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gerrit.opencord.org / asfvolt16-driver / refs/heads/master / . / src / voltha_bal_driver.c
blob: 12b7fcf014a903f43d06a9e259910a9481af5186 [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.
*/
#include <signal.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <string.h>
#include <stdlib.h>
#include <stdbool.h>
#include <sys/time.h>
#include "bal_msg_type.grpc-c.h"
#include "bal_osmsg.grpc-c.h"
#include "bal_model_ids.grpc-c.h"
#include "bal_obj.grpc-c.h"
#include "bal_model_types.grpc-c.h"
#include "bal_errno.grpc-c.h"
#include "bal.grpc-c.h"
#include "asfvolt.grpc-c.h"
#include "asfvolt16_driver.h"
#include <sys/reboot.h>
#include "bal_indications_queue.h"
/* Global varibles */
balCoreIpInfo coreIpPortInfo;
/* extern variables*/
list_node *bal_ind_queue_tail = NULL;
list_node *bal_ind_queue_head = NULL;
pthread_mutex_t bal_ind_queue_lock;
unsigned int num_of_nodes = 0;
/* static variables*/
static grpc_c_server_t *test_server;
static void sigint_handler (int x) {
grpc_c_server_destroy(test_server);
exit(0);
}
static bool is_init_done = false;
/*MACRO Definitions*/
#define ASFVOLT_FIELD_LEN 200
void is_grpc_write_pending(int return_value)
{
if (return_value != GRPC_C_WRITE_OK)
{
if(return_value == GRPC_C_WRITE_PENDING)
{
/* TODO: Register call back with grpc-c which will give an indication whenever write was succussful */
ASFVOLT_LOG(ASFVOLT_INFO, "write(%d) is pending, sleep for 5 sec", return_value);
sleep(5);
}
else
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write %d", return_value);
}
}
}
/*
* This functions gets invoked whenever bal Heartbeat RPC gets called
*/
void bal__bal_api_heartbeat_cb(grpc_c_context_t *context)
{
BalHeartbeat *bal_hb;
BalRebootState bal_reboot;
int ret_val;
/*
* Read incoming message into set_cfg
*/
if (context->gcc_payload) {
context->gcc_stream->read(context, (void **)&bal_hb, 0);
}
bal_reboot_state__init(&bal_reboot);
bal_reboot.has_is_reboot = 1;
bal_reboot.is_reboot = is_reboot;
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, &bal_reboot, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
}
/*
* This functions gets invoked whenever Bal reboot gets called
*/
void bal__bal_api_reboot_cb(grpc_c_context_t *context)
{
BalReboot *read_device;
BalErr bal_err;
int ret_val;
/*
* Read incoming message into get_cfg
*/
if (context->gcc_payload)
{
context->gcc_stream->read(context, (void **)&read_device, 0);
ASFVOLT_LOG(ASFVOLT_INFO, "Bal Server - Reboot : Device ID is %s",read_device->device_id);
}
/*
* send it to BAL
*/
bal_err__init(&bal_err);
bal_err.err= 0;
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, &bal_err, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
ret_val = system("shutdown -r now");
sleep(30); /* allow system to shutdown gracefully */
sync(); /* force shutdown if graceful did not work */
reboot(RB_AUTOBOOT);
}
/*
This function reads the specified field from the 'onldump -o' command.
If the field was successfully read, it returns the field value.
