| /* |
| * 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 <iostream> |
| #include <memory> |
| #include <string> |
| |
| #include "Queue.h" |
| #include <sstream> |
| #include <chrono> |
| #include <thread> |
| #include <bitset> |
| #include <inttypes.h> |
| #include <unistd.h> |
| #include <sys/socket.h> |
| #include <netinet/in.h> |
| #include <arpa/inet.h> |
| |
| #include "device.h" |
| #include "core.h" |
| #include "core_data.h" |
| #include "indications.h" |
| #include "stats_collection.h" |
| #include "error_format.h" |
| #include "state.h" |
| #include "core_utils.h" |
| |
| extern "C" |
| { |
| #include <bcmolt_api.h> |
| #include <bcmolt_host_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> |
| } |
| |
| static std::string intf_technologies[MAX_SUPPORTED_PON]; |
| static const std::string UNKNOWN_TECH("unknown"); |
| static const std::string MIXED_TECH("mixed"); |
| static std::string board_technology(UNKNOWN_TECH); |
| static std::string chip_family(UNKNOWN_TECH); |
| static std::string firmware_version = "Openolt.2019.07.01"; |
| |
| static bcmos_errno CreateSched(std::string direction, uint32_t access_intf_id, uint32_t onu_id, uint32_t uni_id, \ |
| uint32_t port_no, uint32_t alloc_id, ::tech_profile::AdditionalBW additional_bw, uint32_t weight, \ |
| uint32_t priority, ::tech_profile::SchedulingPolicy sched_policy, |
| ::tech_profile::TrafficShapingInfo traffic_shaping_info, uint32_t tech_profile_id); |
| static bcmos_errno RemoveSched(int intf_id, int onu_id, int uni_id, int alloc_id, std::string direction, int tech_profile_id); |
| static bcmos_errno CreateQueue(std::string direction, uint32_t access_intf_id, uint32_t onu_id, uint32_t uni_id, \ |
| bcmolt_egress_qos_type qos_type, uint32_t priority, uint32_t gemport_id, uint32_t tech_profile_id); |
| static bcmos_errno RemoveQueue(std::string direction, uint32_t access_intf_id, uint32_t onu_id, uint32_t uni_id, \ |
| bcmolt_egress_qos_type qos_type, uint32_t priority, uint32_t gemport_id, uint32_t tech_profile_id); |
| static bcmos_errno CreateDefaultSched(uint32_t intf_id, const std::string direction); |
| static bcmos_errno CreateDefaultQueue(uint32_t intf_id, const std::string direction); |
| static const std::chrono::milliseconds ONU_RSSI_COMPLETE_WAIT_TIMEOUT = std::chrono::seconds(10); |
| |
| inline const char *get_flow_acton_command(uint32_t command) { |
| char actions[200] = { }; |
| char *s_actions_ptr = actions; |
| if (command & BCMOLT_ACTION_CMD_ID_ADD_OUTER_TAG) strcat(s_actions_ptr, "ADD_OUTER_TAG|"); |
| if (command & BCMOLT_ACTION_CMD_ID_REMOVE_OUTER_TAG) strcat(s_actions_ptr, "REMOVE_OUTER_TAG|"); |
| if (command & BCMOLT_ACTION_CMD_ID_XLATE_OUTER_TAG) strcat(s_actions_ptr, "TRANSLATE_OUTER_TAG|"); |
| if (command & BCMOLT_ACTION_CMD_ID_ADD_INNER_TAG) strcat(s_actions_ptr, "ADD_INNTER_TAG|"); |
| if (command & BCMOLT_ACTION_CMD_ID_REMOVE_INNER_TAG) strcat(s_actions_ptr, "REMOVE_INNER_TAG|"); |
| if (command & BCMOLT_ACTION_CMD_ID_XLATE_INNER_TAG) strcat(s_actions_ptr, "TRANSLATE_INNER_TAG|"); |
| if (command & BCMOLT_ACTION_CMD_ID_REMARK_OUTER_PBITS) strcat(s_actions_ptr, "REMOVE_OUTER_PBITS|"); |
| if (command & BCMOLT_ACTION_CMD_ID_REMARK_INNER_PBITS) strcat(s_actions_ptr, "REMAKE_INNER_PBITS|"); |
| return s_actions_ptr; |
| } |
| |
| bcmolt_stat_alarm_config set_stat_alarm_config(const config::OnuItuPonAlarm* request) { |
| bcmolt_stat_alarm_config alarm_cfg = {}; |
| bcmolt_stat_alarm_trigger_config trigger_obj = {}; |
| bcmolt_stat_alarm_soak_config soak_obj = {}; |
| |
| switch (request->alarm_reporting_condition()) { |
| case config::OnuItuPonAlarm::RATE_THRESHOLD: |
| trigger_obj.type = BCMOLT_STAT_CONDITION_TYPE_RATE_THRESHOLD; |
| BCMOLT_FIELD_SET(&trigger_obj.u.rate_threshold, stat_alarm_trigger_config_rate_threshold, |
| rising, request->rate_threshold_config().rate_threshold_rising()); |
| BCMOLT_FIELD_SET(&trigger_obj.u.rate_threshold, stat_alarm_trigger_config_rate_threshold, |
| falling, request->rate_threshold_config().rate_threshold_falling()); |
| BCMOLT_FIELD_SET(&soak_obj, stat_alarm_soak_config, active_soak_time, |
| request->rate_threshold_config().soak_time().active_soak_time()); |
| BCMOLT_FIELD_SET(&soak_obj, stat_alarm_soak_config, clear_soak_time, |
