blob: 52612224bae5a1bde29b9948bc083beedada6767 [file] [log] [blame]
/*
* Copyright 2018-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 "indications.h"
#include "core.h"
#include "core_data.h"
#include "core_utils.h"
#include "stats_collection.h"
#include "translation.h"
#include "state.h"
#include "trx_eeprom_reader.h"
#include <string>
extern "C"
{
#include <bcmos_system.h>
#include <bcmolt_api.h>
#include <bcmolt_host_api.h>
#include <bcmolt_api_model_api_structs.h>
}
using grpc::Status;
bool subscribed = false;
uint32_t nni_intf_id = 0;
#define current_device 0
static void OmciIndication(bcmolt_devid olt, bcmolt_msg *msg);
#define INTERFACE_STATE_IF_DOWN(state) \
((state == BCMOLT_INTERFACE_STATE_INACTIVE || \
state == BCMOLT_INTERFACE_STATE_PROCESSING || \
state == BCMOLT_INTERFACE_STATE_ACTIVE_STANDBY) ? BCMOS_TRUE : BCMOS_FALSE)
#define INTERFACE_STATE_IF_UP(state) \
((state == BCMOLT_INTERFACE_STATE_ACTIVE_WORKING) ? BCMOS_TRUE : BCMOS_FALSE)
#define ONU_STATE_IF_DOWN(state) \
((state == BCMOLT_ONU_OPERATION_INACTIVE || \
state == BCMOLT_ONU_OPERATION_DISABLE || \
state == BCMOLT_ONU_OPERATION_ACTIVE_STANDBY) ? BCMOS_TRUE : BCMOS_FALSE)
#define ONU_STATE_IF_UP(state) \
((state == BCMOLT_ONU_OPERATION_ACTIVE) ? BCMOS_TRUE : BCMOS_FALSE)
#define ONU_ACTIVATION_COMPLETED_SUCCESS(state) \
((state == BCMOLT_RESULT_SUCCESS) ? BCMOS_TRUE : BCMOS_FALSE)
#define ONU_ACTIVATION_COMPLETED_FAIL(state) \
((state != BCMOLT_RESULT_SUCCESS) ? BCMOS_TRUE : BCMOS_FALSE)
#define SET_OPER_STATE(indication,state) \
(INTERFACE_STATE_IF_UP(state)) ? indication->set_oper_state("up") : \
indication->set_oper_state("down")
#define GET_FLOW_TYPE(type) \
(type == BCMOLT_FLOW_TYPE_UPSTREAM) ? "upstream" : \
(type == BCMOLT_FLOW_TYPE_DOWNSTREAM) ? "downstream" : \
(type == BCMOLT_FLOW_TYPE_MULTICAST) ? "multicast" : "unknown"
std::string bcmolt_to_grpc_intf_type(bcmolt_interface_type intf_type)
{
if (intf_type == BCMOLT_INTERFACE_TYPE_NNI) {
return "nni";
} else if (intf_type == BCMOLT_INTERFACE_TYPE_PON) {
return "pon";
} else if (intf_type == BCMOLT_INTERFACE_TYPE_HOST) {
return "host";
}
return "unknown";
}
std::string bcmolt_to_grpc_interface_rf__intf_type(bcmolt_interface_type intf_type)
{
if (intf_type == BCMOLT_INTERFACE_TYPE_NNI) {
return "nni";
} else if (intf_type == BCMOLT_INTERFACE_TYPE_PON) {
return "pon";
} else if (intf_type == BCMOLT_INTERFACE_TYPE_HOST) {
return "host";
}
return "unknown";
}
inline uint64_t get_pon_stats_alarms_data(bcmolt_interface pon_ni, bcmolt_onu_id onu_id, bcmolt_onu_itu_pon_stats_data_id stat) {
bcmos_errno err;
bcmolt_onu_itu_pon_stats itu_pon_stat; /* declare main API struct */
bcmolt_onu_key key = {}; /* declare key */
bcmolt_stat_flags clear_on_read = BCMOLT_STAT_FLAGS_NONE; /* declare 'clear on read' flag */
key.pon_ni = pon_ni;
key.onu_id = onu_id;
/* Initialize the API struct. */
BCMOLT_STAT_INIT(&itu_pon_stat, onu, itu_pon_stats, key);
switch (stat) {
case BCMOLT_ONU_ITU_PON_STATS_DATA_ID_RDI_ERRORS:
BCMOLT_FIELD_SET_PRESENT(&itu_pon_stat.data, onu_itu_pon_stats_data, rdi_errors);
err = bcmolt_stat_get(dev_id, &itu_pon_stat.hdr, clear_on_read ? BCMOLT_STAT_FLAGS_CLEAR_ON_READ : BCMOLT_STAT_FLAGS_NONE);
if (err) {
OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get rdi_errors, err = %s\n", bcmos_strerror(err));
return err;
}
return itu_pon_stat.data.rdi_errors;
/* It is a further requirement
case BCMOLT_ONU_ITU_PON_STATS_DATA_ID_BIP_ERRORS:
BCMOLT_FIELD_SET_PRESENT(&itu_pon_stat.data, onu_itu_pon_stats_data, bip_errors);
err = bcmolt_stat_get(dev_id, &itu_pon_stat.hdr, clear_on_read ? BCMOLT_STAT_FLAGS_CLEAR_ON_READ : BCMOLT_STAT_FLAGS_NONE);
if (err) {
OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get bip_errors, err = %s\n", bcmos_strerror(err));
return err;
}
return itu_pon_stat.data.bip_errors;
*/
default:
return BCM_ERR_INTERNAL;
}
return err;
}
/*std::string getOnuRegistrationId(uint32_t intf_id, uint32_t onu_id){
bcmbal_subscriber_terminal_key key;
bcmbal_subscriber_terminal_cfg sub_term_obj = {};
uint8_t *list_mem;// to fetch config details for ONU
bcmos_errno err = BCM_ERR_OK;
key.sub_term_id =onu_id;
key.intf_id = intf_id;
BCM_LOG(INFO, openolt_log_id,"Processing subscriber terminal cfg get for: %d",key.intf_id);
BCMBAL_CFG_INIT(&sub_term_obj, subscriber_terminal, key);
BCMBAL_CFG_PROP_GET(&sub_term_obj, subscriber_terminal, all_properties);
char *reg_id = (char*)malloc(sizeof(char)*MAX_REGID_LENGTH);
memset(reg_id, '\0', MAX_REGID_LENGTH);
//set memory to use for variable-sized lists
list_mem = (uint8_t*)malloc(BAL_DYNAMIC_LIST_BUFFER_SIZE);
if (list_mem == NULL)
{
BCM_LOG(ERROR,openolt_log_id,"Memory allocation failed while handling subscriber terminal \
cfg get subscriber_terminal_id(%d), Interface ID(%d)",key.sub_term_id, key.intf_id);
return reg_id;
}
memset(list_mem, 0, BAL_DYNAMIC_LIST_BUFFER_SIZE);
BCMBAL_CFG_LIST_BUF_SET(&sub_term_obj, subscriber_terminal, list_mem, BAL_DYNAMIC_LIST_BUFFER_SIZE);
//call API
err = bcmbal_cfg_get(DEFAULT_ATERM_ID, &sub_term_obj.hdr);
if (err != BCM_ERR_OK)
{
BCM_LOG(ERROR,openolt_log_id, "Failed to get information from BAL subscriber_terminal_id(%d), Interface ID(%d)",
key.sub_term_id, key.intf_id);
free(list_mem);
return reg_id;
}
BCM_LOG(INFO,openolt_log_id, "Get Subscriber cfg sent to OLT for Subscriber Id(%d) on Interface(%d)",