If it failed to read the field, then null charecter is returned
*/
char* asfvolt_read_sysinfo(char* field_name, char* field_val)
{
FILE *fp;
/* Prepare the command*/
char command[150];
snprintf(command, sizeof command, "bash -l -c \"onlpdump -s\" | perl -ne 'print $1 if /%s: (\\S+)/'", field_name);
/* Open the command for reading. */
fp = popen(command, "r");
if (fp == NULL) {
/*The client has to check for a Null mac address in this case*/
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to query the mac address");
return field_val;
}
/*Read the field value*/
if (fp) {
fread(field_val, ASFVOLT_FIELD_LEN, 1, fp);
pclose(fp);
}
return field_val;
}
/*
* This functions gets invoked whenever AsfvoltGetSystemInfo RPC gets called
*/
void asfvolt__asfvolt_get_system_info_cb(grpc_c_context_t *context)
{
BalDefault *dummy;
AsfSystemInfo asf_system_info;
char product_name[ASFVOLT_FIELD_LEN] = "\0";
char part_num[ASFVOLT_FIELD_LEN] = "\0";
char serial_num[ASFVOLT_FIELD_LEN] = "\0";
char mac_address[ASFVOLT_FIELD_LEN] = "\0";
char mac_range[ASFVOLT_FIELD_LEN] = "\0";
char manufacturer[ASFVOLT_FIELD_LEN] = "\0";
char manufacturer_date[ASFVOLT_FIELD_LEN] = "\0";
char vendor[ASFVOLT_FIELD_LEN] = "\0";
char platform_name[ASFVOLT_FIELD_LEN] = "\0";
char label_revision[ASFVOLT_FIELD_LEN] = "\0";
char coutry_code[ASFVOLT_FIELD_LEN] = "\0";
char diag_version[ASFVOLT_FIELD_LEN] = "\0";
char onie_version[ASFVOLT_FIELD_LEN] = "\0";
int ret_val;
if (context->gcc_payload) {
context->gcc_stream->read(context, (void **)&dummy, 0);
}
asf_system_info__init(&asf_system_info);
asf_system_info.product_name = asfvolt_read_sysinfo("Product Name", product_name);
asf_system_info.part_num = asfvolt_read_sysinfo("Part Number", part_num);
asf_system_info.serial_num = asfvolt_read_sysinfo("Serial Number", serial_num);
asf_system_info.mac_address = asfvolt_read_sysinfo("MAC", mac_address);
asf_system_info.mac_range = asfvolt_read_sysinfo("MAC Range", mac_range);
asf_system_info.manufacturer = asfvolt_read_sysinfo("Manufacturer", manufacturer);
asf_system_info.manufacture_date = asfvolt_read_sysinfo("Manufacture Date", manufacturer_date);
asf_system_info.vendor = asfvolt_read_sysinfo("Vendor", vendor);
asf_system_info.platform_name = asfvolt_read_sysinfo("Platform Name", platform_name);
asf_system_info.label_revision = asfvolt_read_sysinfo("Label Revision", label_revision);
asf_system_info.country_code = asfvolt_read_sysinfo("Country Code", coutry_code);
asf_system_info.diag_version = asfvolt_read_sysinfo("Diag Version", diag_version);
asf_system_info.onie_version = asfvolt_read_sysinfo("ONIE Version", onie_version);
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, &asf_system_info, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
}
/*
This function reads the SFP presence map information from 'onlpdump -p' system command
and returns a bitmap with the presence information.
*/
unsigned int asfvolt_read_sfp_presence_bitmap(void)
{
char command[150];
char sfp_presence_output[ASFVOLT_FIELD_LEN];
unsigned int sfp_presence_bitmap = 0;
char delim[2] = " ";
char *field = NULL;
FILE *fp;
snprintf(command, sizeof command, "bash -l -c \"onlpdump -p\" | perl -ne 'print $1 if /Presence: ([0-9 ]+)/'");
/* Open the command for reading. */
fp = popen(command, "r");
if (fp == NULL) {
/*The client has to check for a Null mac address in this case*/
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to query the sfp presence map");
return sfp_presence_bitmap;
}
/*Read the field value*/
fread(sfp_presence_output, ASFVOLT_FIELD_LEN, 1, fp);
pclose(fp);
field = strtok(sfp_presence_output, delim);
while (field != NULL) {
