agent/common/core.h - openolt - Gitiles

 /*
  * 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.
  */

 #ifndef OPENOLT_CORE_H_
 #define OPENOLT_CORE_H_

 #include <grpc++/grpc++.h>
 using grpc::Status;
 #include <voltha_protos/openolt.grpc.pb.h>
 #include <voltha_protos/ext_config.grpc.pb.h>

 #include "state.h"

 extern "C"
 {
 #include <bcmolt_api.h>
 #include <bcmolt_api_model_supporting_enums.h>

 #include <bcmolt_api_conn_mgr.h>
 //CLI header files
 #include <bcmcli_session.h>
 #include <bcmcli.h>
 #include <bcm_api_cli.h>

 #include <bcmos_common.h>
 #include <bcm_config.h>
 // FIXME : dependency problem
 // #include <bcm_common_gpon.h>
 // #include <bcm_dev_log_task.h>
 }
 // ************************//
 // Macros used by the core //
 // ************************//

 #define NONE "\033[m"
 #define LIGHT_RED "\033[1;31m"
 #define BROWN "\033[0;33m"
 #define LIGHT_GREEN "\033[1;32m"
 #define OPENOLT_LOG(level, id, fmt, ...)  \
     if (DEV_LOG_LEVEL_##level == DEV_LOG_LEVEL_ERROR) \
         BCM_LOG(level, id, "%s" fmt "%s", LIGHT_RED, ##__VA_ARGS__, NONE); \
     else if (DEV_LOG_LEVEL_##level == DEV_LOG_LEVEL_INFO) \
         BCM_LOG(level, id, "%s" fmt "%s", NONE, ##__VA_ARGS__, NONE); \
     else if (DEV_LOG_LEVEL_##level == DEV_LOG_LEVEL_WARNING) \
         BCM_LOG(level, id, "%s" fmt "%s", BROWN, ##__VA_ARGS__, NONE); \
     else if (DEV_LOG_LEVEL_##level == DEV_LOG_LEVEL_DEBUG) \
         BCM_LOG(level, id, "%s" fmt "%s", LIGHT_GREEN, ##__VA_ARGS__, NONE); \
     else \
         BCM_LOG(INFO, id, fmt, ##__VA_ARGS__);


 #define ACL_LOG(level,msg,err) \
     do { \
     OPENOLT_LOG(level, openolt_log_id, "--------> %s (acl_id %d) err: %d <--------\n", msg, key.id, err); \
     OPENOLT_LOG(level, openolt_log_id, "action_type %s\n", \
         GET_ACL_ACTION_TYPE(action_type)); \
     OPENOLT_LOG(level, openolt_log_id, "classifier(ether type %d), ip_proto %d, src_port %d, dst_port %d\n", \
         acl_key.ether_type, acl_key.ip_proto, acl_key.src_port, acl_key.dst_port); \
     } while(0)

 #define FLOW_LOG(level,msg,err) \
     do { \
     OPENOLT_LOG(level, openolt_log_id, "--------> %s (flow_id %d) err: %d <--------\n", msg, key.flow_id, err); \
     OPENOLT_LOG(level, openolt_log_id, "intf_id %d, onu_id %d, uni_id %d, port_no %u, cookie %"PRIu64"\n", \
         access_intf_id, onu_id, uni_id, port_no, cookie); \
     OPENOLT_LOG(level, openolt_log_id, "flow_type %s, queue_id %d, sched_id %d\n", flow_type.c_str(), \
         cfg.data.egress_qos.u.fixed_queue.queue_id, cfg.data.egress_qos.tm_sched.id); \
     OPENOLT_LOG(level, openolt_log_id, "Ingress(intfd_type %s, intf_id %d), Egress(intf_type %s, intf_id %d)\n", \
         GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type), cfg.data.ingress_intf.intf_id,  \
         GET_FLOW_INTERFACE_TYPE(cfg.data.egress_intf.intf_type), cfg.data.egress_intf.intf_id); \
     OPENOLT_LOG(level, openolt_log_id, "classifier(o_vid %d, o_pbits %d, i_vid %d, i_pbits %d, ether type 0x%x)\n", \
         c_val.o_vid, c_val.o_pbits, c_val.i_vid, c_val.i_pbits,  classifier.eth_type()); \
     OPENOLT_LOG(level, openolt_log_id, "classifier(ip_proto 0x%x, gemport_id %d, src_port %d, dst_port %d, pkt_tag_type %s)\n", \
         c_val.ip_proto, gemport_id, c_val.src_port,  c_val.dst_port, GET_PKT_TAG_TYPE(c_val.pkt_tag_type)); \
     OPENOLT_LOG(level, openolt_log_id, "action(cmds_bitmask %s, o_vid %d, o_pbits %d, i_vid %d, i_pbits %d)\n\n", \
         get_flow_acton_command(a_val.cmds_bitmask), a_val.o_vid, a_val.o_pbits, a_val.i_vid, a_val.i_pbits); \
     } while(0)