| request->rate_threshold_config().soak_time().clear_soak_time()); |
| break; |
| case config::OnuItuPonAlarm::RATE_RANGE: |
| trigger_obj.type = BCMOLT_STAT_CONDITION_TYPE_RATE_RANGE; |
| BCMOLT_FIELD_SET(&trigger_obj.u.rate_range, stat_alarm_trigger_config_rate_range, upper, |
| request->rate_range_config().rate_range_upper()); |
| BCMOLT_FIELD_SET(&trigger_obj.u.rate_range, stat_alarm_trigger_config_rate_range, lower, |
| request->rate_range_config().rate_range_lower()); |
| BCMOLT_FIELD_SET(&soak_obj, stat_alarm_soak_config, active_soak_time, |
| request->rate_range_config().soak_time().active_soak_time()); |
| BCMOLT_FIELD_SET(&soak_obj, stat_alarm_soak_config, clear_soak_time, |
| request->rate_range_config().soak_time().clear_soak_time()); |
| break; |
| case config::OnuItuPonAlarm::VALUE_THRESHOLD: |
| trigger_obj.type = BCMOLT_STAT_CONDITION_TYPE_VALUE_THRESHOLD; |
| BCMOLT_FIELD_SET(&trigger_obj.u.value_threshold, stat_alarm_trigger_config_value_threshold, |
| limit, request->value_threshold_config().threshold_limit()); |
| BCMOLT_FIELD_SET(&soak_obj, stat_alarm_soak_config, active_soak_time, |
| request->value_threshold_config().soak_time().active_soak_time()); |
| BCMOLT_FIELD_SET(&soak_obj, stat_alarm_soak_config, clear_soak_time, |
| request->value_threshold_config().soak_time().clear_soak_time()); |
| break; |
| default: |
| OPENOLT_LOG(ERROR, openolt_log_id, "unsupported alarm reporting condition = %u\n", request->alarm_reporting_condition()); |
| // For now just log the error and not return error. We can handle this scenario in the future. |
| break; |
| } |
| |
| BCMOLT_FIELD_SET(&alarm_cfg, stat_alarm_config, trigger, trigger_obj); |
| BCMOLT_FIELD_SET(&alarm_cfg, stat_alarm_config, soak, soak_obj); |
| |
| return alarm_cfg; |
| } |
| |
| Status OnuItuPonAlarmSet_(const config::OnuItuPonAlarm* request) { |
| bcmos_errno err; |
| bcmolt_onu_itu_pon_stats_cfg stat_cfg; /* declare main API struct */ |
| bcmolt_onu_key key = {}; /* declare key */ |
| bcmolt_stat_alarm_config errors_cfg = {}; |
| |
| key.pon_ni = request->pon_ni(); |
| key.onu_id = request->onu_id(); |
| |
| /* Initialize the API struct. */ |
| BCMOLT_STAT_CFG_INIT(&stat_cfg, onu, itu_pon_stats, key); |
| |
| /* |
| 1. BCMOLT_STAT_CONDITION_TYPE_NONE = 0, The alarm is disabled. |
| 2. BCMOLT_STAT_CONDITION_TYPE_RATE_THRESHOLD = 1, The alarm is triggered if the stats delta value between samples |
| crosses the configured threshold boundary. |
| rising: The alarm is raised if the stats delta value per second becomes greater than this threshold level. |
| falling: The alarm is cleared if the stats delta value per second becomes less than this threshold level. |
| 3. BCMOLT_STAT_CONDITION_TYPE_RATE_RANGE = 2, The alarm is triggered if the stats delta value between samples |
| deviates from the configured range. |
| upper: The alarm is raised if the stats delta value per second becomes greater than this upper level. |
| lower: The alarm is raised if the stats delta value per second becomes less than this lower level. |
| 4. BCMOLT_STAT_CONDITION_TYPE_VALUE_THRESHOLD = 3, The alarm is raised if the stats sample value becomes greater |
| than this level. The alarm is cleared when the host read the stats. |
| limit: The alarm is raised if the stats sample value becomes greater than this level. |
| The alarm is cleared when the host clears the stats. |
| |
| active_soak_time: If the alarm condition is raised and stays in the raised state for at least this amount |
| of time (unit=seconds), the alarm indication is sent to the host. |
| The OLT delays the alarm indication no less than this delay period. |
| It can be delayed more than this period because of the statistics sampling interval. |
| clear_soak_time: After the alarm is raised, if it is cleared and stays in the cleared state for at least |
| this amount of time (unit=seconds), the alarm indication is sent to the host. |
| The OLT delays the alarm indication no less than this delay period. It can be delayed more |
| than this period because of the statistics sampling interval. |
| */ |
| |
| errors_cfg = set_stat_alarm_config(request); |
| |
| switch (request->alarm_id()) { |
| case config::OnuItuPonAlarm_AlarmID::OnuItuPonAlarm_AlarmID_RDI_ERRORS: |
| //set the rdi_errors alarm |