key.sub_term_id, key.intf_id);
for (int i=0; i<MAX_REGID_LENGTH ; i++){
reg_id[i]=sub_term_obj.data.registration_id.arr[i];
}
free(list_mem);
return reg_id;
}*/
static void OltOperIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::OltIndication* olt_ind = new openolt::OltIndication;
std::string admin_state;
switch (msg->subgroup) {
case BCMOLT_DEVICE_AUTO_SUBGROUP_CONNECTION_COMPLETE:
admin_state = "up";
olt_ind->set_oper_state("up");
break;
case BCMOLT_DEVICE_AUTO_SUBGROUP_DISCONNECTION_COMPLETE:
admin_state = "down";
olt_ind->set_oper_state("down");
break;
case BCMOLT_DEVICE_AUTO_SUBGROUP_CONNECTION_FAILURE:
admin_state = "failure";
olt_ind->set_oper_state("failure");
break;
}
ind.set_allocated_olt_ind(olt_ind);
if (msg->subgroup == BCMOLT_DEVICE_AUTO_SUBGROUP_CONNECTION_COMPLETE) {
/* register for omci indication */
{
bcmolt_rx_cfg rx_cfg = {};
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OmciIndication;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_omci_packet;
rx_cfg.module = BCMOS_MODULE_ID_OMCI_TRANSPORT;
bcmolt_ind_subscribe(current_device, &rx_cfg);
}
state.activate();
}
else {
state.deactivate();
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void LosIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::LosIndication* los_ind = new openolt::LosIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_PON_INTERFACE:
switch (msg->subgroup) {
case BCMOLT_PON_INTERFACE_AUTO_SUBGROUP_LOS:
{
bcmolt_pon_interface_los* bcm_los_ind = (bcmolt_pon_interface_los *) msg;
int intf_id = interface_key_to_port_no(bcm_los_ind->key.pon_ni,
BCMOLT_INTERFACE_TYPE_PON);
std::string status = alarm_status_to_string(bcm_los_ind->data.status);
OPENOLT_LOG(INFO, openolt_log_id, "LOS indication : intf_id: %d port: %d status %s\n",
bcm_los_ind->key.pon_ni, intf_id, status.c_str());
los_ind->set_intf_id(intf_id);
los_ind->set_status(status);
alarm_ind->set_allocated_los_ind(los_ind);
ind.set_allocated_alarm_ind(alarm_ind);
break;
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void IfIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::IntfIndication* intf_ind = new openolt::IntfIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_PON_INTERFACE:
switch (msg->subgroup) {
case BCMOLT_PON_INTERFACE_AUTO_SUBGROUP_STATE_CHANGE_COMPLETED:
{
bcmolt_pon_interface_key *key =
&((bcmolt_pon_interface_state_change_completed*)msg)->key;
bcmolt_pon_interface_state_change_completed_data *data =
&((bcmolt_pon_interface_state_change_completed*)msg)->data;
intf_ind->set_intf_id(key->pon_ni);
SET_OPER_STATE(intf_ind, data->new_state);
OPENOLT_LOG(INFO, openolt_log_id, "intf indication, intf_type %s, intf_id %d, oper_state %s\n",
bcmolt_to_grpc_intf_type(BCMOLT_INTERFACE_TYPE_PON).c_str(), key->pon_ni, intf_ind->oper_state().c_str());
ind.set_allocated_intf_ind(intf_ind);
break;
}
}
break;
case BCMOLT_OBJ_ID_NNI_INTERFACE:
switch (msg->subgroup) {
case BCMOLT_NNI_INTERFACE_AUTO_SUBGROUP_STATE_CHANGE:
{
OPENOLT_LOG(INFO, openolt_log_id, "intf indication, intf_id: %d\n",
((bcmolt_nni_interface_state_change *)msg)->key.id);
bcmolt_nni_interface_key *key =
&((bcmolt_nni_interface_state_change *)msg)->key;
bcmolt_nni_interface_state_change_data *data =
&((bcmolt_nni_interface_state_change *)msg)->data;
intf_ind->set_intf_id(key->id);
SET_OPER_STATE(intf_ind, data->new_state);
ind.set_allocated_intf_ind(intf_ind);
break;
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void IfOperIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::IntfOperIndication* intf_oper_ind = new openolt::IntfOperIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_PON_INTERFACE:
switch (msg->subgroup) {
case BCMOLT_PON_INTERFACE_AUTO_SUBGROUP_STATE_CHANGE_COMPLETED:
{
bcmolt_pon_interface_key *key = &((bcmolt_pon_interface_state_change_completed*)msg)->key;
bcmolt_pon_interface_state_change_completed_data *data = &((bcmolt_pon_interface_state_change_completed*)msg)->data;
intf_oper_ind->set_intf_id(key->pon_ni);
intf_oper_ind->set_type(bcmolt_to_grpc_intf_type(BCMOLT_INTERFACE_TYPE_PON));
SET_OPER_STATE(intf_oper_ind, data->new_state);
OPENOLT_LOG(INFO, openolt_log_id, "intf oper state indication, intf_type %s, intf_id %d, oper_state %s\n",
intf_oper_ind->type().c_str(), key->pon_ni, intf_oper_ind->oper_state().c_str());
ind.set_allocated_intf_oper_ind(intf_oper_ind);
break;
}
}
case BCMOLT_OBJ_ID_NNI_INTERFACE:
switch (msg->subgroup) {
case BCMOLT_NNI_INTERFACE_AUTO_SUBGROUP_STATE_CHANGE:
{
bcmolt_nni_interface_key *key = &((bcmolt_nni_interface_state_change *)msg)->key;
bcmolt_nni_interface_state_change_data *data = &((bcmolt_nni_interface_state_change *)msg)->data;
bcmolt_interface intf_id = key->id;
bcmolt_interface_type intf_type = BCMOLT_INTERFACE_TYPE_NNI;
intf_oper_ind->set_intf_id(key->id);
intf_oper_ind->set_type(bcmolt_to_grpc_intf_type(BCMOLT_INTERFACE_TYPE_NNI));
SET_OPER_STATE(intf_oper_ind, data->new_state);
OPENOLT_LOG(INFO, openolt_log_id, "intf oper state indication, intf_type %s, intf_id %d, oper_state %s\n",
intf_oper_ind->type().c_str(), key->id, intf_oper_ind->oper_state().c_str());
ind.set_allocated_intf_oper_ind(intf_oper_ind);
break;
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuAlarmIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuAlarmIndication* onu_alarm_ind = new openolt::OnuAlarmIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_XGPON_ALARM:
