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/*
Copyright (C) 2018 Open Networking Foundation
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "indications.h"
#include "core.h"
#include "utils.h"
#include "stats_collection.h"
#include "translation.h"
#include "state.h"
#include <string>
extern "C"
{
#include <bcmos_system.h>
#include <bal_api.h>
#include <bal_api_end.h>
}
using grpc::Status;
extern Queue<openolt::Indication> oltIndQ;
//Queue<openolt::Indication*> oltIndQ;
bool subscribed = false;
bcmos_errno OmciIndication(bcmbal_obj *obj);
bcmos_errno OltIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::OltIndication* olt_ind = new openolt::OltIndication;
Status status;
bcmbal_access_terminal_oper_status_change *acc_term_ind = (bcmbal_access_terminal_oper_status_change *)obj;
if (acc_term_ind->data.new_oper_status == BCMBAL_STATUS_UP) {
olt_ind->set_oper_state("up");
state.activate();
} else {
olt_ind->set_oper_state("down");
state.deactivate();
}
ind.set_allocated_olt_ind(olt_ind);
std::cout << "olt indication, oper_state:" << ind.olt_ind().oper_state() << std::endl;
oltIndQ.push(ind);
#define MAX_SUPPORTED_INTF 16
// Enable all PON interfaces.
for (int i = 0; i < MAX_SUPPORTED_INTF; i++) {
status = EnablePonIf_(i);
if (!status.ok()) {
// FIXME - raise alarm to report error in enabling PON
}
}
/* register for omci indication */
{
bcmbal_cb_cfg cb_cfg = {};
uint16_t ind_subgroup;
cb_cfg.module = BCMOS_MODULE_ID_NONE;
cb_cfg.obj_type = BCMBAL_OBJ_ID_PACKET;
ind_subgroup = BCMBAL_IND_SUBGROUP(packet, itu_omci_channel_rx);
cb_cfg.p_object_key_info = NULL;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OmciIndication;
bcmbal_subscribe_ind(0, &cb_cfg);
}
return BCM_ERR_OK;
}
bcmos_errno LosIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::LosIndication* los_ind = new openolt::LosIndication;
bcmbal_interface_los* bcm_los_ind = (bcmbal_interface_los *) obj;
int intf_id = interface_key_to_port_no(bcm_los_ind->key);
std::string status = alarm_status_to_string(bcm_los_ind->data.status);
std::cout << "LOS indication : " << intf_id << " " << status << std::endl;
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);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno IfIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::IntfIndication* intf_ind = new openolt::IntfIndication;
std::cout << "intf indication, intf_id:"
<< ((bcmbal_interface_oper_status_change *)obj)->key.intf_id << std::endl;
intf_ind->set_intf_id(((bcmbal_interface_oper_status_change *)obj)->key.intf_id);
if (((bcmbal_interface_oper_status_change *)obj)->data.new_oper_status == BCMBAL_STATUS_UP) {
intf_ind->set_oper_state("up");
} else {
intf_ind->set_oper_state("down");
}
ind.set_allocated_intf_ind(intf_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno IfOperIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::IntfOperIndication* intf_oper_ind = new openolt::IntfOperIndication;
std::cout << "intf oper state indication, intf_id:"
<< ((bcmbal_interface_oper_status_change *)obj)->key.intf_id
<< " type:" << ((bcmbal_interface_oper_status_change *)obj)->key.intf_type
<< " oper_state:" << ((bcmbal_interface_oper_status_change *)obj)->data.new_oper_status
<< " admin_state:" << ((bcmbal_interface_oper_status_change *)obj)->data.admin_state
<< std::endl;
intf_oper_ind->set_intf_id(((bcmbal_interface_oper_status_change *)obj)->key.intf_id);
if (((bcmbal_interface_oper_status_change *)obj)->key.intf_type == BCMBAL_INTF_TYPE_NNI) {
intf_oper_ind->set_type("nni");
} else if (((bcmbal_interface_oper_status_change *)obj)->key.intf_type == BCMBAL_INTF_TYPE_PON) {
intf_oper_ind->set_type("pon");
} else {
intf_oper_ind->set_type("unknown");
}
if (((bcmbal_interface_oper_status_change *)obj)->data.new_oper_status == BCMBAL_STATUS_UP) {
intf_oper_ind->set_oper_state("up");
} else {
intf_oper_ind->set_oper_state("down");
}
ind.set_allocated_intf_oper_ind(intf_oper_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno OnuAlarmIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuAlarmIndication* onu_alarm_ind = new openolt::OnuAlarmIndication;
bcmbal_subscriber_terminal_key *key =
&((bcmbal_subscriber_terminal_sub_term_alarm*)obj)->key;
bcmbal_subscriber_terminal_alarms *alarms =
&(((bcmbal_subscriber_terminal_sub_term_alarm*)obj)->data.alarm);
std::cout << "onu alarm indication intf_id:" << key->intf_id
<< ", onu_id:"
<< key->sub_term_id
<< ", alarm: los " << alarms->los << ", lob " << alarms->lob