 #define FLOW_PARAM_LOG() \
     do { \
     OPENOLT_LOG(INFO, openolt_log_id, "--------> flow comparison (now before) <--------\n"); \
     OPENOLT_LOG(INFO, openolt_log_id, "flow_id (%d %d)\n", \
         key.flow_id, it->first.first); \
     OPENOLT_LOG(INFO, openolt_log_id, "onu_id (%d %lu)\n", \
         cfg.data.onu_id , get_flow_status(it->first.first, it->first.second, ONU_ID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "type (%d %lu)\n", \
         key.flow_type, get_flow_status(it->first.first, it->first.second, FLOW_TYPE)); \
     OPENOLT_LOG(INFO, openolt_log_id, "svc_port_id (%d %lu)\n", \
         cfg.data.svc_port_id, get_flow_status(it->first.first, it->first.second, SVC_PORT_ID));  \
     OPENOLT_LOG(INFO, openolt_log_id, "priority (%d %lu)\n", \
         cfg.data.priority, get_flow_status(it->first.first, it->first.second, PRIORITY)); \
     OPENOLT_LOG(INFO, openolt_log_id, "cookie (%lu %lu)\n", \
         cfg.data.cookie, get_flow_status(it->first.first, it->first.second, COOKIE)); \
     OPENOLT_LOG(INFO, openolt_log_id, "ingress intf_type (%s %s)\n", \
         GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type), \
         GET_FLOW_INTERFACE_TYPE(get_flow_status(it->first.first, it->first.second, INGRESS_INTF_TYPE))); \
     OPENOLT_LOG(INFO, openolt_log_id, "ingress intf id (%d %lu)\n", \
         cfg.data.ingress_intf.intf_id , get_flow_status(it->first.first, it->first.second, INGRESS_INTF_ID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "egress intf_type (%d %lu)\n", \
         cfg.data.egress_intf.intf_type , get_flow_status(it->first.first, it->first.second, EGRESS_INTF_TYPE)); \
     OPENOLT_LOG(INFO, openolt_log_id, "egress intf_id (%d %lu)\n", \
         cfg.data.egress_intf.intf_id , get_flow_status(it->first.first, it->first.second, EGRESS_INTF_ID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier o_vid (%d %lu)\n", \
         c_val.o_vid , get_flow_status(it->first.first, it->first.second, CLASSIFIER_O_VID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier o_pbits (%d %lu)\n", \
         c_val.o_pbits , get_flow_status(it->first.first, it->first.second, CLASSIFIER_O_PBITS)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier i_vid (%d %lu)\n", \
         c_val.i_vid , get_flow_status(it->first.first, it->first.second, CLASSIFIER_I_VID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier i_pbits (%d %lu)\n", \
         c_val.i_pbits , get_flow_status(it->first.first, it->first.second, CLASSIFIER_I_PBITS)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier ether_type (0x%x 0x%lx)\n", \
         c_val.ether_type , get_flow_status(it->first.first, it->first.second, CLASSIFIER_ETHER_TYPE));  \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier ip_proto (%d %lu)\n", \
         c_val.ip_proto , get_flow_status(it->first.first, it->first.second, CLASSIFIER_IP_PROTO)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier src_port (%d %lu)\n", \
         c_val.src_port , get_flow_status(it->first.first, it->first.second, CLASSIFIER_SRC_PORT)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier dst_port (%d %lu)\n", \
         c_val.dst_port , get_flow_status(it->first.first, it->first.second, CLASSIFIER_DST_PORT)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier pkt_tag_type (%s %s)\n", \
         GET_PKT_TAG_TYPE(c_val.pkt_tag_type), \
         GET_PKT_TAG_TYPE(get_flow_status(it->first.first, it->first.second, CLASSIFIER_PKT_TAG_TYPE))); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier egress_qos type (%d %lu)\n", \
         cfg.data.egress_qos.type , get_flow_status(it->first.first, it->first.second, EGRESS_QOS_TYPE)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier egress_qos queue_id (%d %lu)\n", \
         cfg.data.egress_qos.u.fixed_queue.queue_id, \
         get_flow_status(it->first.first, it->first.second, EGRESS_QOS_QUEUE_ID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier egress_qos sched_id (%d %lu)\n", \
         cfg.data.egress_qos.tm_sched.id, \
         get_flow_status(it->first.first, it->first.second, EGRESS_QOS_TM_SCHED_ID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "classifier cmds_bitmask (%s %s)\n", \
         get_flow_acton_command(a_val.cmds_bitmask), \
         get_flow_acton_command(get_flow_status(it->first.first, it->first.second, ACTION_CMDS_BITMASK))); \
     OPENOLT_LOG(INFO, openolt_log_id, "action o_vid (%d %lu)\n", \
         a_val.o_vid , get_flow_status(it->first.first, it->first.second, ACTION_O_VID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "action i_vid (%d %lu)\n", \
         a_val.i_vid , get_flow_status(it->first.first, it->first.second, ACTION_I_VID)); \
     OPENOLT_LOG(INFO, openolt_log_id, "action o_pbits (%d %lu)\n", \
         a_val.o_pbits , get_flow_status(it->first.first, it->first.second, ACTION_O_PBITS)); \
     OPENOLT_LOG(INFO, openolt_log_id, "action i_pbits (%d %lu)\n\n", \
         a_val.i_pbits, get_flow_status(it->first.first, it->first.second, ACTION_I_PBITS)); \
     OPENOLT_LOG(INFO, openolt_log_id, "group_id (%d %lu)\n\n", \
         a_val.group_id, get_flow_status(it->first.first, it->first.second, GROUP_ID)); \
     } while(0)