sfp_presence_bitmap |= (1 << atoi(field));
field = strtok(NULL, delim);
}
return sfp_presence_bitmap;
}
/*
* This functions gets invoked whenever AsfvoltGetSfpPresenceBitmap RPC gets called
*/
void asfvolt__asfvolt_get_sfp_presence_bitmap_cb(grpc_c_context_t *context)
{
BalDefault *dummy;
AsfSfpPresenceBitmap sfp_presence_bitmap;
int ret_val;
if (context->gcc_payload) {
context->gcc_stream->read(context, (void **)&dummy, 0);
}
asf_sfp_presence_bitmap__init(&sfp_presence_bitmap);
sfp_presence_bitmap.bitmap = asfvolt_read_sfp_presence_bitmap();
sfp_presence_bitmap.has_bitmap = true;
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, &sfp_presence_bitmap, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
}
/*
* This functions gets invoked whenever Bal Stats gets called
*/
void bal__bal_cfg_stat_get_cb(grpc_c_context_t *context)
{
BalInterfaceKey *read_stats = 0;
int ret_val;
/*
* Read incoming message into get_cfg
*/
if (context->gcc_payload) {
context->gcc_stream->read(context, (void **)&read_stats, 0);
ASFVOLT_LOG(ASFVOLT_DEBUG, "Bal Server - Get Stats :NNI port is %d",read_stats->intf_id);
}
BalInterfaceStat get_stats;
memset(&get_stats, 0, sizeof(BalInterfaceStat));
bal_interface_stat__init(&get_stats);
BalInterfaceStatData stat_data;
memset(&stat_data, 0, sizeof(BalInterfaceStatData));
bal_interface_stat_data__init(&stat_data);
BalInterfaceKey stat_key;
memset(&stat_key, 0, sizeof(BalInterfaceKey));
bal_interface_key__init(&stat_key);
/* Interface Type, Interface ID
stat_data - Statistics Data */
if ((read_stats) && (is_init_done == true)) {
asfvolt16_bal_stats_get(read_stats->intf_type, read_stats->intf_id, &stat_data, &stat_key);
}
get_stats.data = &stat_data;
get_stats.key = &stat_key;
ret_val = context->gcc_stream->write(context, &get_stats, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
}
void bal_cfg_get__free_mem_sub_term_cfg_get(BalCfg *balCfgRsp)
{
free(balCfgRsp->terminal->data->password);
free(balCfgRsp->terminal->data->registration_id);
free(balCfgRsp->terminal->data->serial_number->vendor_id);
free(balCfgRsp->terminal->data->serial_number->vendor_specific);
free(balCfgRsp->terminal->data->serial_number);
}
void bal_cfg_get__free_mem(BalCfg *balCfgRsp)
{
switch (balCfgRsp->hdr->obj_type)
{
case BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL:
break;
case BAL_OBJ_ID__BAL_OBJ_ID_INTERFACE:
break;
case BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL:
bal_cfg_get__free_mem_sub_term_cfg_get(balCfgRsp);
break;
default:
break;
}
}
/*
* This functions gets invoked whenever bal RPC gets called
*/
void bal__bal_cfg_get_cb(grpc_c_context_t *context)
{
BalKey *bal_key = 0;
int ret_val;
/*
* Read incoming message into bal_key
*/
if (context->gcc_payload) {
context->gcc_stream->read(context, (void **)&bal_key, 0);
}
/*
* send it to BAL
*/
BalCfg get_cfg_resp;
memset(&get_cfg_resp, 0, sizeof(BalCfg));
bal_cfg__init(&get_cfg_resp);
BalObj hdr_cfg;
memset(&hdr_cfg, 0, sizeof(BalObj));
bal_obj__init(&hdr_cfg);
get_cfg_resp.hdr = &hdr_cfg;
BalCommMsgHdr comm_hdr;
memset(&comm_hdr, 0, sizeof(BalCommMsgHdr));
bal_comm_msg_hdr__init(&comm_hdr);
get_cfg_resp.hdr->comm_hdr = &comm_hdr;
if (bal_key) {
switch(bal_key->hdr->obj_type)
{
case BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL:
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Bal Get For Access Terminal Received\n");
get_cfg_resp.obj_case = BAL_CFG__OBJ_CFG;
get_cfg_resp.hdr->obj_type = BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL;
BalAccessTerminalCfg access_term_cfg;
memset(&access_term_cfg, 0, sizeof(BalAccessTerminalCfg));
bal_access_terminal_cfg__init(&access_term_cfg);