<< ", lopc_miss " << alarms->lopc_miss << ", lopc_mic_error "
<< alarms->lopc_mic_error << std::endl;
onu_alarm_ind->set_intf_id(key->intf_id);
onu_alarm_ind->set_onu_id(key->sub_term_id);
onu_alarm_ind->set_los_status(alarm_status_to_string(alarms->los));
onu_alarm_ind->set_lob_status(alarm_status_to_string(alarms->lob));
onu_alarm_ind->set_lopc_miss_status(alarm_status_to_string(alarms->lopc_miss));
onu_alarm_ind->set_lopc_mic_error_status(alarm_status_to_string(alarms->lopc_mic_error));
alarm_ind->set_allocated_onu_alarm_ind(onu_alarm_ind);
ind.set_allocated_alarm_ind(alarm_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno OnuDyingGaspIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::DyingGaspIndication* dg_ind = new openolt::DyingGaspIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_dgi*)obj)->key);
bcmbal_subscriber_terminal_dgi_data *data =
&(((bcmbal_subscriber_terminal_dgi*)obj)->data);
std::cout << "onu dying-gasp indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id
<< ", alarm: "
<< data->dgi_status << std::endl;
dg_ind->set_intf_id(key->intf_id);
dg_ind->set_onu_id(key->sub_term_id);
dg_ind->set_status(alarm_status_to_string(data->dgi_status));
alarm_ind->set_allocated_dying_gasp_ind(dg_ind);
ind.set_allocated_alarm_ind(alarm_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno OnuDiscoveryIndication(bcmbal_cfg *obj) {
openolt::Indication ind;
openolt::OnuDiscIndication* onu_disc_ind = new openolt::OnuDiscIndication;
openolt::SerialNumber* serial_number = new openolt::SerialNumber;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_sub_term_disc*)obj)->key);
bcmbal_subscriber_terminal_sub_term_disc_data *data =
&(((bcmbal_subscriber_terminal_sub_term_disc*)obj)->data);
bcmbal_serial_number *in_serial_number = &(data->serial_number);
std::cout << "onu discover indication, intf_id:"
<< key->intf_id
<< " serial_number:"
<< serial_number_to_str(in_serial_number) << std::endl;
onu_disc_ind->set_intf_id(key->intf_id);
serial_number->set_vendor_id(reinterpret_cast<const char *>(in_serial_number->vendor_id), 4);
serial_number->set_vendor_specific(reinterpret_cast<const char *>(in_serial_number->vendor_specific), 8);
onu_disc_ind->set_allocated_serial_number(serial_number);
ind.set_allocated_onu_disc_ind(onu_disc_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno OnuIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::OnuIndication* onu_ind = new openolt::OnuIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_oper_status_change*)obj)->key);
bcmbal_subscriber_terminal_oper_status_change_data *data =
&(((bcmbal_subscriber_terminal_oper_status_change*)obj)->data);
std::cout << "onu indication, intf_id:"
<< key->intf_id
<< " oper_state:" << data->new_oper_status
<< " admin_state:" << data->admin_state
<< " onu_id:" << key->sub_term_id << std::endl;
onu_ind->set_intf_id(key->intf_id);
onu_ind->set_onu_id(key->sub_term_id);
if (data->new_oper_status == BCMBAL_STATE_UP) {
onu_ind->set_oper_state("up");
} else {
onu_ind->set_oper_state("down");
}
if (data->admin_state == BCMBAL_STATE_UP) {
onu_ind->set_admin_state("up");
} else {
onu_ind->set_admin_state("down");
}
ind.set_allocated_onu_ind(onu_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno OnuOperIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::OnuIndication* onu_ind = new openolt::OnuIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_oper_status_change*)obj)->key);
bcmbal_subscriber_terminal_oper_status_change_data *data =
&(((bcmbal_subscriber_terminal_oper_status_change*)obj)->data);
std::cout << "onu oper state indication, intf_id:"
<< key->intf_id
<< " onu_id: "
<< key->sub_term_id
<< " old oper state: "
<< data->old_oper_status
<< " new oper state:"
<< data->new_oper_status << std::endl;
onu_ind->set_intf_id(key->intf_id);
onu_ind->set_onu_id(key->sub_term_id);
if (data->new_oper_status == BCMBAL_STATE_UP) {
onu_ind->set_oper_state("up");
} else {
onu_ind->set_oper_state("down");
}
if (data->admin_state == BCMBAL_STATE_UP) {
onu_ind->set_admin_state("up");
} else {
onu_ind->set_admin_state("down");
}
ind.set_allocated_onu_ind(onu_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno OmciIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::OmciIndication* omci_ind = new openolt::OmciIndication;
bcmbal_packet_itu_omci_channel_rx *in =
(bcmbal_packet_itu_omci_channel_rx *)obj;
// std::cout << "omci indication" << std::endl;
omci_ind->set_intf_id(in->key.packet_send_dest.u.itu_omci_channel.intf_id);