{
bcmolt_onu_xgpon_alarm_data *data = &((bcmolt_onu_xgpon_alarm *)msg)->data;
bcmolt_onu_key *key = &((bcmolt_onu_xgpon_alarm *)msg)->key;
int port_no = interface_key_to_port_no(key->pon_ni, BCMOLT_INTERFACE_TYPE_PON);
OPENOLT_LOG(INFO, openolt_log_id, "onu alarm indication, pon_ni %d, onu_id %d, port_no %d, los_status %s, lob_status %s, lopc_miss_status %s, lopc_mic_error_status %s\n", key->pon_ni, key->onu_id, port_no, alarm_status_to_string(data->xgpon_onu_alarm.losi).c_str(), alarm_status_to_string(data->xgpon_onu_alarm.lobi).c_str(), alarm_status_to_string(data->xgpon_onu_alarm.lopci_miss).c_str(), alarm_status_to_string(data->xgpon_onu_alarm.lopci_mic_error).c_str());
onu_alarm_ind->set_los_status(alarm_status_to_string(data->xgpon_onu_alarm.losi));
onu_alarm_ind->set_lob_status(alarm_status_to_string(data->xgpon_onu_alarm.lobi));
onu_alarm_ind->set_lopc_miss_status(alarm_status_to_string(data->xgpon_onu_alarm.lopci_miss));
onu_alarm_ind->set_lopc_mic_error_status(alarm_status_to_string(data->xgpon_onu_alarm.lopci_mic_error));
onu_alarm_ind->set_intf_id(key->pon_ni);
onu_alarm_ind->set_onu_id(key->onu_id);
alarm_ind->set_allocated_onu_alarm_ind(onu_alarm_ind);
ind.set_allocated_alarm_ind(alarm_ind);
break;
}
case BCMOLT_ONU_AUTO_SUBGROUP_GPON_ALARM:
{
bcmolt_onu_gpon_alarm_data *data = &((bcmolt_onu_gpon_alarm *)msg)->data;
bcmolt_onu_key *key = &((bcmolt_onu_gpon_alarm *)msg)->key;
onu_alarm_ind->set_los_status(alarm_status_to_string(data->gpon_onu_alarm.losi));
onu_alarm_ind->set_lofi_status(alarm_status_to_string(data->gpon_onu_alarm.lofi));
onu_alarm_ind->set_loami_status(alarm_status_to_string(data->gpon_onu_alarm.loami));
onu_alarm_ind->set_intf_id(key->pon_ni);
onu_alarm_ind->set_onu_id(key->onu_id);
alarm_ind->set_allocated_onu_alarm_ind(onu_alarm_ind);
ind.set_allocated_alarm_ind(alarm_ind);
break;
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuDyingGaspIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::DyingGaspIndication* dgi_ind = new openolt::DyingGaspIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_DGI:
{
bcmolt_onu_dgi* dgi_data = (bcmolt_onu_dgi *)msg;
bcmolt_onu_key *key = &((bcmolt_onu_dgi *)msg)->key;
int port_no = interface_key_to_port_no(key->pon_ni, BCMOLT_INTERFACE_TYPE_PON);
OPENOLT_LOG(INFO, openolt_log_id, "onu dyinggasp indication, pon_ni %d, onu_id %d, port_no %d, status %s\n",
key->pon_ni, key->onu_id, port_no, alarm_status_to_string(dgi_data->data.alarm_status).c_str());
dgi_ind->set_status(alarm_status_to_string(dgi_data->data.alarm_status));
dgi_ind->set_intf_id(key->pon_ni);
dgi_ind->set_onu_id(key->onu_id);
alarm_ind->set_allocated_dying_gasp_ind(dgi_ind);
ind.set_allocated_alarm_ind(alarm_ind);
break;
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuDiscoveryIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::OnuDiscIndication* onu_disc_ind = new openolt::OnuDiscIndication;
openolt::SerialNumber* serial_number = new openolt::SerialNumber;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_PON_INTERFACE:
switch (msg->subgroup) {
case BCMOLT_PON_INTERFACE_AUTO_SUBGROUP_ONU_DISCOVERED:
{
bcmolt_pon_interface_key *key =
&((bcmolt_pon_interface_onu_discovered *)msg)->key;
bcmolt_pon_interface_onu_discovered_data *data =
&((bcmolt_pon_interface_onu_discovered *)msg)->data;
bcmolt_serial_number *in_serial_number = &(data->serial_number);
OPENOLT_LOG(INFO, openolt_log_id, "onu discover indication, pon_ni %d, serial_number %s\n",
key->pon_ni, serial_number_to_str(in_serial_number).c_str());
onu_disc_ind->set_intf_id(key->pon_ni);
serial_number->set_vendor_id(reinterpret_cast<const char *>(in_serial_number->vendor_id.arr), 4);
serial_number->set_vendor_specific(reinterpret_cast<const char *>(in_serial_number->vendor_specific.arr), 8);
onu_disc_ind->set_allocated_serial_number(serial_number);
ind.set_allocated_onu_disc_ind(onu_disc_ind);
break;
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OmciIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::OmciIndication* omci_ind = new openolt::OmciIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_OMCI_PACKET:
{
bcmolt_onu_key *key = &((bcmolt_onu_omci_packet*)msg)->key;
bcmolt_onu_omci_packet_data *data = &((bcmolt_onu_omci_packet*)msg)->data;
OPENOLT_LOG(DEBUG, omci_log_id, "OMCI indication: pon_ni %d, onu_id %d\n",
key->pon_ni, key->onu_id);
omci_ind->set_intf_id(key->pon_ni);
omci_ind->set_onu_id(key->onu_id);
omci_ind->set_pkt(data->buffer.arr, data->buffer.len);
ind.set_allocated_omci_ind(omci_ind);
break;
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void PacketIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ACCESS_CONTROL:
switch (msg->subgroup) {
case BCMOLT_ACCESS_CONTROL_AUTO_SUBGROUP_RECEIVE_ETH_PACKET:
{
int32_t gemport_id;
bcmolt_access_control_receive_eth_packet *pkt =
(bcmolt_access_control_receive_eth_packet*)msg;
bcmolt_access_control_receive_eth_packet_data *pkt_data =
&((bcmolt_access_control_receive_eth_packet*)msg)->data;
// Set the gemport_id to be passed to is_packet_allowed function
gemport_id = pkt_data->svc_port_id == BCMOLT_SERVICE_PORT_ID_INVALID ? -1 : pkt_data->svc_port_id;
// Allow the packet to host only if "is_packet_allowed" routine returns true, else drop the packet.