get_cfg_resp.cfg = &access_term_cfg;
BalAccessTerminalCfgData access_term_cfg_data;
memset(&access_term_cfg_data, 0, sizeof(BalAccessTerminalCfgData));
bal_access_terminal_cfg_data__init(&access_term_cfg_data);
get_cfg_resp.cfg->data = &access_term_cfg_data;
BalTopology access_term_cfg_data_topology;
memset(&access_term_cfg_data_topology, 0, sizeof(BalTopology));
bal_topology__init(&access_term_cfg_data_topology);
get_cfg_resp.cfg->data->topology = &access_term_cfg_data_topology;
BalSwVersion access_term_cfg_data_sw_version;
memset(&access_term_cfg_data_sw_version, 0, sizeof(BalSwVersion));
bal_sw_version__init(&access_term_cfg_data_sw_version);
get_cfg_resp.cfg->data->sw_version = &access_term_cfg_data_sw_version;
BalAccessTerminalKey access_term_key;
memset(&access_term_key, 0, sizeof(BalAccessTerminalKey));
bal_access_terminal_key__init(&access_term_key);
get_cfg_resp.cfg->key = &access_term_key;
if (is_init_done == true) {
asfvolt16_bal_cfg_get(&get_cfg_resp);
}
}
break;
case BAL_OBJ_ID__BAL_OBJ_ID_INTERFACE:
{
BalInterfaceCfg intf_cfg;
memset(&intf_cfg, 0, sizeof(BalInterfaceCfg));
bal_interface_cfg__init(&intf_cfg);
get_cfg_resp.interface = &intf_cfg;
BalInterfaceCfgData intf_cfg_data;
memset(&intf_cfg_data, 0, sizeof(BalInterfaceCfgData));
bal_interface_cfg_data__init(&intf_cfg_data);
get_cfg_resp.interface->data = &intf_cfg_data;
BalInterfaceKey intf_key;
memset(&intf_key, 0, sizeof(BalInterfaceKey));
bal_interface_key__init(&intf_key);
get_cfg_resp.interface->key = &intf_key;
if (is_init_done == true) {
asfvolt16_bal_cfg_get(&get_cfg_resp);
}
}
break;
case BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL:
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Bal Get For Subscriber Terminal Received\n");
get_cfg_resp.obj_case = BAL_CFG__OBJ_TERMINAL;
get_cfg_resp.hdr->obj_type = BAL_OBJ_ID__BAL_OBJ_ID_SUBSCRIBER_TERMINAL;
BalSubscriberTerminalCfg sub_term_cfg;
memset(&sub_term_cfg, 0, sizeof(BalSubscriberTerminalCfg));
bal_subscriber_terminal_cfg__init(&sub_term_cfg);
get_cfg_resp.terminal = &sub_term_cfg;
BalSubscriberTerminalCfgData sub_term_cfg_data;
memset(&sub_term_cfg_data, 0, sizeof(BalSubscriberTerminalCfgData));
bal_subscriber_terminal_cfg_data__init(&sub_term_cfg_data);
get_cfg_resp.terminal->data = &sub_term_cfg_data;
BalSerialNumber serial_number;
memset(&serial_number, 0, sizeof(BalSerialNumber));
bal_serial_number__init(&serial_number);
get_cfg_resp.terminal->data->serial_number = &serial_number;
BalSubscriberTerminalKey sub_term_key;
memset(&sub_term_key, 0, sizeof(BalSubscriberTerminalKey));
bal_subscriber_terminal_key__init(&sub_term_key);
get_cfg_resp.terminal->key = &sub_term_key;
get_cfg_resp.terminal->key->has_sub_term_id = true;
get_cfg_resp.terminal->key->sub_term_id = bal_key->terminal_key->sub_term_id;
get_cfg_resp.terminal->key->has_intf_id = true;
get_cfg_resp.terminal->key->intf_id = bal_key->terminal_key->intf_id;
if (is_init_done == true) {
asfvolt16_bal_cfg_get(&get_cfg_resp);
}
}
break;
default:
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Bal Get not implemented for %d object type", bal_key->hdr->obj_type);
}
break;
}
}
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, &get_cfg_resp, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
bal_cfg_get__free_mem(&get_cfg_resp);
}
/*
* This functions gets invoked whenever bal RPC gets called
*/
void bal__bal_cfg_set_cb(grpc_c_context_t *context)
{
BalCfg *set_cfg = 0;
BalErr bal_err;
int ret_val = 0;
/*
* Read incoming message into set_cfg
*/
if (context->gcc_payload) {
context->gcc_stream->read(context, (void **)&set_cfg, 0);
}
/*
* send it to BAL
*/
bal_err__init(&bal_err);