 #define COLLECTION_PERIOD 15 // in seconds
 #define BAL_DYNAMIC_LIST_BUFFER_SIZE (32 * 1024)
 #define MAX_REGID_LENGTH  36

 #define BAL_RSC_MANAGER_BASE_TM_SCHED_ID 16384
 #define MAX_TM_QMP_ID 16
 #define TMQ_MAP_PROFILE_SIZE 8
 #define MAX_TM_SCHED_ID 1023
 #define MAX_SUBS_TM_SCHED_ID (MAX_SUPPORTED_PON == 16 ? MAX_TM_SCHED_ID-4-16 : MAX_TM_SCHED_ID-10-64)
 #define EAP_ETHER_TYPE 34958
 #define XGS_BANDWIDTH_GRANULARITY 16000
 #define GPON_BANDWIDTH_GRANULARITY 32000
 #define NUM_OF_PRIORITIES 8
 #define NUMBER_OF_DEFAULT_INTERFACE_QUEUES 4 // <= NUM_OF_PRIORITIES
 #define FILL_ARRAY(ARRAY,START,END,VALUE) for(int i=START;i<END;ARRAY[i++]=VALUE);
 #define COUNT_OF(array) (sizeof(array) / sizeof(array[0]))
 #define NUMBER_OF_PBITS 8
 #define NUMBER_OF_REPLICATED_FLOWS NUMBER_OF_PBITS
 #define GRPC_THREAD_POOL_SIZE 150

 #define GET_FLOW_INTERFACE_TYPE(type) \
        (type == BCMOLT_FLOW_INTERFACE_TYPE_PON) ? "PON" : \
        (type == BCMOLT_FLOW_INTERFACE_TYPE_NNI) ? "NNI" : \
        (type == BCMOLT_FLOW_INTERFACE_TYPE_HOST) ? "HOST" : "unknown"
 #define GET_PKT_TAG_TYPE(type) \
        (type == BCMOLT_PKT_TAG_TYPE_UNTAGGED) ? "UNTAG" : \
        (type == BCMOLT_PKT_TAG_TYPE_SINGLE_TAG) ? "SINGLE_TAG" : \
        (type == BCMOLT_PKT_TAG_TYPE_DOUBLE_TAG) ? "DOUBLE_TAG" : "unknown"
 #define GET_ACL_ACTION_TYPE(type) \
        (type == BCMOLT_ACCESS_CONTROL_FWD_ACTION_TYPE_TRAP_TO_HOST) ? "trap_to_host" : \
        (type == BCMOLT_ACCESS_CONTROL_FWD_ACTION_TYPE_DROP) ? "drop" : \
        (type == BCMOLT_ACCESS_CONTROL_FWD_ACTION_TYPE_REDIRECT) ? "redirction" : "unknown"
 #define GET_ACL_MEMBERS_UPDATE_COMMAND(command) \
        (command == BCMOLT_MEMBERS_UPDATE_COMMAND_ADD) ? "add" : \
        (command == BCMOLT_MEMBERS_UPDATE_COMMAND_REMOVE) ? "remove" : \
        (command == BCMOLT_MEMBERS_UPDATE_COMMAND_SET) ? "set" : "unknown"
 #define GET_INTERFACE_TYPE(type) \
        (type == BCMOLT_INTERFACE_TYPE_PON) ? "PON" : \
        (type == BCMOLT_INTERFACE_TYPE_NNI) ? "NNI" : \
        (type == BCMOLT_INTERFACE_TYPE_HOST) ? "HOST" : "unknown"

 #define LOGICAL_DISTANCE(MLD,EQD,TD) (MLD-(EQD*TD)*102) /* Round-trip time of 102 meters is 1us */
 extern State state;