if (! is_packet_allowed(pkt_data, gemport_id) ) {
OPENOLT_LOG(WARNING, openolt_log_id, "packet not allowed to host\n");
bcmolt_msg_free(msg);
return;
}
openolt::PacketIndication* pkt_ind = new openolt::PacketIndication;
pkt_ind->set_intf_type(bcmolt_to_grpc_interface_rf__intf_type(
(bcmolt_interface_type)pkt_data->interface_ref.intf_type));
pkt_ind->set_intf_id((bcmolt_interface_id)pkt_data->interface_ref.intf_id);
pkt_ind->set_pkt(pkt_data->buffer.arr, pkt_data->buffer.len);
pkt_ind->set_gemport_id(pkt_data->svc_port_id);
if (pkt_data->svc_port_id != BCMOLT_SERVICE_PORT_ID_INVALID) { // case of packet-in from the PON interface
pon_gem pg((uint32_t)pkt_data->interface_ref.intf_id, pkt_data->svc_port_id);
// Find to onu-uni mapping for the pon-gem key
bcmos_fastlock_lock(&pon_gem_to_onu_uni_map_lock);
auto it = pon_gem_to_onu_uni_map.find(pg);
bcmos_fastlock_unlock(&pon_gem_to_onu_uni_map_lock, 0);
if (it == pon_gem_to_onu_uni_map.end()) {
bcmolt_msg_free(msg);
OPENOLT_LOG(ERROR, openolt_log_id, "onu-uni reference not found for packet-in on gemport=%d, pon_intf_id=%d", pkt_data->svc_port_id, pkt_data->interface_ref.intf_id);
return;
}
pkt_ind->set_onu_id(std::get<0>(it->second));
pkt_ind->set_uni_id(std::get<1>(it->second));
}
ind.set_allocated_pkt_ind(pkt_ind);
if (pkt_data->interface_ref.intf_type == BCMOLT_INTERFACE_TYPE_PON) {
OPENOLT_LOG(INFO, openolt_log_id,"packet indication, ingress intf_type %s, ingress intf_id %d, gem_port %d, onu_id=%d, uni_id=%d\n",
pkt_ind->intf_type().c_str(), pkt_ind->intf_id(), pkt_ind->gemport_id(), pkt_ind->onu_id(), pkt_ind->uni_id());
} else if (pkt_data->interface_ref.intf_type == BCMOLT_INTERFACE_TYPE_NNI ) {
OPENOLT_LOG(INFO, openolt_log_id, "packet indication, ingress intf_type %s, ingress intf_id %d\n",
pkt_ind->intf_type().c_str(), pkt_ind->intf_id());
}
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void ItuPonAllocConfigCompletedInd(bcmolt_devid olt, bcmolt_msg *msg) {
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ITUPON_ALLOC:
switch (msg->subgroup) {
case BCMOLT_ITUPON_ALLOC_AUTO_SUBGROUP_CONFIGURATION_COMPLETED:
{
bcmolt_itupon_alloc_configuration_completed *pkt =
(bcmolt_itupon_alloc_configuration_completed*)msg;
bcmolt_itupon_alloc_configuration_completed_data *pkt_data =
&((bcmolt_itupon_alloc_configuration_completed*)msg)->data;
alloc_cfg_compltd_key key((uint32_t)pkt->key.pon_ni, (uint32_t) pkt->key.alloc_id);
alloc_cfg_complete_result res;
res.pon_intf_id = pkt->key.pon_ni;
res.alloc_id = pkt->key.alloc_id;
pkt_data->status == BCMOLT_RESULT_SUCCESS ? res.status = ALLOC_CFG_STATUS_SUCCESS: res.status = ALLOC_CFG_STATUS_FAIL;
switch (pkt_data->new_state) {
case BCMOLT_ACTIVATION_STATE_NOT_CONFIGURED:
res.state = ALLOC_OBJECT_STATE_NOT_CONFIGURED;
break;
case BCMOLT_ACTIVATION_STATE_INACTIVE:
res.state = ALLOC_OBJECT_STATE_INACTIVE;
break;
case BCMOLT_ACTIVATION_STATE_PROCESSING:
res.state = ALLOC_OBJECT_STATE_PROCESSING;
break;
case BCMOLT_ACTIVATION_STATE_ACTIVE:
res.state = ALLOC_OBJECT_STATE_ACTIVE;
break;
default:
OPENOLT_LOG(ERROR, openolt_log_id, "invalid itu pon alloc activation new_state, pon_intf %u, alloc_id %u, new_state %d\n",
pkt->key.pon_ni, pkt->key.alloc_id, pkt_data->new_state);
res.state = ALLOC_OBJECT_STATE_NOT_CONFIGURED;
}
OPENOLT_LOG(INFO, openolt_log_id, "received itu pon alloc cfg complete ind, pon intf %u, alloc_id %u, status %u, new_state %u\n",
pkt->key.pon_ni, pkt->key.alloc_id, pkt_data->status, pkt_data->new_state);
bcmos_fastlock_lock(&alloc_cfg_wait_lock);
// Push the result from BAL to queue
std::map<alloc_cfg_compltd_key, Queue<alloc_cfg_complete_result> *>::iterator it = alloc_cfg_compltd_map.find(key);
if (it == alloc_cfg_compltd_map.end()) {
// could be case of spurious aysnc response, OR, the application timed-out waiting for response and cleared the key.
bcmolt_msg_free(msg);
OPENOLT_LOG(ERROR, openolt_log_id, "alloc config key not found for alloc_id = %u, pon_intf = %u\n", pkt->key.alloc_id, pkt->key.pon_ni);
bcmos_fastlock_unlock(&alloc_cfg_wait_lock, 0);
return;
}
if (it->second) {
// Push the result
it->second->push(res);
}
bcmos_fastlock_unlock(&alloc_cfg_wait_lock, 0);
}
}
}
bcmolt_msg_free(msg);
}
static void ItuPonGemConfigCompletedInd(bcmolt_devid olt, bcmolt_msg *msg) {
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ITUPON_GEM:
switch (msg->subgroup) {
case BCMOLT_ITUPON_GEM_AUTO_SUBGROUP_CONFIGURATION_COMPLETED:
{
bcmolt_itupon_gem_configuration_completed *pkt =
(bcmolt_itupon_gem_configuration_completed*)msg;
bcmolt_itupon_gem_configuration_completed_data *pkt_data =
&((bcmolt_itupon_gem_configuration_completed*)msg)->data;
gem_cfg_compltd_key key((uint32_t)pkt->key.pon_ni, (uint32_t) pkt->key.gem_port_id);
gem_cfg_complete_result res;
res.pon_intf_id = pkt->key.pon_ni;
res.gem_port_id = pkt->key.gem_port_id;
pkt_data->status == BCMOLT_RESULT_SUCCESS ? res.status = GEM_CFG_STATUS_SUCCESS: res.status = GEM_CFG_STATUS_FAIL;
switch (pkt_data->new_state) {
case BCMOLT_ACTIVATION_STATE_NOT_CONFIGURED:
res.state = GEM_OBJECT_STATE_NOT_CONFIGURED;
break;
case BCMOLT_ACTIVATION_STATE_INACTIVE:
res.state = GEM_OBJECT_STATE_INACTIVE;
break;
case BCMOLT_ACTIVATION_STATE_PROCESSING:
res.state = GEM_OBJECT_STATE_PROCESSING;
break;
case BCMOLT_ACTIVATION_STATE_ACTIVE:
res.state = GEM_OBJECT_STATE_ACTIVE;
break;
default:
OPENOLT_LOG(ERROR, openolt_log_id, "invalid itu pon gem activation new_state, pon_intf %u, gem_port_id %u, new_state %d\n",
pkt->key.pon_ni, pkt->key.gem_port_id, pkt_data->new_state);
res.state = GEM_OBJECT_STATE_NOT_CONFIGURED;
}
OPENOLT_LOG(INFO, openolt_log_id, "received itu pon gem cfg complete ind, pon intf %u, gem_port_id %u, status %u, new_state %u\n",
pkt->key.pon_ni, pkt->key.gem_port_id, pkt_data->status, pkt_data->new_state);
uint32_t gem_cfg_key_check_counter = 1;
std::map<gem_cfg_compltd_key, Queue<gem_cfg_complete_result> *>::iterator it;
while(true) {
bcmos_fastlock_lock(&gem_cfg_wait_lock);
// Push the result from BAL to queue
it = gem_cfg_compltd_map.find(key);
if (it != gem_cfg_compltd_map.end()) {
bcmos_fastlock_unlock(&gem_cfg_wait_lock, 0);
break;
} else if (it == gem_cfg_compltd_map.end() && gem_cfg_key_check_counter < MAX_GEM_CFG_KEY_CHECK) {
/*During removal of gemport, indication from BAL arriving soon even before we start waiting for gemport cfg completion
by pushing empty cfg_result for gem_cfg_compltd_key. To handle this scenario delaying to push gem cfg completion indication
to Queue by 6ms.*/
bcmos_fastlock_unlock(&gem_cfg_wait_lock, 0);
bcmos_usleep(6000);
} else {
// could be case of spurious aysnc response, OR, the application timed-out waiting for response and cleared the key.