omci_ind->set_onu_id(in->key.packet_send_dest.u.itu_omci_channel.sub_term_id);
omci_ind->set_pkt(in->data.pkt.val, in->data.pkt.len);
ind.set_allocated_omci_ind(omci_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno PacketIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::PacketIndication* pkt_ind = new openolt::PacketIndication;
bcmbal_packet_bearer_channel_rx *in = (bcmbal_packet_bearer_channel_rx *)obj;
std::cout << "packet indication"
<< " intf_id:" << in->data.intf_id
<< " svc_port:" << in->data.svc_port
<< " flow_id:" << in->data.flow_id
<< std::endl;
pkt_ind->set_intf_id(in->data.intf_id);
pkt_ind->set_gemport_id(in->data.svc_port);
pkt_ind->set_flow_id(in->data.flow_id);
pkt_ind->set_pkt(in->data.pkt.val, in->data.pkt.len);
ind.set_allocated_pkt_ind(pkt_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno FlowOperIndication(bcmbal_obj *obj) {
openolt::Indication ind;
std::cout << "flow oper state indication" << std::endl;
return BCM_ERR_OK;
}
bcmos_errno FlowIndication(bcmbal_obj *obj) {
openolt::Indication ind;
std::cout << "flow indication" << std::endl;
return BCM_ERR_OK;
}
bcmos_errno TmQIndication(bcmbal_obj *obj) {
openolt::Indication ind;
std::cout << "traffic mgmt queue indication" << std::endl;
return BCM_ERR_OK;
}
bcmos_errno TmSchedIndication(bcmbal_obj *obj) {
openolt::Indication ind;
std::cout << "traffic mgmt sheduler indication" << std::endl;
return BCM_ERR_OK;
}
bcmos_errno McastGroupIndication(bcmbal_obj *obj) {
openolt::Indication ind;
std::cout << "mcast group indication" << std::endl;
return BCM_ERR_OK;
}
bcmos_errno OnuStartupFailureIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuStartupFailureIndication* sufi_ind = new openolt::OnuStartupFailureIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_sufi*)obj)->key);
bcmbal_subscriber_terminal_sufi_data *data =
&(((bcmbal_subscriber_terminal_sufi*)obj)->data);
std::cout << "onu startup failure indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id
<< ", alarm: "
<< data->sufi_status << std::endl;
sufi_ind->set_intf_id(key->intf_id);
sufi_ind->set_onu_id(key->sub_term_id);
sufi_ind->set_status(alarm_status_to_string(data->sufi_status));
alarm_ind->set_allocated_onu_startup_fail_ind(sufi_ind);
ind.set_allocated_alarm_ind(alarm_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno OnuSignalDegradeIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuSignalDegradeIndication* sdi_ind = new openolt::OnuSignalDegradeIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_sdi*)obj)->key);
bcmbal_subscriber_terminal_sdi_data *data =
&(((bcmbal_subscriber_terminal_sdi*)obj)->data);
std::cout << "onu signal degrade indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id
<< ", alarm: "
<< data->sdi_status
<< ", BER : " << data->ber << std::endl;
sdi_ind->set_intf_id(key->intf_id);
sdi_ind->set_onu_id(key->sub_term_id);
sdi_ind->set_status(alarm_status_to_string(data->sdi_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);
return BCM_ERR_OK;
}
bcmos_errno OnuDriftOfWindowIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuDriftOfWindowIndication* dowi_ind = new openolt::OnuDriftOfWindowIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_dowi*)obj)->key);
bcmbal_subscriber_terminal_dowi_data *data =
&(((bcmbal_subscriber_terminal_dowi*)obj)->data);
std::cout << "onu drift of window indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id
<< ", alarm: "
<< data->dowi_status
<< ", drift : " << data->drift_value
<< "new_eqd : " << data->new_eqd << std::endl;
dowi_ind->set_intf_id(key->intf_id);
dowi_ind->set_onu_id(key->sub_term_id);
dowi_ind->set_status(alarm_status_to_string(data->dowi_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);
return BCM_ERR_OK;
}
bcmos_errno OnuLossOfOmciChannelIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuLossOfOmciChannelIndication* looci_ind = new openolt::OnuLossOfOmciChannelIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_looci*)obj)->key);
bcmbal_subscriber_terminal_looci_data *data =
&(((bcmbal_subscriber_terminal_looci*)obj)->data);
std::cout << "onu loss of OMCI channel indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id
<< ", alarm: "
<< data->looci_status << std::endl;
looci_ind->set_intf_id(key->intf_id);
looci_ind->set_onu_id(key->sub_term_id);
looci_ind->set_status(alarm_status_to_string(data->looci_status));
alarm_ind->set_allocated_onu_loss_omci_ind(looci_ind);
ind.set_allocated_alarm_ind(alarm_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