 //***************************************//
 // Function declations used by the core. //
 //***************************************//
 Status Enable_(int argc, char *argv[]);
 Status ActivateOnu_(uint32_t intf_id, uint32_t onu_id,
     const char *vendor_id, const char *vendor_specific, uint32_t pir, bool omcc_encryption_mode);
 Status DeactivateOnu_(uint32_t intf_id, uint32_t onu_id,
     const char *vendor_id, const char *vendor_specific);
 Status DeleteOnu_(uint32_t intf_id, uint32_t onu_id,
     const char *vendor_id, const char *vendor_specific);
 Status EnablePonIf_(uint32_t intf_id);
 Status DisablePonIf_(uint32_t intf_id);
 Status SetStateUplinkIf_(uint32_t intf_id, bool set_state);
 unsigned NumNniIf_();
 unsigned NumPonIf_();
 Status OmciMsgOut_(uint32_t intf_id, uint32_t onu_id, const std::string pkt);
 Status OnuPacketOut_(uint32_t intf_id, uint32_t onu_id, uint32_t port_no, uint32_t gemport_id, const std::string pkt);
 Status ProbeDeviceCapabilities_();
 Status ProbePonIfTechnology_();
 Status UplinkPacketOut_(uint32_t intf_id, const std::string pkt);
 Status FlowAddWrapper_(const openolt::Flow* request);
 Status FlowAdd_(int32_t access_intf_id, int32_t onu_id, int32_t uni_id, uint32_t port_no,
                 uint32_t flow_id, const std::string flow_type,
                 int32_t alloc_id, int32_t network_intf_id,
                 int32_t gemport_id, const ::openolt::Classifier& classifier,
                 const ::openolt::Action& action, int32_t priority_value,
                 uint64_t cookie, int32_t group_id, uint32_t tech_profile_id, bool enable_encryption = false);
 Status FlowRemoveWrapper_(const openolt::Flow* request);
 Status FlowRemove_(uint32_t flow_id, const std::string flow_type);
 Status Disable_();
 Status Reenable_();
 Status GetDeviceInfo_(openolt::DeviceInfo* device_info);
 Status CreateTrafficSchedulers_(const tech_profile::TrafficSchedulers *traffic_scheds);
 Status RemoveTrafficSchedulers_(const tech_profile::TrafficSchedulers *traffic_scheds);
 Status CreateTrafficQueues_(const tech_profile::TrafficQueues *traffic_queues);
 Status RemoveTrafficQueues_(const tech_profile::TrafficQueues *traffic_queues);
 Status PerformGroupOperation_(const openolt::Group *group_cfg);
 Status DeleteGroup_(uint32_t group_id);
 Status OnuItuPonAlarmSet_(const config::OnuItuPonAlarm* request);
 uint32_t GetPortNum_(uint32_t flow_id);
 Status GetLogicalOnuDistanceZero_(uint32_t intf_id, openolt::OnuLogicalDistance* response);
 Status GetLogicalOnuDistance_(uint32_t intf_id, uint32_t onu_id, openolt::OnuLogicalDistance* response);
 Status GetOnuStatistics_(uint32_t intf_id, uint32_t onu_id, openolt::OnuStatistics *onu_stats);
 Status GetGemPortStatistics_(uint32_t intf_id, uint32_t gemport_id, openolt::GemPortStatistics* gemport_stats);
 Status GetPonRxPower_(uint32_t intf_id, uint32_t onu_id, openolt::PonRxPowerData* response);
 int get_status_bcm_cli_quit(void);
 uint16_t get_dev_id(void);
 Status pushOltOperInd(uint32_t intf_id, const char *type, const char *state);
 uint64_t get_flow_status(uint16_t flow_id, uint16_t flow_type, uint16_t data_id);

 void stats_collection();
 Status check_connection();
 Status check_bal_ready();
 std::string get_ip_address(const char* nw_intf);

 // Stubbed defntions of bcmolt_cfg_get required for unit-test
 #ifdef TEST_MODE
 extern bcmos_errno bcmolt_cfg_get__bal_state_stub(bcmolt_oltid olt_id, void* ptr);
 extern bcmos_errno bcmolt_cfg_get__onu_state_stub(bcmolt_oltid olt_id, void* ptr);
 extern bcmos_errno bcmolt_cfg_get__tm_sched_stub(bcmolt_oltid olt_id, void* ptr);
 extern bcmos_errno bcmolt_cfg_get__pon_intf_stub(bcmolt_oltid olt_id, void* ptr);
 extern bcmos_errno bcmolt_cfg_get__nni_intf_stub(bcmolt_oltid olt_id, void* ptr);
 extern bcmos_errno bcmolt_cfg_get__olt_topology_stub(bcmolt_oltid olt_id, void* ptr);
 extern bcmos_errno bcmolt_cfg_get__flow_stub(bcmolt_oltid olt_id, void* ptr);
 #endif //TEST_MODE