bal_err.err= 0;
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, &bal_err, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
if (set_cfg) {
if(BAL_OBJ_ID__BAL_OBJ_ID_ACCESS_TERMINAL == set_cfg->hdr->obj_type)
{
sleep(5); /* enable this if running with gdb */
}
asfvolt16_bal_cfg_set(set_cfg);
}
}
/*
* This functions gets invoked whenever bal clear RPC gets called
*/
void bal__bal_cfg_clear_cb(grpc_c_context_t *context)
{
BalKey *clear_key = 0;
BalErr bal_err;
int ret_val = 0;
/*
* Read incoming message into clear_key
*/
if (context->gcc_payload) {
context->gcc_stream->read(context, (void **)&clear_key, 0);
}
/*
* send it to BAL
*/
bal_err__init(&bal_err);
bal_err.err= 0;
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, &bal_err, 0);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
if (clear_key) {
asfvolt16_bal_cfg_clear(clear_key);
}
}
/*
* This functions gets invoked whenever bal Init RPC gets called
*/
void bal__bal_api_init_cb(grpc_c_context_t *context)
{
BalInit *bal_init = 0;
BalErr bal_err;
int ret_val;
/*
* Read incoming message into set_cfg
*/
if (context->gcc_payload)
{
context->gcc_stream->read(context, (void **)&bal_init, 0);
}
/*
* send it to BAL
*/
ASFVOLT_LOG(ASFVOLT_INFO, "Received API Init msg");
bal_err__init(&bal_err);
bal_err.err= 0;
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, &bal_err, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
if (bal_init) {
asfvolt16_bal_init(bal_init, &coreIpPortInfo);
}
is_init_done = true;
}
void bal_get_ind__free_mem_access_term_ind_op_state(BalIndications *balIndCfg)
{
free(balIndCfg->access_term_ind_op_state->data);
free(balIndCfg->access_term_ind_op_state->key);
free(balIndCfg->access_term_ind_op_state);
free(balIndCfg);
}
void bal_get_ind__free_mem_access_term_proc_err(BalIndications *balIndCfg)
{
free(balIndCfg->access_term_proc_err->key);
free(balIndCfg->access_term_proc_err);
free(balIndCfg);
}
void bal_get_ind__free_mem_flow_op_state(BalIndications *balIndCfg)
{
free(balIndCfg->flow_op_state->data);
free(balIndCfg->flow_op_state->key);
free(balIndCfg->flow_op_state);
free(balIndCfg);
}
void bal_get_ind__free_mem_flow_proc_err(BalIndications *balIndCfg)
{
free(balIndCfg->flow_proc_err->key);
free(balIndCfg->flow_proc_err);
free(balIndCfg);
}
void bal_get_ind__free_mem_interface_op_state(BalIndications *balIndCfg)
{
free(balIndCfg->interface_op_state->data);
free(balIndCfg->interface_op_state->key);
free(balIndCfg->interface_op_state);
free(balIndCfg);
}
void bal_get_ind__free_mem_interface_los(BalIndications *balIndCfg)
{
free(balIndCfg->interface_los->data);
free(balIndCfg->interface_los);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_op_state(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_op_state->data);
free(balIndCfg->terminal_op_state->key);
free(balIndCfg->terminal_op_state);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_disc(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_disc->data->serial_number->vendor_specific);
free(balIndCfg->terminal_disc->data->serial_number->vendor_id);
free(balIndCfg->terminal_disc->data->serial_number);
free(balIndCfg->terminal_disc->data);
free(balIndCfg->terminal_disc->key);
free(balIndCfg->terminal_disc);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_alarm(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_alarm->data->alarm);
free(balIndCfg->terminal_alarm->data);
free(balIndCfg->terminal_alarm->key);
free(balIndCfg->terminal_alarm);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_dgi(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_dgi->data);
free(balIndCfg->terminal_dgi->key);