| BCMOLT_FIELD_SET(&stat_cfg.data, onu_itu_pon_stats_cfg_data, rdi_errors, errors_cfg); |
| break; |
| default: |
| OPENOLT_LOG(ERROR, openolt_log_id, "could not find the alarm id %d\n", request->alarm_id()); |
| return bcm_to_grpc_err(BCM_ERR_PARM, "the alarm id is wrong"); |
| } |
| |
| err = bcmolt_stat_cfg_set(dev_id, &stat_cfg.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to set onu itu pon stats, alarm id %d, pon_ni %d, onu_id %d, err = %s\n", |
| request->alarm_id(), key.pon_ni, key.onu_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "set Onu ITU PON stats alarm faild"); |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "set onu itu pon stats alarm %d successfully, pon_ni %d, onu_id %d\n", |
| request->alarm_id(), key.pon_ni, key.onu_id); |
| } |
| |
| return Status::OK; |
| } |
| |
| Status GetDeviceInfo_(::openolt::DeviceInfo* device_info) { |
| device_info->set_vendor(VENDOR_ID); |
| device_info->set_model(MODEL_ID); |
| device_info->set_hardware_version(""); |
| device_info->set_firmware_version(firmware_version); |
| device_info->set_technology(board_technology); |
| device_info->set_pon_ports(num_of_pon_ports); |
| |
| char serial_number[OPENOLT_FIELD_LEN]; |
| memset(serial_number, '\0', OPENOLT_FIELD_LEN); |
| openolt_read_sysinfo("Serial Number", serial_number); |
| OPENOLT_LOG(INFO, openolt_log_id, "Fetched device serial number %s\n", serial_number); |
| device_info->set_device_serial_number(serial_number); |
| device_info->set_previously_connected(state.previously_connected()); |
| |
| char device_id[OPENOLT_FIELD_LEN]; |
| memset(device_id, '\0', OPENOLT_FIELD_LEN); |
| |
| if (grpc_server_interface_name != NULL) { |
| if (get_intf_mac(grpc_server_interface_name, device_id, sizeof(device_id)) != NULL) |
| { |
| OPENOLT_LOG(INFO, openolt_log_id, "Fetched mac address %s of an interface %s\n", device_id, grpc_server_interface_name); |
| } |
| else |
| { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Mac address of an interface %s is NULL\n", grpc_server_interface_name); |
| } |
| } |
| else |
| { |
| openolt_read_sysinfo("MAC", device_id); |
| OPENOLT_LOG(INFO, openolt_log_id, "Fetched device mac address %s\n", device_id); |
| } |
| |
| device_info->set_device_id(device_id); |
| |
| // Legacy, device-wide ranges. To be deprecated when adapter |
| // is upgraded to support per-interface ranges |
| device_info->set_onu_id_start(ONU_ID_START); |
| device_info->set_onu_id_end(ONU_ID_END); |
| device_info->set_alloc_id_start(ALLOC_ID_START); |
| device_info->set_alloc_id_end(ALLOC_ID_END); |
| device_info->set_gemport_id_start(GEM_PORT_ID_START); |
| device_info->set_gemport_id_end(GEM_PORT_ID_END); |
| device_info->set_flow_id_start(FLOW_ID_START); |
| device_info->set_flow_id_end(FLOW_ID_END); |
| |
| std::map<std::string, ::openolt::DeviceInfo::DeviceResourceRanges*> ranges; |
| for (uint32_t intf_id = 0; intf_id < num_of_pon_ports; ++intf_id) { |
| std::string intf_technology = intf_technologies[intf_id]; |
| ::openolt::DeviceInfo::DeviceResourceRanges *range = ranges[intf_technology]; |
| if(range == nullptr) { |
| range = device_info->add_ranges(); |
| ranges[intf_technology] = range; |
| range->set_technology(intf_technology); |
| |
| ::openolt::DeviceInfo::DeviceResourceRanges::Pool* pool; |
| |
| pool = range->add_pools(); |
| pool->set_type(::openolt::DeviceInfo::DeviceResourceRanges::Pool::ONU_ID); |
| pool->set_sharing(::openolt::DeviceInfo::DeviceResourceRanges::Pool::DEDICATED_PER_INTF); |
| pool->set_start(ONU_ID_START); |
| pool->set_end(ONU_ID_END); |
| |
| pool = range->add_pools(); |
| pool->set_type(::openolt::DeviceInfo::DeviceResourceRanges::Pool::ALLOC_ID); |
| pool->set_sharing(::openolt::DeviceInfo::DeviceResourceRanges::Pool::DEDICATED_PER_INTF); |
| pool->set_start(ALLOC_ID_START); |
| pool->set_end(ALLOC_ID_END); |
| |
| pool = range->add_pools(); |
| pool->set_type(::openolt::DeviceInfo::DeviceResourceRanges::Pool::GEMPORT_ID); |
| pool->set_sharing(::openolt::DeviceInfo::DeviceResourceRanges::Pool::DEDICATED_PER_INTF); |
| pool->set_start(GEM_PORT_ID_START); |
| pool->set_end(GEM_PORT_ID_END); |
| |
| pool = range->add_pools(); |
| pool->set_type(::openolt::DeviceInfo::DeviceResourceRanges::Pool::FLOW_ID); |
| pool->set_sharing(::openolt::DeviceInfo::DeviceResourceRanges::Pool::SHARED_BY_ALL_INTF_ALL_TECH); |