bcmolt_msg_free(msg);
OPENOLT_LOG(ERROR, openolt_log_id, "gem config key not found for gem_port_id = %u, pon_intf = %u\n", pkt->key.gem_port_id, pkt->key.pon_ni);
bcmos_fastlock_unlock(&gem_cfg_wait_lock, 0);
return;
}
gem_cfg_key_check_counter++;
}
bcmos_fastlock_lock(&gem_cfg_wait_lock);
if (it->second) {
// Push the result
it->second->push(res);
}
bcmos_fastlock_unlock(&gem_cfg_wait_lock, 0);
}
}
}
bcmolt_msg_free(msg);
}
static void FlowOperIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
OPENOLT_LOG(DEBUG, openolt_log_id, "flow oper state indication\n");
bcmolt_msg_free(msg);
}
static void FlowIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
OPENOLT_LOG(DEBUG, openolt_log_id, "flow indication\n");
bcmolt_msg_free(msg);
}
static void TmQIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
OPENOLT_LOG(DEBUG, openolt_log_id, "traffic mgmt queue indication\n");
bcmolt_msg_free(msg);
}
static void TmSchedIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
OPENOLT_LOG(DEBUG, openolt_log_id, "traffic mgmt sheduler indication\n");
bcmolt_msg_free(msg);
}
static void McastGroupIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
OPENOLT_LOG(DEBUG, openolt_log_id, "mcast group indication\n");
bcmolt_msg_free(msg);
}
static void OnuStartupFailureIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuStartupFailureIndication* sufi_ind = new openolt::OnuStartupFailureIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_SUFI:
{
bcmolt_onu_key *key = &((bcmolt_onu_sufi*)msg)->key;
bcmolt_onu_sufi_data *data = &((bcmolt_onu_sufi*)msg)->data;
OPENOLT_LOG(WARNING, openolt_log_id, "onu startup failure indication, intf_id %d, onu_id %d, alarm %d\n",
key->pon_ni, key->onu_id, data->alarm_status);
sufi_ind->set_intf_id(key->pon_ni);
sufi_ind->set_onu_id(key->onu_id);
sufi_ind->set_status(alarm_status_to_string(data->alarm_status));
alarm_ind->set_allocated_onu_startup_fail_ind(sufi_ind);
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuSignalDegradeIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuSignalDegradeIndication* sdi_ind = new openolt::OnuSignalDegradeIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_SDI:
{
bcmolt_onu_key *key = &((bcmolt_onu_sdi*)msg)->key;
bcmolt_onu_sdi_data *data = &((bcmolt_onu_sdi*)msg)->data;
OPENOLT_LOG(WARNING, openolt_log_id, "onu signal degrade indication, intf_id %d, onu_id %d, alarm %d, BER %d\n",
key->pon_ni, key->onu_id, data->alarm_status, data->ber);
sdi_ind->set_intf_id(key->pon_ni);
sdi_ind->set_onu_id(key->onu_id);
sdi_ind->set_status(alarm_status_to_string(data->alarm_status));
sdi_ind->set_inverse_bit_error_rate(data->ber);
alarm_ind->set_allocated_onu_signal_degrade_ind(sdi_ind);
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuDriftOfWindowIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuDriftOfWindowIndication* dowi_ind = new openolt::OnuDriftOfWindowIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_DOWI:
{
bcmolt_onu_key *key = &((bcmolt_onu_dowi*)msg)->key;
bcmolt_onu_dowi_data *data = &((bcmolt_onu_dowi*)msg)->data;
OPENOLT_LOG(WARNING, openolt_log_id, "onu drift of window indication, intf_id %d, onu_id %d, alarm %d, drift %d, new_eqd %d\n",
key->pon_ni, key->onu_id, data->alarm_status, data->drift_value, data->new_eqd);
dowi_ind->set_intf_id(key->pon_ni);
dowi_ind->set_onu_id(key->onu_id);
dowi_ind->set_status(alarm_status_to_string(data->alarm_status));
dowi_ind->set_drift(data->drift_value);
dowi_ind->set_new_eqd(data->new_eqd);
alarm_ind->set_allocated_onu_drift_of_window_ind(dowi_ind);
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuLossOfOmciChannelIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuLossOfOmciChannelIndication* looci_ind = new openolt::OnuLossOfOmciChannelIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_LOOCI:
{
bcmolt_onu_key *key = &((bcmolt_onu_looci*)msg)->key;
bcmolt_onu_looci_data *data = &((bcmolt_onu_looci*)msg)->data;
OPENOLT_LOG(WARNING, openolt_log_id, "onu loss of OMCI channel indication, intf_id %d, onu_id %d, alarm %d\n",
key->pon_ni, key->onu_id, data->alarm_status);
looci_ind->set_intf_id(key->pon_ni);
looci_ind->set_onu_id(key->onu_id);
looci_ind->set_status(alarm_status_to_string(data->alarm_status));
alarm_ind->set_allocated_onu_loss_omci_ind(looci_ind);
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuSignalsFailureIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuSignalsFailureIndication* sfi_ind = new openolt::OnuSignalsFailureIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_SFI:
{
bcmolt_onu_key *key = &((bcmolt_onu_sfi*)msg)->key;
bcmolt_onu_sfi_data *data = &((bcmolt_onu_sfi*)msg)->data;
OPENOLT_LOG(WARNING, openolt_log_id, "onu signals failure indication, intf_id %d, onu_id %d, alarm %d, BER %d\n",
key->pon_ni, key->onu_id, data->alarm_status, data->ber);
sfi_ind->set_intf_id(key->pon_ni);
sfi_ind->set_onu_id(key->onu_id);
sfi_ind->set_status(alarm_status_to_string(data->alarm_status));
sfi_ind->set_inverse_bit_error_rate(data->ber);
alarm_ind->set_allocated_onu_signals_fail_ind(sfi_ind);
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuTransmissionInterferenceWarningIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuTransmissionInterferenceWarning* tiwi_ind = new openolt::OnuTransmissionInterferenceWarning;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_TIWI:
{
bcmolt_onu_key *key = &((bcmolt_onu_tiwi*)msg)->key;
bcmolt_onu_tiwi_data *data = &((bcmolt_onu_tiwi*)msg)->data;
OPENOLT_LOG(WARNING, openolt_log_id, "onu transmission interference warning indication, intf_id %d, onu_id %d, alarm %d, drift %d\n",
key->pon_ni, key->onu_id, data->alarm_status, data->drift_value);
tiwi_ind->set_intf_id(key->pon_ni);
tiwi_ind->set_onu_id(key->onu_id);
tiwi_ind->set_status(alarm_status_to_string(data->alarm_status));
tiwi_ind->set_drift(data->drift_value);
alarm_ind->set_allocated_onu_tiwi_ind(tiwi_ind);
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuActivationCompletedIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::OnuIndication* onu_ind = new openolt::OnuIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_ONU_ACTIVATION_COMPLETED:
{
bcmolt_onu_key *key = &((bcmolt_onu_onu_activation_completed*)msg)->key;
bcmolt_onu_onu_activation_completed_data*data = &((bcmolt_onu_onu_activation_completed*)msg)->data;
onu_ind->set_intf_id(key->pon_ni);
onu_ind->set_onu_id(key->onu_id);
if (ONU_ACTIVATION_COMPLETED_SUCCESS(data->status))