free(balIndCfg->terminal_dgi);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_dowi(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_dowi->data);
free(balIndCfg->terminal_dowi->key);
free(balIndCfg->terminal_dowi);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_looci(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_looci->data);
free(balIndCfg->terminal_looci->key);
free(balIndCfg->terminal_looci);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_proc_err(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_proc_err->key);
free(balIndCfg->terminal_proc_err);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_sdi(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_sdi->data);
free(balIndCfg->terminal_sdi->key);
free(balIndCfg->terminal_sdi);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_sfi(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_sfi->data);
free(balIndCfg->terminal_sfi->key);
free(balIndCfg->terminal_sfi);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_sufi(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_sufi->data);
free(balIndCfg->terminal_sufi->key);
free(balIndCfg->terminal_sufi);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_sub_term_act_fail(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_sub_term_act_fail->data);
free(balIndCfg->terminal_sub_term_act_fail->key);
free(balIndCfg->terminal_sub_term_act_fail);
free(balIndCfg);
}
void bal_get_ind__free_mem_terminal_tiwi(BalIndications *balIndCfg)
{
free(balIndCfg->terminal_tiwi->data);
free(balIndCfg->terminal_tiwi->key);
free(balIndCfg->terminal_tiwi);
free(balIndCfg);
}
void bal_get_ind__free_mem_tm_sched_osc(BalIndications *balIndCfg)
{
free(balIndCfg->tm_sched_oper_stats_change->data);
free(balIndCfg->tm_sched_oper_stats_change->key);
free(balIndCfg->tm_sched_oper_stats_change);
free(balIndCfg);
}
void bal_get_ind__free_mem_u_pkt_data(BalIndications *balIndCfg)
{
free(balIndCfg->pktdata->data->pkt.data);
free(balIndCfg->pktdata->data);
switch(balIndCfg->pktdata->key->packet_send_dest->type)
{
case BAL_DEST_TYPE__BAL_DEST_TYPE_NNI:
free(balIndCfg->pktdata->key->packet_send_dest->nni);
break;
case BAL_DEST_TYPE__BAL_DEST_TYPE_SUB_TERM:
free(balIndCfg->pktdata->key->packet_send_dest->sub_term);
break;
case BAL_DEST_TYPE__BAL_DEST_TYPE_SVC_PORT:
free(balIndCfg->pktdata->key->packet_send_dest->svc_port);
break;
default:
/*Nothing to do*/
break;
}
free(balIndCfg->pktdata->key->packet_send_dest);
free(balIndCfg->pktdata->key);
free(balIndCfg->pktdata);
free(balIndCfg);
}
void bal_get_ind__free_mem_u_bal_omci_resp(BalIndications *balIndCfg)
{
switch(balIndCfg->balomciresp->key->packet_send_dest->type)
{
case BAL_DEST_TYPE__BAL_DEST_TYPE_ITU_OMCI_CHANNEL:
free(balIndCfg->balomciresp->key->packet_send_dest->itu_omci_channel);
break;
default:
/*Nothing to do*/
break;
}
free(balIndCfg->balomciresp->key->packet_send_dest);
free(balIndCfg->balomciresp->data->pkt.data);
free(balIndCfg->balomciresp->data);
free(balIndCfg->balomciresp->key);
free(balIndCfg->balomciresp);
free(balIndCfg);
}
void bal_get_ind__free_mem_u_bal_oam_resp(BalIndications *balIndCfg)
{
free(balIndCfg->baloamresp->data->pkt.data);
free(balIndCfg->baloamresp->data);
switch(balIndCfg->baloamresp->key->packet_send_dest->type)
{
case BAL_DEST_TYPE__BAL_DEST_TYPE_IEEE_OAM_CHANNEL:
free(balIndCfg->baloamresp->key->packet_send_dest->ieee_oam_channel);
break;
default:
/*Nothing to do*/
break;
}
free(balIndCfg->baloamresp->key->packet_send_dest);
free(balIndCfg->baloamresp->key);
free(balIndCfg->baloamresp);
free(balIndCfg);
}
void bal_get_ind__free_mem(BalIndications *balIndCfg)
{
switch (balIndCfg->u_case)
{