| pool->set_start(FLOW_ID_START); |
| pool->set_end(FLOW_ID_END); |
| } |
| |
| range->add_intf_ids(intf_id); |
| } |
| |
| // FIXME: Once dependency problem is fixed |
| // device_info->set_pon_ports(num_of_pon_ports); |
| // device_info->set_onu_id_end(XGPON_NUM_OF_ONUS - 1); |
| // device_info->set_alloc_id_start(1024); |
| // device_info->set_alloc_id_end(XGPON_NUM_OF_ALLOC_IDS * num_of_pon_ports ? - 1); |
| // device_info->set_gemport_id_start(XGPON_MIN_BASE_SERVICE_PORT_ID); |
| // device_info->set_gemport_id_end(XGPON_NUM_OF_GEM_PORT_IDS_PER_PON * num_of_pon_ports ? - 1); |
| // device_info->set_pon_ports(num_of_pon_ports); |
| |
| return Status::OK; |
| } |
| |
| void reset_pon_device(bcmolt_odid dev) |
| { |
| bcmos_errno err; |
| bcmolt_device_reset oper; |
| bcmolt_device_key key = {.device_id = dev}; |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Reset PON device: %d\n", dev); |
| |
| BCMOLT_OPER_INIT(&oper, device, reset, key); |
| err = bcmolt_oper_submit(dev_id, &oper.hdr); |
| if (err) |
| { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to reset PON device(%d) failed, err = %s\n", dev, bcmos_strerror(err)); |
| }else |
| { |
| OPENOLT_LOG(INFO, openolt_log_id, "Reset PON device(%d) success\n", dev); |
| } |
| } |
| |
| Status Enable_(int argc, char *argv[]) { |
| bcmos_errno err; |
| bcmolt_host_init_parms init_parms = {}; |
| init_parms.transport.type = BCM_HOST_API_CONN_LOCAL; |
| unsigned int failed_enable_device_cnt = 0; |
| |
| if (!state.is_activated()) { |
| |
| vendor_init(); |
| /* Initialize host subsystem */ |
| err = bcmolt_host_init(&init_parms); |
| if (BCM_ERR_OK != err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to init OLT, err = %s\n",bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to init OLT"); |
| } |
| |
| bcmcli_session_parm mon_session_parm; |
| /* Create CLI session */ |
| memset(&mon_session_parm, 0, sizeof(mon_session_parm)); |
| mon_session_parm.get_prompt = openolt_cli_get_prompt_cb; |
| mon_session_parm.access_right = BCMCLI_ACCESS_ADMIN; |
| bcmos_errno rc = bcmcli_session_open(&mon_session_parm, ¤t_session); |
| BUG_ON(rc != BCM_ERR_OK); |
| |
| /* API CLI */ |
| bcm_openolt_api_cli_init(NULL, current_session); |
| |
| /* Add quit command */ |
| BCMCLI_MAKE_CMD_NOPARM(NULL, "quit", "Quit", bcm_cli_quit); |
| |
| err = bcmolt_apiend_cli_init(); |
| if (BCM_ERR_OK != err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to add apiend init, err = %s\n",bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to add apiend init"); |
| } |
| |
| bcmos_fastlock_init(&data_lock, 0); |
| bcmos_fastlock_init(&acl_id_bitset_lock, 0); |
| bcmos_fastlock_init(&tm_sched_bitset_lock, 0); |
| bcmos_fastlock_init(&tm_qmp_bitset_lock, 0); |
| bcmos_fastlock_init(&flow_id_bitset_lock, 0); |
| bcmos_fastlock_init(&voltha_flow_to_device_flow_lock, 0); |
| bcmos_fastlock_init(&alloc_cfg_wait_lock, 0); |
| bcmos_fastlock_init(&gem_cfg_wait_lock, 0); |
| bcmos_fastlock_init(&onu_deactivate_wait_lock, 0); |
| bcmos_fastlock_init(&acl_packet_trap_handler_lock, 0); |
| bcmos_fastlock_init(&symmetric_datapath_flow_id_lock, 0); |
| bcmos_fastlock_init(&pon_gem_to_onu_uni_map_lock, 0); |
| |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Enable OLT - %s-%s\n", VENDOR_ID, MODEL_ID); |
| |
| //check BCM daemon is connected or not |
| Status status = check_connection(); |
| if (!status.ok()) { |
| return status; |
| } |
| else { |
| Status status = SubscribeIndication(); |
| if (!status.ok()) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "SubscribeIndication failed - %s : %s\n", |
| grpc_status_code_to_string(status.error_code()).c_str(), |
| status.error_message().c_str()); |
| return status; |
| } |
| |
| //check BAL state in initial stage |
| status = check_bal_ready(); |
| if (!status.ok()) { |
| return status; |
| } |
| } |
| |
| { |
| bcmos_errno err; |
| bcmolt_odid dev; |
| OPENOLT_LOG(INFO, openolt_log_id, "Enabling PON %d Devices ... \n", BCM_MAX_DEVS_PER_LINE_CARD); |
| for (dev = 0; dev < BCM_MAX_DEVS_PER_LINE_CARD; dev++) { |
| bcmolt_device_cfg dev_cfg = { }; |
| bcmolt_device_key dev_key = { }; |
| dev_key.device_id = dev; |
| BCMOLT_CFG_INIT(&dev_cfg, device, dev_key); |