 #endif
	/*
	* 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.
	*/

	#ifndef OPENOLT_CORE_H_
	#define OPENOLT_CORE_H_

	#include <grpc++/grpc++.h>
	using grpc::Status;
	#include <voltha_protos/openolt.grpc.pb.h>
	#include <voltha_protos/ext_config.grpc.pb.h>

	#include "state.h"

	extern "C"
	{
	#include <bcmolt_api.h>
	#include <bcmolt_api_model_supporting_enums.h>

	#include <bcmolt_api_conn_mgr.h>
	//CLI header files
	#include <bcmcli_session.h>
	#include <bcmcli.h>
	#include <bcm_api_cli.h>

	#include <bcmos_common.h>
	#include <bcm_config.h>
	// FIXME : dependency problem
	// #include <bcm_common_gpon.h>
	// #include <bcm_dev_log_task.h>
	}
	// ************************//
	// Macros used by the core //
	// ************************//

	#define NONE "\033[m"
	#define LIGHT_RED "\033[1;31m"
	#define BROWN "\033[0;33m"
	#define LIGHT_GREEN "\033[1;32m"
	#define OPENOLT_LOG(level, id, fmt, ...) \
	if (DEV_LOG_LEVEL_##level == DEV_LOG_LEVEL_ERROR) \
	BCM_LOG(level, id, "%s" fmt "%s", LIGHT_RED, ##__VA_ARGS__, NONE); \
	else if (DEV_LOG_LEVEL_##level == DEV_LOG_LEVEL_INFO) \
	BCM_LOG(level, id, "%s" fmt "%s", NONE, ##__VA_ARGS__, NONE); \
	else if (DEV_LOG_LEVEL_##level == DEV_LOG_LEVEL_WARNING) \
	BCM_LOG(level, id, "%s" fmt "%s", BROWN, ##__VA_ARGS__, NONE); \
	else if (DEV_LOG_LEVEL_##level == DEV_LOG_LEVEL_DEBUG) \
	BCM_LOG(level, id, "%s" fmt "%s", LIGHT_GREEN, ##__VA_ARGS__, NONE); \
	else \
	BCM_LOG(INFO, id, fmt, ##__VA_ARGS__);


	#define ACL_LOG(level,msg,err) \
	do { \
	OPENOLT_LOG(level, openolt_log_id, "--------> %s (acl_id %d) err: %d <--------\n", msg, key.id, err); \
	OPENOLT_LOG(level, openolt_log_id, "action_type %s\n", \
	GET_ACL_ACTION_TYPE(action_type)); \
	OPENOLT_LOG(level, openolt_log_id, "classifier(ether type %d), ip_proto %d, src_port %d, dst_port %d\n", \
	acl_key.ether_type, acl_key.ip_proto, acl_key.src_port, acl_key.dst_port); \
	} while(0)

	#define FLOW_LOG(level,msg,err) \
	do { \
	OPENOLT_LOG(level, openolt_log_id, "--------> %s (flow_id %d) err: %d <--------\n", msg, key.flow_id, err); \
	OPENOLT_LOG(level, openolt_log_id, "intf_id %d, onu_id %d, uni_id %d, port_no %u, cookie %"PRIu64"\n", \
	access_intf_id, onu_id, uni_id, port_no, cookie); \
	OPENOLT_LOG(level, openolt_log_id, "flow_type %s, queue_id %d, sched_id %d\n", flow_type.c_str(), \
	cfg.data.egress_qos.u.fixed_queue.queue_id, cfg.data.egress_qos.tm_sched.id); \
	OPENOLT_LOG(level, openolt_log_id, "Ingress(intfd_type %s, intf_id %d), Egress(intf_type %s, intf_id %d)\n", \
	GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type), cfg.data.ingress_intf.intf_id, \
	GET_FLOW_INTERFACE_TYPE(cfg.data.egress_intf.intf_type), cfg.data.egress_intf.intf_id); \
	OPENOLT_LOG(level, openolt_log_id, "classifier(o_vid %d, o_pbits %d, i_vid %d, i_pbits %d, ether type 0x%x)\n", \
	c_val.o_vid, c_val.o_pbits, c_val.i_vid, c_val.i_pbits, classifier.eth_type()); \
	OPENOLT_LOG(level, openolt_log_id, "classifier(ip_proto 0x%x, gemport_id %d, src_port %d, dst_port %d, pkt_tag_type %s)\n", \
	c_val.ip_proto, gemport_id, c_val.src_port, c_val.dst_port, GET_PKT_TAG_TYPE(c_val.pkt_tag_type)); \
	OPENOLT_LOG(level, openolt_log_id, "action(cmds_bitmask %s, o_vid %d, o_pbits %d, i_vid %d, i_pbits %d)\n\n", \
	get_flow_acton_command(a_val.cmds_bitmask), a_val.o_vid, a_val.o_pbits, a_val.i_vid, a_val.i_pbits); \
	} while(0)