case BAL_INDICATIONS__U_ACCESS_TERM_IND_OP_STATE:
bal_get_ind__free_mem_access_term_ind_op_state(balIndCfg);
break;
case BAL_INDICATIONS__U_ACCESS_TERM_PROC_ERR:
bal_get_ind__free_mem_access_term_proc_err(balIndCfg);
break;
case BAL_INDICATIONS__U_FLOW_OP_STATE:
bal_get_ind__free_mem_flow_op_state(balIndCfg);
break;
case BAL_INDICATIONS__U_FLOW_PROC_ERR:
bal_get_ind__free_mem_flow_proc_err(balIndCfg);
break;
case BAL_INDICATIONS__U_INTERFACE_OP_STATE:
bal_get_ind__free_mem_interface_op_state(balIndCfg);
break;
case BAL_INDICATIONS__U_INTERFACE_LOS:
bal_get_ind__free_mem_interface_los(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_OP_STATE:
bal_get_ind__free_mem_terminal_op_state(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_DISC:
bal_get_ind__free_mem_terminal_disc(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_ALARM:
bal_get_ind__free_mem_terminal_alarm(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_DGI:
bal_get_ind__free_mem_terminal_dgi(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_DOWI:
bal_get_ind__free_mem_terminal_dowi(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_LOOCI:
bal_get_ind__free_mem_terminal_looci(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_PROC_ERR:
bal_get_ind__free_mem_terminal_proc_err(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_SDI:
bal_get_ind__free_mem_terminal_sdi(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_SFI:
bal_get_ind__free_mem_terminal_sfi(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_SUFI:
bal_get_ind__free_mem_terminal_sufi(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_SUB_TERM_ACT_FAIL:
bal_get_ind__free_mem_terminal_sub_term_act_fail(balIndCfg);
break;
case BAL_INDICATIONS__U_TERMINAL_TIWI:
bal_get_ind__free_mem_terminal_tiwi(balIndCfg);
break;
case BAL_INDICATIONS__U_TM_SCHED_OPER_STATS_CHANGE:
bal_get_ind__free_mem_tm_sched_osc(balIndCfg);
break;
case BAL_INDICATIONS__U_PKT_DATA:
bal_get_ind__free_mem_u_pkt_data(balIndCfg);
break;
case BAL_INDICATIONS__U_BAL_OMCI_RESP:
bal_get_ind__free_mem_u_bal_omci_resp(balIndCfg);
break;
case BAL_INDICATIONS__U_BAL_OAM_RESP:
bal_get_ind__free_mem_u_bal_oam_resp(balIndCfg);
break;
default:
ASFVOLT_LOG(ASFVOLT_ERROR, "Unknown BAL indication %u", balIndCfg->u_case);
break;
}
}
void bal_get_ind__bal_get_ind_from_device_cb(grpc_c_context_t *context)
{
BalDefault *dummy;
BalIndications *bal_indication;
list_node *node = NULL;
int ret_val = 0;
/*
* Read incoming message into set_cfg
*/
if (context->gcc_payload) {
context->gcc_stream->read(context, (void **)&dummy, 0);
}
/*
* send it to BAL
*/
pthread_mutex_lock(&bal_ind_queue_lock);
node = get_bal_indication_node();
pthread_mutex_unlock(&bal_ind_queue_lock);
if(node != NULL)
{
bal_indication = node->bal_indication;
bal_indication->ind_present = true;
bal_indication->has_ind_present = true;
}
else
{
bal_indication = malloc(sizeof(BalIndications));
memset(bal_indication, 0, sizeof(BalIndications));
bal_indications__init(bal_indication);
bal_indication->ind_present = false;
bal_indication->has_ind_present = true;
}
/*
* Write reply back to the client
*/
ret_val = context->gcc_stream->write(context, bal_indication, -1);
is_grpc_write_pending(ret_val);
grpc_c_status_t status;
status.gcs_code = 0;
/*
* Finish response for RPC
*/
if (context->gcc_stream->finish(context, &status))
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to write status");
}
/*Free memory for 'bal_indication' and 'node'*/
if (bal_indication->ind_present)
{
bal_get_ind__free_mem(bal_indication);
free(node);
}
else
{
free(bal_indication);
}
}
/*
* This functions gets invoked whenever bal finish RPC gets called