| BCMOLT_MSG_FIELD_GET(&dev_cfg, system_mode); |
| |
| /* FIXME: Single Phoenix BAL patch is prepared for all three variants of Radisys OLT |
| * in which BCM_MAX_DEVS_PER_LINE_CARD macro need to be redefined as 1 incase of |
| * "rlt-1600g-w" and "rlt-1600x-w", till then this workaround is required.*/ |
| if (dev == 1 && (MODEL_ID == "rlt-1600g-w" || MODEL_ID == "rlt-1600x-w")) { |
| continue; |
| } |
| |
| err = bcmolt_cfg_get(dev_id, &dev_cfg.hdr); |
| if (err == BCM_ERR_NOT_CONNECTED) { |
| bcmolt_device_key key = {.device_id = dev}; |
| bcmolt_device_connect oper; |
| BCMOLT_OPER_INIT(&oper, device, connect, key); |
| |
| /* BAL saves current state into dram_tune soc file and when dev_mgmt_daemon restarts |
| * it retains config from soc file. If openolt agent try to connect device without |
| * device reset device initialization fails hence doing device reset here. */ |
| reset_pon_device(dev); |
| |
| if (MODEL_ID == "asfvolt16") { |
| BCMOLT_MSG_FIELD_SET(&oper, inni_config.mode, BCMOLT_INNI_MODE_ALL_10_G_XFI); |
| BCMOLT_MSG_FIELD_SET (&oper, system_mode, BCMOLT_SYSTEM_MODE_XGS__2_X); |
| } else if (MODEL_ID == "asgvolt64") { |
| BCMOLT_MSG_FIELD_SET(&oper, inni_config.mode, BCMOLT_INNI_MODE_ALL_10_G_XFI); |
| BCMOLT_MSG_FIELD_SET(&oper, inni_config.mux, BCMOLT_INNI_MUX_FOUR_TO_ONE); |
| BCMOLT_MSG_FIELD_SET (&oper, system_mode, BCMOLT_SYSTEM_MODE_GPON__16_X); |
| } else if (MODEL_ID == "rlt-3200g-w" || MODEL_ID == "rlt-1600g-w") { |
| BCMOLT_MSG_FIELD_SET(&oper, inni_config.mux, BCMOLT_INNI_MUX_NONE); |
| if(dev == 1) { |
| BCMOLT_MSG_FIELD_SET(&oper, inni_config.mux, BCMOLT_INNI_MUX_FOUR_TO_ONE); |
| } |
| BCMOLT_MSG_FIELD_SET (&oper, ras_ddr_mode, BCMOLT_RAS_DDR_USAGE_MODE_TWO_DDRS); |
| BCMOLT_MSG_FIELD_SET(&oper, inni_config.mode, BCMOLT_INNI_MODE_ALL_10_G_XFI); |
| BCMOLT_MSG_FIELD_SET (&oper, system_mode, BCMOLT_SYSTEM_MODE_GPON__16_X); |
| } else if (MODEL_ID == "rlt-1600x-w") { |
| BCMOLT_MSG_FIELD_SET(&oper, inni_config.mux, BCMOLT_INNI_MUX_NONE); |
| BCMOLT_MSG_FIELD_SET (&oper, ras_ddr_mode, BCMOLT_RAS_DDR_USAGE_MODE_TWO_DDRS); |
| BCMOLT_MSG_FIELD_SET(&oper, inni_config.mode, BCMOLT_INNI_MODE_ALL_10_G_XFI); |
| /* By default setting device mode to GPON for rlt 1600x. |
| In future device mode can be configured to XGSPON || GPON by reading |
| device mode configuration from a static configuration file*/ |
| BCMOLT_MSG_FIELD_SET (&oper, system_mode, BCMOLT_SYSTEM_MODE_GPON__16_X); |
| } |
| err = bcmolt_oper_submit(dev_id, &oper.hdr); |
| if (err) { |
| failed_enable_device_cnt ++; |
| OPENOLT_LOG(ERROR, openolt_log_id, "Enable PON device %d failed, err = %s\n", dev, bcmos_strerror(err)); |
| if (failed_enable_device_cnt == BCM_MAX_DEVS_PER_LINE_CARD) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to enable all the pon ports, err = %s\n", bcmos_strerror(err)); |
| return Status(grpc::StatusCode::INTERNAL, "Failed to activate all PON ports"); |
| } |
| } |
| bcmos_usleep(MAC_DEVICE_ACTIVATION_DELAY); |
| } |
| else { |
| OPENOLT_LOG(WARNING, openolt_log_id, "PON device %d already connected\n", dev); |
| state.activate(); |
| } |
| } |
| init_stats(); |
| } |
| } |
| |
| /* Start CLI */ |
| OPENOLT_LOG(INFO, def_log_id, "Starting CLI\n"); |
| //If already enabled, generate an extra indication ???? |
| return Status::OK; |
| } |
| |
| Status Disable_() { |
| //In the earlier implementation Disabling olt is done by disabling the NNI port associated with that. |
| //In inband scenario instead of using management interface to establish connection with adapter ,NNI interface will be used. |
| //Disabling NNI port on olt disable causes connection loss between adapter and agent. |
| //To overcome this disable is implemented by disabling all the PON ports |
| //associated with the device so as to support both in-band |
| //and out of band scenarios. |
| |
| Status status; |
| int failedCount = 0; |
| OPENOLT_LOG(INFO, openolt_log_id, "Received disable OLT\n"); |
| for (int i = 0; i < NumPonIf_(); i++) { |
| status = DisablePonIf_(i); |
| if (!status.ok()) { |
| failedCount+=1; |
| BCM_LOG(ERROR, openolt_log_id, "Failed to disable PON interface: %d\n", i); |
| } |
| } |
| if (failedCount == 0) { |
| state.deactivate(); |
| ::openolt::Indication ind; |
| ::openolt::OltIndication* olt_ind = new ::openolt::OltIndication; |