onu_ind->set_oper_state("up");
if (ONU_ACTIVATION_COMPLETED_FAIL(data->status))
onu_ind->set_oper_state("down");
switch (data->fail_reason) {
case BCMOLT_ACTIVATION_FAIL_REASON_RANGING:
onu_ind->set_fail_reason(openolt::OnuIndication_ActivationFailReason_ONU_ACTIVATION_FAIL_REASON_RANGING);
break;
case BCMOLT_ACTIVATION_FAIL_REASON_PASSWORD_AUTHENTICATION:
onu_ind->set_fail_reason(openolt::OnuIndication_ActivationFailReason_ONU_ACTIVATION_FAIL_REASON_PASSWORD_AUTHENTICATION);
break;
case BCMOLT_ACTIVATION_FAIL_REASON_LOS:
onu_ind->set_fail_reason(openolt::OnuIndication_ActivationFailReason_ONU_ACTIVATION_FAIL_REASON_LOS);
break;
case BCMOLT_ACTIVATION_FAIL_REASON_ONU_ALARM:
onu_ind->set_fail_reason(openolt::OnuIndication_ActivationFailReason_ONU_ACTIVATION_FAIL_ONU_ALARM);
break;
case BCMOLT_ACTIVATION_FAIL_REASON_SWITCH_OVER:
onu_ind->set_fail_reason(openolt::OnuIndication_ActivationFailReason_ONU_ACTIVATION_FAIL_SWITCH_OVER);
break;
default:
onu_ind->set_fail_reason(openolt::OnuIndication_ActivationFailReason_ONU_ACTIVATION_FAIL_REASON_NONE);
}
// Setting the admin_state state field based on a valid onu_id does not make any sense.
// The adapter too does not seem to interpret this seriously.
// Legacy code, lets keep this as is for now.
(key->onu_id)?onu_ind->set_admin_state("up"):onu_ind->set_admin_state("down");
ind.set_allocated_onu_ind(onu_ind);
OPENOLT_LOG(INFO, openolt_log_id, "onu indication, pon_ni %d, onu_id %d, onu_state %s, onu_admin %s\n",
key->pon_ni, key->onu_id, (data->status==BCMOLT_RESULT_SUCCESS)?"up":"down",
(key->onu_id)?"up":"down");
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuLossOfKeySyncFailureIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuLossOfKeySyncFailureIndication* loss_of_sync_fail_ind = new openolt::OnuLossOfKeySyncFailureIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_LOKI:
{
bcmolt_onu_key *key = &((bcmolt_onu_loki*)msg)->key;
bcmolt_onu_loki_data *data = &((bcmolt_onu_loki*)msg)->data;
OPENOLT_LOG(INFO, openolt_log_id, "Got onu loss of key sync, intf_id %d, onu_id %d, alarm_status %d\n",
key->pon_ni, key->onu_id, data->alarm_status);
loss_of_sync_fail_ind->set_intf_id(key->pon_ni);
loss_of_sync_fail_ind->set_onu_id(key->onu_id);
loss_of_sync_fail_ind->set_status(alarm_status_to_string(data->alarm_status));
alarm_ind->set_allocated_onu_loss_of_sync_fail_ind(loss_of_sync_fail_ind);
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuItuPonStatsAlarmRaisedIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuItuPonStatsIndication* onu_itu_pon_stats_ind = new openolt::OnuItuPonStatsIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_ITU_PON_STATS_ALARM_RAISED:
{
bcmolt_onu_key *onu_key = &((bcmolt_onu_itu_pon_stats_alarm_raised*)msg)->key;
bcmolt_onu_itu_pon_stats_alarm_raised_data *data = &((bcmolt_onu_itu_pon_stats_alarm_raised*)msg)->data;
if (_BCMOLT_FIELD_MASK_BIT_IS_SET(data->presence_mask, BCMOLT_ONU_ITU_PON_STATS_ALARM_RAISED_DATA_ID_STAT)) {
switch (data->stat)
{
case BCMOLT_ONU_ITU_PON_STATS_DATA_ID_RDI_ERRORS:
uint64_t rdi_errors;
openolt::RdiErrorIndication* rdi_err_ind = new openolt::RdiErrorIndication;
rdi_errors = get_pon_stats_alarms_data(onu_key->pon_ni, onu_key->onu_id, data->stat);
onu_itu_pon_stats_ind->set_intf_id(onu_key->pon_ni);
onu_itu_pon_stats_ind->set_onu_id(onu_key->onu_id);
rdi_err_ind->set_rdi_error_count(rdi_errors);
rdi_err_ind->set_status("on");
onu_itu_pon_stats_ind->set_allocated_rdi_error_ind(rdi_err_ind);
OPENOLT_LOG(INFO, openolt_log_id, "Got onu raised alarm indication, intf_id %d, onu_id %d, \
rdi_errors %"PRIu64"\n", onu_key->pon_ni, onu_key->onu_id, rdi_errors);
alarm_ind->set_allocated_onu_itu_pon_stats_ind(onu_itu_pon_stats_ind);
break;
/* It is a further requirement
case BCMOLT_ONU_ITU_PON_STATS_DATA_ID_BIP_ERRORS:
uint64_t bip_errors;
bip_errors = get_pon_stats_alarms_data(onu_key->pon_ni, onu_key->onu_id, data->stat);
onu_itu_pon_stats_ind->set_intf_id(onu_key->pon_ni);
onu_itu_pon_stats_ind->set_onu_id(onu_key->onu_id);
OPENOLT_LOG(INFO, openolt_log_id, "Got onu raised alarm indication, intf_id %d, onu_id %d, \
bip_errors %"PRIu64"\n", onu_key->pon_ni, onu_key->onu_id, bip_errors);
alarm_ind->set_allocated_onu_itu_pon_stats_ind(onu_itu_pon_stats_ind);
break;
*/
}
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuItuPonStatsAlarmClearedIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuItuPonStatsIndication* onu_itu_pon_stats_ind = new openolt::OnuItuPonStatsIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_ITU_PON_STATS_ALARM_CLEARED:
{
bcmolt_onu_key *onu_key = &((bcmolt_onu_itu_pon_stats_alarm_cleared*)msg)->key;
bcmolt_onu_itu_pon_stats_alarm_cleared_data *data = &((bcmolt_onu_itu_pon_stats_alarm_cleared*)msg)->data;
if (_BCMOLT_FIELD_MASK_BIT_IS_SET(data->presence_mask, BCMOLT_ONU_ITU_PON_STATS_ALARM_CLEARED_DATA_ID_STAT)) {
switch (data->stat)
{
case BCMOLT_ONU_ITU_PON_STATS_DATA_ID_RDI_ERRORS:
uint64_t rdi_errors;
openolt::RdiErrorIndication* rdi_err_ind = new openolt::RdiErrorIndication;
rdi_errors = get_pon_stats_alarms_data(onu_key->pon_ni, onu_key->onu_id, data->stat);
onu_itu_pon_stats_ind->set_intf_id(onu_key->pon_ni);
onu_itu_pon_stats_ind->set_onu_id(onu_key->onu_id);
rdi_err_ind->set_rdi_error_count(rdi_errors);
rdi_err_ind->set_status("off");
onu_itu_pon_stats_ind->set_allocated_rdi_error_ind(rdi_err_ind);
OPENOLT_LOG(INFO, openolt_log_id, "Got onu cleared alarm indication, intf_id %d, onu_id %d, \
rdi_errors %"PRIu64"\n", onu_key->pon_ni, onu_key->onu_id, rdi_errors);
alarm_ind->set_allocated_onu_itu_pon_stats_ind(onu_itu_pon_stats_ind);
break;
/* It is a further requirement
case BCMOLT_ONU_ITU_PON_STATS_DATA_ID_BIP_ERRORS:
uint64_t bip_errors;
bip_errors = get_pon_stats_alarms_data(onu_key->pon_ni, onu_key->onu_id, data->stat);
onu_itu_pon_stats_ind->set_intf_id(onu_key->pon_ni);
onu_itu_pon_stats_ind->set_onu_id(onu_key->onu_id);
onu_itu_pon_stats_ind->set_bip_errors(bip_errors);
OPENOLT_LOG(INFO, openolt_log_id, "Got onu cleared alarm indication, intf_id %d, onu_id %d, \
bip_errors %"PRIu64"\n", onu_key->pon_ni, onu_key->onu_id, bip_errors);
alarm_ind->set_allocated_onu_itu_pon_stats_ind(onu_itu_pon_stats_ind);
break;
*/
}
ind.set_allocated_alarm_ind(alarm_ind);
}
}
}
}
oltIndQ.push(ind);
bcmolt_msg_free(msg);
}
static void OnuDeactivationCompletedIndication(bcmolt_devid olt, bcmolt_msg *msg) {
openolt::Indication ind;
openolt::Indication onu_ind;