*/
void bal__bal_api_finish_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_acc_term_oper_sts_cng_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_acc_term_cfg_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_acc_term_proc_err_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_flow_oper_sts_cng_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_flow_proc_err_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_iface_oper_sts_cng_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_iface_los_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_iface_stat_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_oper_sts_cng_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_discovery_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_alarm_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_dgi_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_proc_err_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_dowi_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_looci_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_sdi_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_sfi_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_sufi_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_subs_term_tiwi_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_sub_term_act_fail_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_tm_sched_oper_stats_change_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_pkt_bearer_channel_rx_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_pkt_omci_channel_rx_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_pkt_ieee_oam_channel_rx_ind_cb(grpc_c_context_t *context)
{
}
void bal_ind__bal_sys_profile_ind_cb(grpc_c_context_t *context)
{
}
/*
** ASFVOLT_HEX2LOG(ASFVOLT_DEBUG, "OMCI Response with %zd bytes is",
** balIndCfg.balomciresp->data->pkt.data, balIndCfg.balomciresp->data->pkt.len);
*/
#define SYSLOG_MAX_SIZE 1024
void asfvolt_hexlog2(int prio, const char *_file_loc, int _file_line, const char *pFormat, void* pData, size_t len)
{
unsigned char *inpPtr = pData;
char tempBuf[SYSLOG_MAX_SIZE];
size_t idx = 0;
idx += snprintf(tempBuf+idx, SYSLOG_MAX_SIZE-1, pFormat, len);
while (len-- > 0 && idx < SYSLOG_MAX_SIZE)
{
idx += snprintf(tempBuf+idx, SYSLOG_MAX_SIZE-idx, "%02x", *inpPtr++);
}
ASFVOLT_LOG_LOC(prio, _file_loc, _file_line, "%s", tempBuf);
}
/*
* Takes socket path as argument
*/
int main (int argc, char **argv)
{
int i = 0;
grpc_c_server_t *server = NULL;
if (argc < 4)
{
fprintf(stderr, "Missing arguments\n");
exit(1);
}
strcpy(coreIpPortInfo.bal_core_arg1, argv[2] /*, strlen(argv[2])*/);
strcpy(coreIpPortInfo.bal_core_ip_port, argv[3]/*, strlen(argv[3])*/);
signal(SIGINT, sigint_handler);
/*
** syslog initialization
*/
//setlogmask (LOG_UPTO (LOG_NOTICE));
openlog (ASFVOLT_SYSLOG_NAME, ASFVOLT_SYSLOG_MODE, LOG_LOCAL1);
/*
* Initialize grpc-c library to be used with vanilla gRPC
*/
grpc_c_init(GRPC_THREADS, NULL);
/*
* Create server object
*/
test_server = grpc_c_server_create(argv[1]);
if (test_server == NULL)
{
ASFVOLT_LOG(ASFVOLT_ERROR, "Failed to create server");
exit(1);
}
/*
* Initialize greeter service
*/
ASFVOLT_LOG(ASFVOLT_INFO, "voltha_bal_driver running.....");
bal__service_init(test_server);
bal_get_ind__service_init(test_server);
asfvolt__service_init(test_server);
/*
* Start server
*/
grpc_c_server_start(test_server);
/*
* Blocks server to wait to completion
*/
grpc_c_server_wait(test_server);
/* code added for example Makefile to compile grpc-c along with edgecore driver */
bal__service_init(server);
bal_get_ind__service_init(server);
asfvolt__service_init(server);
}