| olt_ind->set_oper_state("down"); |
| ind.set_allocated_olt_ind(olt_ind); |
| BCM_LOG(INFO, openolt_log_id, "Disable OLT, add an extra indication\n"); |
| oltIndQ.push(ind); |
| return Status::OK; |
| } |
| if (failedCount ==NumPonIf_()) { |
| return grpc::Status(grpc::StatusCode::INTERNAL, "failed to disable olt ,all the PON ports are still in enabled state"); |
| } |
| |
| return grpc::Status(grpc::StatusCode::UNKNOWN, "failed to disable olt ,few PON ports are still in enabled state"); |
| } |
| |
| Status Reenable_() { |
| Status status; |
| int failedCount = 0; |
| for (int i = 0; i < NumPonIf_(); i++) { |
| status = EnablePonIf_(i); |
| if (!status.ok()) { |
| failedCount+=1; |
| BCM_LOG(ERROR, openolt_log_id, "Failed to enable PON interface: %d\n", i); |
| } |
| } |
| if (failedCount == 0) { |
| state.activate(); |
| ::openolt::Indication ind; |
| ::openolt::OltIndication* olt_ind = new ::openolt::OltIndication; |
| olt_ind->set_oper_state("up"); |
| ind.set_allocated_olt_ind(olt_ind); |
| BCM_LOG(INFO, openolt_log_id, "Reenable OLT, add an extra indication\n"); |
| oltIndQ.push(ind); |
| return Status::OK; |
| } |
| if (failedCount ==NumPonIf_()) { |
| return grpc::Status(grpc::StatusCode::INTERNAL, "failed to re-enable olt ,all the PON ports are still in disabled state"); |
| } |
| return grpc::Status(grpc::StatusCode::UNKNOWN, "failed to re-enable olt ,few PON ports are still in disabled state"); |
| } |
| |
| inline uint64_t get_flow_status(uint16_t flow_id, uint16_t flow_type, uint16_t data_id) { |
| bcmos_errno err; |
| bcmolt_flow_key flow_key; |
| bcmolt_flow_cfg flow_cfg; |
| |
| flow_key.flow_id = flow_id; |
| flow_key.flow_type = (bcmolt_flow_type)flow_type; |
| |
| BCMOLT_CFG_INIT(&flow_cfg, flow, flow_key); |
| |
| switch (data_id) { |
| case ONU_ID: //onu_id |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, onu_id); |
| #ifdef TEST_MODE |
| // It is impossible to mock the setting of flow_cfg.data.state because |
| // the actual bcmolt_cfg_get passes the address of flow_cfg.hdr and we cannot |
| // set the flow_cfg.data. So a new stub function is created and address |
| // of flow_cfg is passed. This is one-of case where we need to add test specific |
| // code in production code. |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get onu_id, err = %s (%d)\n", flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.onu_id; |
| case FLOW_TYPE: |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get flow_type, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.key.flow_type; |
| case SVC_PORT_ID: //svc_port_id |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, svc_port_id); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get svc_port_id, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.svc_port_id; |
| case PRIORITY: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, priority); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get priority, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.priority; |
| case COOKIE: //cookie |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, cookie); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get cookie, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.cookie; |
| case INGRESS_INTF_TYPE: //ingress intf_type |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, ingress_intf); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get ingress intf_type, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.ingress_intf.intf_type; |
| case EGRESS_INTF_TYPE: //egress intf_type |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, egress_intf); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get egress intf_type, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.egress_intf.intf_type; |
| case INGRESS_INTF_ID: //ingress intf_id |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, ingress_intf); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get ingress intf_id, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.ingress_intf.intf_id; |
| case EGRESS_INTF_ID: //egress intf_id |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, egress_intf); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get egress intf_id, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.egress_intf.intf_id; |