	#define FLOW_PARAM_LOG() \
	do { \
	OPENOLT_LOG(INFO, openolt_log_id, "--------> flow comparison (now before) <--------\n"); \
	OPENOLT_LOG(INFO, openolt_log_id, "flow_id (%d %d)\n", \
	key.flow_id, it->first.first); \
	OPENOLT_LOG(INFO, openolt_log_id, "onu_id (%d %lu)\n", \
	cfg.data.onu_id , get_flow_status(it->first.first, it->first.second, ONU_ID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "type (%d %lu)\n", \
	key.flow_type, get_flow_status(it->first.first, it->first.second, FLOW_TYPE)); \
	OPENOLT_LOG(INFO, openolt_log_id, "svc_port_id (%d %lu)\n", \
	cfg.data.svc_port_id, get_flow_status(it->first.first, it->first.second, SVC_PORT_ID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "priority (%d %lu)\n", \
	cfg.data.priority, get_flow_status(it->first.first, it->first.second, PRIORITY)); \
	OPENOLT_LOG(INFO, openolt_log_id, "cookie (%lu %lu)\n", \
	cfg.data.cookie, get_flow_status(it->first.first, it->first.second, COOKIE)); \
	OPENOLT_LOG(INFO, openolt_log_id, "ingress intf_type (%s %s)\n", \
	GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type), \
	GET_FLOW_INTERFACE_TYPE(get_flow_status(it->first.first, it->first.second, INGRESS_INTF_TYPE))); \
	OPENOLT_LOG(INFO, openolt_log_id, "ingress intf id (%d %lu)\n", \
	cfg.data.ingress_intf.intf_id , get_flow_status(it->first.first, it->first.second, INGRESS_INTF_ID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "egress intf_type (%d %lu)\n", \
	cfg.data.egress_intf.intf_type , get_flow_status(it->first.first, it->first.second, EGRESS_INTF_TYPE)); \
	OPENOLT_LOG(INFO, openolt_log_id, "egress intf_id (%d %lu)\n", \
	cfg.data.egress_intf.intf_id , get_flow_status(it->first.first, it->first.second, EGRESS_INTF_ID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier o_vid (%d %lu)\n", \
	c_val.o_vid , get_flow_status(it->first.first, it->first.second, CLASSIFIER_O_VID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier o_pbits (%d %lu)\n", \
	c_val.o_pbits , get_flow_status(it->first.first, it->first.second, CLASSIFIER_O_PBITS)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier i_vid (%d %lu)\n", \
	c_val.i_vid , get_flow_status(it->first.first, it->first.second, CLASSIFIER_I_VID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier i_pbits (%d %lu)\n", \
	c_val.i_pbits , get_flow_status(it->first.first, it->first.second, CLASSIFIER_I_PBITS)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier ether_type (0x%x 0x%lx)\n", \
	c_val.ether_type , get_flow_status(it->first.first, it->first.second, CLASSIFIER_ETHER_TYPE)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier ip_proto (%d %lu)\n", \
	c_val.ip_proto , get_flow_status(it->first.first, it->first.second, CLASSIFIER_IP_PROTO)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier src_port (%d %lu)\n", \
	c_val.src_port , get_flow_status(it->first.first, it->first.second, CLASSIFIER_SRC_PORT)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier dst_port (%d %lu)\n", \
	c_val.dst_port , get_flow_status(it->first.first, it->first.second, CLASSIFIER_DST_PORT)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier pkt_tag_type (%s %s)\n", \
	GET_PKT_TAG_TYPE(c_val.pkt_tag_type), \
	GET_PKT_TAG_TYPE(get_flow_status(it->first.first, it->first.second, CLASSIFIER_PKT_TAG_TYPE))); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier egress_qos type (%d %lu)\n", \
	cfg.data.egress_qos.type , get_flow_status(it->first.first, it->first.second, EGRESS_QOS_TYPE)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier egress_qos queue_id (%d %lu)\n", \
	cfg.data.egress_qos.u.fixed_queue.queue_id, \
	get_flow_status(it->first.first, it->first.second, EGRESS_QOS_QUEUE_ID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier egress_qos sched_id (%d %lu)\n", \
	cfg.data.egress_qos.tm_sched.id, \
	get_flow_status(it->first.first, it->first.second, EGRESS_QOS_TM_SCHED_ID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "classifier cmds_bitmask (%s %s)\n", \
	get_flow_acton_command(a_val.cmds_bitmask), \
	get_flow_acton_command(get_flow_status(it->first.first, it->first.second, ACTION_CMDS_BITMASK))); \
	OPENOLT_LOG(INFO, openolt_log_id, "action o_vid (%d %lu)\n", \
	a_val.o_vid , get_flow_status(it->first.first, it->first.second, ACTION_O_VID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "action i_vid (%d %lu)\n", \
	a_val.i_vid , get_flow_status(it->first.first, it->first.second, ACTION_I_VID)); \
	OPENOLT_LOG(INFO, openolt_log_id, "action o_pbits (%d %lu)\n", \
	a_val.o_pbits , get_flow_status(it->first.first, it->first.second, ACTION_O_PBITS)); \
	OPENOLT_LOG(INFO, openolt_log_id, "action i_pbits (%d %lu)\n\n", \
	a_val.i_pbits, get_flow_status(it->first.first, it->first.second, ACTION_I_PBITS)); \
	OPENOLT_LOG(INFO, openolt_log_id, "group_id (%d %lu)\n\n", \
	a_val.group_id, get_flow_status(it->first.first, it->first.second, GROUP_ID)); \
	} while(0)

