared_queue->front = shared_queue->front->next;
/* If front becomes NULL, then change rear also as NULL */
if (shared_queue->front == NULL)
{
shared_queue->rear = NULL;
}
return temp;
}
void stub_bal_init(BalInit *bal_init)
{
client = grpc_c_client_init(bal_init->voltha_adapter_ip_port, "bal_client", NULL);
}
#endif