openolt::OnuIndication* onu_ind_data = new openolt::OnuIndication;
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_ONU_DEACTIVATION_COMPLETED:
{
bcmolt_onu_key *key = &((bcmolt_onu_onu_deactivation_completed*)msg)->key;
bcmolt_onu_onu_deactivation_completed_data *data =
&((bcmolt_onu_onu_deactivation_completed*)msg)->data;
OPENOLT_LOG(INFO, openolt_log_id, "Got onu deactivation, intf_id %d, onu_id %d, fail_reason %d, result_status %s\n",
key->pon_ni, key->onu_id, data->fail_reason, bcmolt_result_to_string(data->status).c_str());
onu_ind_data->set_intf_id(key->pon_ni);
onu_ind_data->set_onu_id(key->onu_id);
onu_ind_data->set_oper_state("down");
onu_ind_data->set_admin_state("down");
onu_ind.set_allocated_onu_ind(onu_ind_data);
onu_deact_compltd_key onu_key((uint32_t)key->pon_ni, (uint32_t) key->onu_id);
onu_deactivate_complete_result res;
res.pon_intf_id = (uint32_t)key->pon_ni;
res.onu_id = (uint32_t) key->onu_id;
res.result = data->status;
res.reason = data->fail_reason;
OPENOLT_LOG(INFO, openolt_log_id, "received onu deactivate result, pon intf %u, onu_id %u, status %u, reason %u\n",
key->pon_ni, key->onu_id, data->status, data->fail_reason);
bcmos_fastlock_lock(&onu_deactivate_wait_lock);
// Push the result from BAL to queue
std::map<onu_deact_compltd_key, Queue<onu_deactivate_complete_result> *>::iterator it = onu_deact_compltd_map.find(onu_key);
if (it == onu_deact_compltd_map.end()) {
// could be case of spurious aysnc response, OR, the application timed-out waiting for response and cleared the key.
// OR most importantly, could be a case of ONU going down (reboot, PON cable plug-out) where
// BCMOLT_ONU_AUTO_SUBGROUP_ONU_DEACTIVATION_COMPLETED is received without any explicit request from the application.
// The application has to take care handling spurious indications.
OPENOLT_LOG(WARNING, openolt_log_id, "onu deactivate completed key not found for pon intf %u, onu_id %u\n",
key->pon_ni, key->onu_id);
}
else if (it->second) {
// Push the result
it->second->push(res);
}
bcmos_fastlock_unlock(&onu_deactivate_wait_lock, 0);
}
}
}
oltIndQ.push(onu_ind);
bcmolt_msg_free(msg);
}
static void OnuRssiMeasurementCompletedIndication(bcmolt_devid olt, bcmolt_msg *msg) {
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_ONU:
switch (msg->subgroup) {
case BCMOLT_ONU_AUTO_SUBGROUP_RSSI_MEASUREMENT_COMPLETED:
{
bcmolt_onu_key *key = &((bcmolt_onu_rssi_measurement_completed*)msg)->key;
bcmolt_onu_rssi_measurement_completed_data *data = &((bcmolt_onu_rssi_measurement_completed*)msg)->data;
double rx_power_mean_dbm = 0.0;
OPENOLT_LOG(INFO, openolt_log_id, "ONU RSSI Measurement Completed indication - pon_id: %d, onu_id: %d, status: %d, fail_reason: %d\n",
key->pon_ni, key->onu_id, data->status, data->fail_reason);
if (data->status == BCMOLT_RESULT_SUCCESS) {
auto trx_eeprom_reader =
#ifdef ASGVOLT64
TrxEepromReader{TrxEepromReader::DEVICE_GPON, TrxEepromReader::RX_POWER, key->pon_ni};
#else
TrxEepromReader{TrxEepromReader::DEVICE_XGSPON, TrxEepromReader::RX_POWER, key->pon_ni};
#endif
auto power = trx_eeprom_reader.read_power_mean_dbm();
if (power.second) {
rx_power_mean_dbm = power.first.first;
OPENOLT_LOG(INFO, openolt_log_id, "ONU RSSI Measurement Completed indication - rx_power_mean_dbm: %f\n", rx_power_mean_dbm);
} else {
OPENOLT_LOG(ERROR, openolt_log_id, "ONU RSSI Measurement Completed indication - Rx power read failure\n");
}
} else {
OPENOLT_LOG(ERROR, openolt_log_id, "ONU RSSI Measurement Completed indication - failure");
}
// for internal use insert into map
onu_rssi_compltd_key onu_key((uint32_t)key->pon_ni, (uint32_t)key->onu_id);
onu_rssi_complete_result res;
res.pon_intf_id = (uint32_t)key->pon_ni;
res.onu_id = (uint32_t)key->onu_id;
res.status = bcmolt_result_to_string(data->status);
res.reason = data->fail_reason;
res.rx_power_mean_dbm = rx_power_mean_dbm;
bcmos_fastlock_lock(&onu_rssi_wait_lock);
auto it = onu_rssi_compltd_map.find(onu_key);
if (it == onu_rssi_compltd_map.end()) {
OPENOLT_LOG(ERROR, openolt_log_id, "ONU RSSI Measurement Completed key not found for pon intf %u, onu_id %u\n",
key->pon_ni, key->onu_id);
} else if (it->second) {
it->second->push(res);
} else {
OPENOLT_LOG(WARNING, openolt_log_id, "ONU RSSI Measurement Completed queue not found for pon intf %u, onu_id %u\n",
key->pon_ni, key->onu_id);
}
bcmos_fastlock_unlock(&onu_rssi_wait_lock, 0);
}
}
}
bcmolt_msg_free(msg);
}
/* removed by BAL v3.0
bcmos_errno OnuProcessingErrorIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuProcessingErrorIndication* onu_proc_error_ind = new openolt::OnuProcessingErrorIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_processing_error*)obj)->key);
OPENOLT_LOG(WARNING, openolt_log_id, "onu processing error indication, intf_id %d, onu_id %d\n",
key->intf_id, key->sub_term_id);
onu_proc_error_ind->set_intf_id(key->intf_id);
onu_proc_error_ind->set_onu_id(key->sub_term_id);
alarm_ind->set_allocated_onu_processing_error_ind(onu_proc_error_ind);
ind.set_allocated_alarm_ind(alarm_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
*/
static void GroupIndication(bcmolt_devid olt, bcmolt_msg *msg) {
switch (msg->obj_type) {
case BCMOLT_OBJ_ID_GROUP:
switch (msg->subgroup) {
case BCMOLT_GROUP_AUTO_SUBGROUP_COMPLETE_MEMBERS_UPDATE:
{
bcmolt_group_key *key = &((bcmolt_group_complete_members_update*)msg)->key;
bcmolt_group_complete_members_update_data *data =
&((bcmolt_group_complete_members_update*)msg)->data;
if (data->result == BCMOLT_RESULT_SUCCESS) {
OPENOLT_LOG(INFO, openolt_log_id, "Complete members update indication for group %d (successful)\n", key->id);
} else {
OPENOLT_LOG(ERROR, openolt_log_id, "Complete members update indication for group %d (failed with reason %d)\n", key->id, data->fail_reason);
}
}
}
}
bcmolt_msg_free(msg);
}
Status SubscribeIndication() {
bcmolt_rx_cfg rx_cfg = {};
bcmos_errno rc;
if (subscribed) {
return Status::OK;
}
rx_cfg.obj_type = BCMOLT_OBJ_ID_DEVICE;
rx_cfg.rx_cb = OltOperIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_device_auto_subgroup_connection_complete;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL,
"Olt connection complete state indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_DEVICE;
rx_cfg.rx_cb = OltOperIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_device_auto_subgroup_disconnection_complete;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL,
"Olt disconnection complete state indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_DEVICE;