	#define COLLECTION_PERIOD 15 // in seconds
	#define BAL_DYNAMIC_LIST_BUFFER_SIZE (32 * 1024)
	#define MAX_REGID_LENGTH 36

	#define BAL_RSC_MANAGER_BASE_TM_SCHED_ID 16384
	#define MAX_TM_QMP_ID 16
	#define TMQ_MAP_PROFILE_SIZE 8
	#define MAX_TM_SCHED_ID 1023
	#define MAX_SUBS_TM_SCHED_ID (MAX_SUPPORTED_PON == 16 ? MAX_TM_SCHED_ID-4-16 : MAX_TM_SCHED_ID-10-64)
	#define EAP_ETHER_TYPE 34958
	#define XGS_BANDWIDTH_GRANULARITY 16000
	#define GPON_BANDWIDTH_GRANULARITY 32000
	#define NUM_OF_PRIORITIES 8
	#define NUMBER_OF_DEFAULT_INTERFACE_QUEUES 4 // <= NUM_OF_PRIORITIES
	#define FILL_ARRAY(ARRAY,START,END,VALUE) for(int i=START;i<END;ARRAY[i++]=VALUE);
	#define COUNT_OF(array) (sizeof(array) / sizeof(array[0]))
	#define NUMBER_OF_PBITS 8
	#define NUMBER_OF_REPLICATED_FLOWS NUMBER_OF_PBITS
	#define GRPC_THREAD_POOL_SIZE 150

	#define GET_FLOW_INTERFACE_TYPE(type) \
	(type == BCMOLT_FLOW_INTERFACE_TYPE_PON) ? "PON" : \
	(type == BCMOLT_FLOW_INTERFACE_TYPE_NNI) ? "NNI" : \
	(type == BCMOLT_FLOW_INTERFACE_TYPE_HOST) ? "HOST" : "unknown"
	#define GET_PKT_TAG_TYPE(type) \
	(type == BCMOLT_PKT_TAG_TYPE_UNTAGGED) ? "UNTAG" : \
	(type == BCMOLT_PKT_TAG_TYPE_SINGLE_TAG) ? "SINGLE_TAG" : \
	(type == BCMOLT_PKT_TAG_TYPE_DOUBLE_TAG) ? "DOUBLE_TAG" : "unknown"
	#define GET_ACL_ACTION_TYPE(type) \
	(type == BCMOLT_ACCESS_CONTROL_FWD_ACTION_TYPE_TRAP_TO_HOST) ? "trap_to_host" : \
	(type == BCMOLT_ACCESS_CONTROL_FWD_ACTION_TYPE_DROP) ? "drop" : \
	(type == BCMOLT_ACCESS_CONTROL_FWD_ACTION_TYPE_REDIRECT) ? "redirction" : "unknown"
	#define GET_ACL_MEMBERS_UPDATE_COMMAND(command) \
	(command == BCMOLT_MEMBERS_UPDATE_COMMAND_ADD) ? "add" : \
	(command == BCMOLT_MEMBERS_UPDATE_COMMAND_REMOVE) ? "remove" : \
	(command == BCMOLT_MEMBERS_UPDATE_COMMAND_SET) ? "set" : "unknown"
	#define GET_INTERFACE_TYPE(type) \
	(type == BCMOLT_INTERFACE_TYPE_PON) ? "PON" : \
	(type == BCMOLT_INTERFACE_TYPE_NNI) ? "NNI" : \
	(type == BCMOLT_INTERFACE_TYPE_HOST) ? "HOST" : "unknown"

	#define LOGICAL_DISTANCE(MLD,EQD,TD) (MLD-(EQDTD)102) /* Round-trip time of 102 meters is 1us */
	extern State state;