bcmos_errno OnuSignalsFailureIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuSignalsFailureIndication* sfi_ind = new openolt::OnuSignalsFailureIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_sfi*)obj)->key);
bcmbal_subscriber_terminal_sfi_data *data =
&(((bcmbal_subscriber_terminal_sfi*)obj)->data);
std::cout << "onu signals failure indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id
<< ", alarm: "
<< data->sfi_status
<< ", BER: " << data->ber << std::endl;
sfi_ind->set_intf_id(key->intf_id);
sfi_ind->set_onu_id(key->sub_term_id);
sfi_ind->set_status(alarm_status_to_string(data->sfi_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);
return BCM_ERR_OK;
}
bcmos_errno OnuTransmissionInterferenceWarningIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuTransmissionInterferenceWarning* tiwi_ind = new openolt::OnuTransmissionInterferenceWarning;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_tiwi*)obj)->key);
bcmbal_subscriber_terminal_tiwi_data *data =
&(((bcmbal_subscriber_terminal_tiwi*)obj)->data);
std::cout << "onu transmission interference warning indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id
<< ", alarm: "
<< data->tiwi_status
<< ", drift: " << data->drift_value << std::endl;
tiwi_ind->set_intf_id(key->intf_id);
tiwi_ind->set_onu_id(key->sub_term_id);
tiwi_ind->set_status(alarm_status_to_string(data->tiwi_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);
return BCM_ERR_OK;
}
bcmos_errno OnuActivationFailureIndication(bcmbal_obj *obj) {
openolt::Indication ind;
openolt::AlarmIndication* alarm_ind = new openolt::AlarmIndication;
openolt::OnuActivationFailureIndication* activation_fail_ind = new openolt::OnuActivationFailureIndication;
bcmbal_subscriber_terminal_key *key =
&(((bcmbal_subscriber_terminal_sub_term_act_fail*)obj)->key);
std::cout << "onu activation failure indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id << std::endl;
activation_fail_ind->set_intf_id(key->intf_id);
activation_fail_ind->set_onu_id(key->sub_term_id);
alarm_ind->set_allocated_onu_activation_fail_ind(activation_fail_ind);
ind.set_allocated_alarm_ind(alarm_ind);
oltIndQ.push(ind);
return BCM_ERR_OK;
}
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);
std::cout << "onu processing error indication, intf_id:"
<< key->intf_id
<< ", onu_id:"
<< key->sub_term_id << std::endl;
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;
}
Status SubscribeIndication() {
bcmbal_cb_cfg cb_cfg = {};
uint16_t ind_subgroup;
if (subscribed) {
return Status::OK;
}
cb_cfg.module = BCMOS_MODULE_ID_NONE;
/* OLT device indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_ACCESS_TERMINAL;
ind_subgroup = bcmbal_access_terminal_auto_id_oper_status_change;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OltIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Olt indication subscribe failed");
}
/* Interface LOS indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_INTERFACE;
ind_subgroup = bcmbal_interface_auto_id_los;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)LosIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "LOS indication subscribe failed");
}
/* Interface indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_INTERFACE;
ind_subgroup = bcmbal_interface_auto_id_oper_status_change;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)IfIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Interface indication subscribe failed");
}
/* Interface operational state change indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_INTERFACE;
ind_subgroup = bcmbal_interface_auto_id_oper_status_change;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)IfOperIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Interface operations state change indication subscribe failed");
}
/* onu alarm indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_sub_term_alarm;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuAlarmIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu alarm indication subscribe failed");
}
/* onu dying-gasp indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_dgi;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuDyingGaspIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu dying-gasp indication subscribe failed");
}
/* onu discovery indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_sub_term_disc;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuDiscoveryIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu discovery indication subscribe failed");