| case CLASSIFIER_O_VID: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier o_vid, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.o_vid; |
| case CLASSIFIER_O_PBITS: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier o_pbits, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.o_pbits; |
| case CLASSIFIER_I_VID: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier i_vid, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.i_vid; |
| case CLASSIFIER_I_PBITS: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier i_pbits, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.i_pbits; |
| case CLASSIFIER_ETHER_TYPE: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier ether_type, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.ether_type; |
| case CLASSIFIER_IP_PROTO: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier ip_proto, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.ip_proto; |
| case CLASSIFIER_SRC_PORT: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier src_port, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.src_port; |
| case CLASSIFIER_DST_PORT: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier dst_port, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.dst_port; |
| case CLASSIFIER_PKT_TAG_TYPE: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, classifier); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get classifier pkt_tag_type, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.classifier.pkt_tag_type; |
| case EGRESS_QOS_TYPE: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, egress_qos); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get egress_qos type, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.egress_qos.type; |
| case EGRESS_QOS_QUEUE_ID: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, egress_qos); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get egress_qos queue_id, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| switch (flow_cfg.data.egress_qos.type) { |
| case BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE: |
| return flow_cfg.data.egress_qos.u.fixed_queue.queue_id; |
| case BCMOLT_EGRESS_QOS_TYPE_TC_TO_QUEUE: |
| return flow_cfg.data.egress_qos.u.tc_to_queue.tc_to_queue_id; |
| case BCMOLT_EGRESS_QOS_TYPE_PBIT_TO_TC: |
| return flow_cfg.data.egress_qos.u.pbit_to_tc.tc_to_queue_id; |
| case BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE: |
| return flow_cfg.data.egress_qos.u.priority_to_queue.tm_q_set_id; |
| case BCMOLT_EGRESS_QOS_TYPE_NONE: |
| default: |
| return -1; |
| } |
| case EGRESS_QOS_TM_SCHED_ID: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, egress_qos); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get egress_qos tm_sched_id, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.egress_qos.tm_sched.id; |
| case ACTION_CMDS_BITMASK: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, action); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get action cmds_bitmask, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.action.cmds_bitmask; |
| case ACTION_O_VID: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, action); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get action o_vid, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.action.o_vid; |
| case ACTION_O_PBITS: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, action); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get action o_pbits, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.action.o_pbits; |
| case ACTION_I_VID: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, action); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get action i_vid, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.action.i_vid; |
| case ACTION_I_PBITS: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, action); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get action i_pbits, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.action.i_pbits; |
| case STATE: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, state); |
| #ifdef TEST_MODE |
| err = bcmolt_cfg_get__flow_stub(dev_id, &flow_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get state, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.state; |
| case GROUP_ID: |