	//***************************************//
	// Function declations used by the core. //
	//***************************************//
	Status Enable_(int argc, char *argv[]);
	Status ActivateOnu_(uint32_t intf_id, uint32_t onu_id,
	const char vendor_id, const char vendor_specific, uint32_t pir, bool omcc_encryption_mode);
	Status DeactivateOnu_(uint32_t intf_id, uint32_t onu_id,
	const char vendor_id, const char vendor_specific);
	Status DeleteOnu_(uint32_t intf_id, uint32_t onu_id,
	const char vendor_id, const char vendor_specific);
	Status EnablePonIf_(uint32_t intf_id);
	Status DisablePonIf_(uint32_t intf_id);
	Status SetStateUplinkIf_(uint32_t intf_id, bool set_state);
	unsigned NumNniIf_();
	unsigned NumPonIf_();
	Status OmciMsgOut_(uint32_t intf_id, uint32_t onu_id, const std::string pkt);
	Status OnuPacketOut_(uint32_t intf_id, uint32_t onu_id, uint32_t port_no, uint32_t gemport_id, const std::string pkt);
	Status ProbeDeviceCapabilities_();
	Status ProbePonIfTechnology_();
	Status UplinkPacketOut_(uint32_t intf_id, const std::string pkt);
	Status FlowAddWrapper_(const openolt::Flow* request);
	Status FlowAdd_(int32_t access_intf_id, int32_t onu_id, int32_t uni_id, uint32_t port_no,
	uint32_t flow_id, const std::string flow_type,
	int32_t alloc_id, int32_t network_intf_id,
	int32_t gemport_id, const ::openolt::Classifier& classifier,
	const ::openolt::Action& action, int32_t priority_value,
	uint64_t cookie, int32_t group_id, uint32_t tech_profile_id, bool enable_encryption = false);
	Status FlowRemoveWrapper_(const openolt::Flow* request);
	Status FlowRemove_(uint32_t flow_id, const std::string flow_type);
	Status Disable_();
	Status Reenable_();
	Status GetDeviceInfo_(openolt::DeviceInfo* device_info);
	Status CreateTrafficSchedulers_(const tech_profile::TrafficSchedulers *traffic_scheds);
	Status RemoveTrafficSchedulers_(const tech_profile::TrafficSchedulers *traffic_scheds);
	Status CreateTrafficQueues_(const tech_profile::TrafficQueues *traffic_queues);
	Status RemoveTrafficQueues_(const tech_profile::TrafficQueues *traffic_queues);
	Status PerformGroupOperation_(const openolt::Group *group_cfg);
	Status DeleteGroup_(uint32_t group_id);
	Status OnuItuPonAlarmSet_(const config::OnuItuPonAlarm* request);
	uint32_t GetPortNum_(uint32_t flow_id);
	Status GetLogicalOnuDistanceZero_(uint32_t intf_id, openolt::OnuLogicalDistance* response);
	Status GetLogicalOnuDistance_(uint32_t intf_id, uint32_t onu_id, openolt::OnuLogicalDistance* response);
	Status GetOnuStatistics_(uint32_t intf_id, uint32_t onu_id, openolt::OnuStatistics *onu_stats);
	Status GetGemPortStatistics_(uint32_t intf_id, uint32_t gemport_id, openolt::GemPortStatistics* gemport_stats);
	Status GetPonRxPower_(uint32_t intf_id, uint32_t onu_id, openolt::PonRxPowerData* response);
	int get_status_bcm_cli_quit(void);
	uint16_t get_dev_id(void);
	Status pushOltOperInd(uint32_t intf_id, const char type, const char state);
	uint64_t get_flow_status(uint16_t flow_id, uint16_t flow_type, uint16_t data_id);

	void stats_collection();
	Status check_connection();
	Status check_bal_ready();
	std::string get_ip_address(const char* nw_intf);

	// Stubbed defntions of bcmolt_cfg_get required for unit-test
	#ifdef TEST_MODE
	extern bcmos_errno bcmolt_cfg_get__bal_state_stub(bcmolt_oltid olt_id, void* ptr);
	extern bcmos_errno bcmolt_cfg_get__onu_state_stub(bcmolt_oltid olt_id, void* ptr);
	extern bcmos_errno bcmolt_cfg_get__tm_sched_stub(bcmolt_oltid olt_id, void* ptr);
	extern bcmos_errno bcmolt_cfg_get__pon_intf_stub(bcmolt_oltid olt_id, void* ptr);
	extern bcmos_errno bcmolt_cfg_get__nni_intf_stub(bcmolt_oltid olt_id, void* ptr);
	extern bcmos_errno bcmolt_cfg_get__olt_topology_stub(bcmolt_oltid olt_id, void* ptr);
	extern bcmos_errno bcmolt_cfg_get__flow_stub(bcmolt_oltid olt_id, void* ptr);
	#endif //TEST_MODE

	#endif