}
/* onu indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_oper_status_change;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu indication subscribe failed");
}
/* onu operational state change indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_oper_status_change;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuOperIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu operational state change indication subscribe failed");
}
/* Packet (bearer) indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_PACKET;
ind_subgroup = bcmbal_packet_auto_id_bearer_channel_rx;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)PacketIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Packet indication subscribe failed");
}
/* Flow Operational State Change */
cb_cfg.obj_type = BCMBAL_OBJ_ID_FLOW;
ind_subgroup = bcmbal_flow_auto_id_oper_status_change;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)FlowOperIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Flow operational state change indication subscribe failed");
}
#if 0
/* Flow Indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_FLOW;
ind_subgroup = bcmbal_flow_auto_id_ind;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)FlowIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Flow indication subscribe failed");
}
/* TM queue indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_TM_QUEUE;
ind_subgroup = bcmbal_tm_queue_auto_id_ind;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)TmQIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Traffic mgmt queue indication subscribe failed");
}
#endif
/* TM sched indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_TM_SCHED;
ind_subgroup = bcmbal_tm_sched_auto_id_oper_status_change;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)TmSchedIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Traffic mgmt queue indication subscribe failed");
}
#if 0
/* Multicast group indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_GROUP;
ind_subgroup = bcmbal_group_auto_id_ind;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)McastGroupIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "Multicast group indication subscribe failed");
}
#endif
/* ONU startup failure indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_sufi;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuStartupFailureIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu startup failure indication subscribe failed");
}
/* SDI indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_sdi;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuSignalDegradeIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu sdi indication subscribe failed");
}
/* DOWI indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_dowi;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuDriftOfWindowIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu dowi indication subscribe failed");
}
/* LOOCI indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_looci;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuLossOfOmciChannelIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu looci indication subscribe failed");
}
/* SFI indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_sfi;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuSignalsFailureIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu sfi indication subscribe failed");
}
/* TIWI indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_tiwi;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuTransmissionInterferenceWarningIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu tiwi indication subscribe failed");
}
/* TIWI indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_sub_term_act_fail;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuActivationFailureIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu activation falaire indication subscribe failed");
}
/* ONU processing error indication */
cb_cfg.obj_type = BCMBAL_OBJ_ID_SUBSCRIBER_TERMINAL;
ind_subgroup = bcmbal_subscriber_terminal_auto_id_processing_error;
cb_cfg.p_subgroup = &ind_subgroup;
cb_cfg.ind_cb_hdlr = (f_bcmbal_ind_handler)OnuProcessingErrorIndication;
if (BCM_ERR_OK != bcmbal_subscribe_ind(DEFAULT_ATERM_ID, &cb_cfg)) {
return Status(grpc::StatusCode::INTERNAL, "onu processing error indication subscribe failed");
}
subscribed = true;
return Status::OK;
}