rx_cfg.rx_cb = OltOperIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_device_auto_subgroup_connection_failure;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL,
"Olt connection failure state indication subscribe failed");
/* Interface LOS indication */
rx_cfg.obj_type = BCMOLT_OBJ_ID_PON_INTERFACE;
rx_cfg.rx_cb = LosIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_pon_interface_auto_subgroup_los;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "LOS indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_PON_INTERFACE;
rx_cfg.rx_cb = IfOperIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_pon_interface_auto_subgroup_state_change_completed;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL,
"PON Interface operations state change indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_NNI_INTERFACE;
rx_cfg.rx_cb = IfOperIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_nni_interface_auto_subgroup_state_change;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL,
"NNI Interface operations state change indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuAlarmIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_xgpon_alarm;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu alarm indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuAlarmIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_gpon_alarm;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu alarm indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuDyingGaspIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_dgi;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu dying-gasp indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_PON_INTERFACE;
rx_cfg.rx_cb = OnuDiscoveryIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_pon_interface_auto_subgroup_onu_discovered;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu discovery indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuStartupFailureIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_sufi;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL,
"onu startup failure indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuSignalDegradeIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_sdi;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu sdi indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuDriftOfWindowIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_dowi;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu dowi indication subscribe failed");
/* LOOCI indication */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuLossOfOmciChannelIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_looci;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu looci indication subscribe failed");
/* SFI indication */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuSignalsFailureIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_sfi;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu sfi indication subscribe failed");
/* TIWI indication */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuTransmissionInterferenceWarningIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_tiwi;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu tiwi indication subscribe failed");
/* ONU Activation Completed Indication */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuActivationCompletedIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_onu_activation_completed;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL,
"onu activation completed indication subscribe failed");
/* ONU Deactivation Completed Indication */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuDeactivationCompletedIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_onu_deactivation_completed;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL,
"onu deactivation indication subscribe failed");
/* ONU Loss of Key Sync Indiction */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuLossOfKeySyncFailureIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_loki;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu loss of key sync indication subscribe failed");
/* ONU ITU-PON Raised Stats Indiction */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuItuPonStatsAlarmRaisedIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_itu_pon_stats_alarm_raised;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu itu-pon raised stats indication subscribe failed");
/* ONU ITU-PON Cleared Stats Indiction */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuItuPonStatsAlarmClearedIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_itu_pon_stats_alarm_cleared;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "onu itu-pon cleared stats indication subscribe failed");
/* Packet-In by Access_Control */
rx_cfg.obj_type = BCMOLT_OBJ_ID_ACCESS_CONTROL;
rx_cfg.rx_cb = PacketIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_access_control_auto_subgroup_receive_eth_packet;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "Packet indication subscribe failed");
#ifndef SCALE_AND_PERF
rx_cfg.obj_type = BCMOLT_OBJ_ID_ITUPON_ALLOC;
rx_cfg.rx_cb = ItuPonAllocConfigCompletedInd;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_itupon_alloc_auto_subgroup_configuration_completed;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "ITU PON Alloc Configuration Complete Indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_ITUPON_GEM;
rx_cfg.rx_cb = ItuPonGemConfigCompletedInd;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_itupon_gem_auto_subgroup_configuration_completed;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "ITU PON Gem Configuration Complete Indication subscribe failed");
#endif
rx_cfg.obj_type = BCMOLT_OBJ_ID_GROUP;
rx_cfg.rx_cb = GroupIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_group_auto_subgroup_complete_members_update;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "Complete members update indication subscribe failed");
rx_cfg.obj_type = BCMOLT_OBJ_ID_ONU;
rx_cfg.rx_cb = OnuRssiMeasurementCompletedIndication;
rx_cfg.flags = BCMOLT_AUTO_FLAGS_NONE;
rx_cfg.subgroup = bcmolt_onu_auto_subgroup_rssi_measurement_completed;
rc = bcmolt_ind_subscribe(current_device, &rx_cfg);
if(rc != BCM_ERR_OK)
return Status(grpc::StatusCode::INTERNAL, "ONU RSSI Measurement indication subscription failed");
subscribed = true;
return Status::OK;
}