| BCMOLT_FIELD_SET_PRESENT(&flow_cfg.data, flow_cfg_data, group_id); |
| err = bcmolt_cfg_get(dev_id, &flow_cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to get group_id, err = %s (%d)\n",flow_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| return flow_cfg.data.group_id; |
| default: |
| return BCM_ERR_INTERNAL; |
| } |
| |
| return err; |
| } |
| |
| Status EnablePonIf_(uint32_t intf_id) { |
| bcmos_errno err = BCM_ERR_OK; |
| bcmolt_pon_interface_cfg interface_obj; |
| bcmolt_pon_interface_key intf_key = {.pon_ni = (bcmolt_interface)intf_id}; |
| bcmolt_pon_interface_set_pon_interface_state pon_interface_set_state; |
| bcmolt_interface_state state; |
| bcmolt_status los_status; |
| |
| err = get_pon_interface_status((bcmolt_interface)intf_id, &state, &los_status); |
| if (err == BCM_ERR_OK) { |
| if (state == BCMOLT_INTERFACE_STATE_ACTIVE_WORKING) { |
| OPENOLT_LOG(WARNING, openolt_log_id, "PON interface: %d already enabled\n", intf_id); |
| return Status::OK; |
| } |
| } |
| BCMOLT_CFG_INIT(&interface_obj, pon_interface, intf_key); |
| BCMOLT_OPER_INIT(&pon_interface_set_state, pon_interface, set_pon_interface_state, intf_key); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, discovery.control, BCMOLT_CONTROL_STATE_ENABLE); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, discovery.interval, 5000); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, discovery.onu_post_discovery_mode, |
| BCMOLT_ONU_POST_DISCOVERY_MODE_NONE); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.automatic_onu_deactivation.los, true); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.automatic_onu_deactivation.onu_alarms, true); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.automatic_onu_deactivation.tiwi, true); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.automatic_onu_deactivation.ack_timeout, true); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.automatic_onu_deactivation.sfi, true); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.automatic_onu_deactivation.loki, true); |
| |
| // On GPON, power level mode is not set to its default value (i.e. 0) as documented in Broadcom documentation. |
| // Instead, it is set to 2 which means -6 dbM attenuation. Therefore, we explicitly set it to the default value below. |
| if (board_technology == "GPON") { |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.gpon.power_level.pls_maximum_allocation_size, BCMOLT_PON_POWER_LEVEL_PLS_MAXIMUM_ALLOCATION_SIZE_DEFAULT); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.gpon.power_level.mode, BCMOLT_PON_POWER_LEVEL_MODE_DEFAULT); |
| } |
| |
| //Enable AES Encryption |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.onu_activation.key_exchange, BCMOLT_CONTROL_STATE_ENABLE); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.onu_activation.authentication, BCMOLT_CONTROL_STATE_ENABLE); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, itu.onu_activation.fail_due_to_authentication_failure, BCMOLT_CONTROL_STATE_ENABLE); |
| |
| BCMOLT_FIELD_SET(&pon_interface_set_state.data, pon_interface_set_pon_interface_state_data, |
| operation, BCMOLT_INTERFACE_OPERATION_ACTIVE_WORKING); |
| |
| err = bcmolt_cfg_set(dev_id, &interface_obj.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to enable discovery onu, PON interface %d, err = %s\n", intf_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to enable discovery onu"); |
| } |
| err = bcmolt_oper_submit(dev_id, &pon_interface_set_state.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to enable PON interface: %d, err = %s\n", intf_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to enable PON interface"); |
| } |
| else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Successfully enabled PON interface: %d\n", intf_id); |
| OPENOLT_LOG(INFO, openolt_log_id, "Initializing tm sched creation for PON interface: %d\n", intf_id); |
| CreateDefaultSched(intf_id, downstream); |
| CreateDefaultQueue(intf_id, downstream); |
| } |
| |
| return Status::OK; |
| } |
| |
| Status ProbeDeviceCapabilities_() { |
| bcmos_errno err; |
| bcmolt_device_cfg dev_cfg = { }; |
| bcmolt_device_key dev_key = { }; |
| bcmolt_olt_cfg olt_cfg = { }; |
| bcmolt_olt_key olt_key = { }; |
| bcmolt_topology_map topo_map[BCM_MAX_PONS_PER_OLT] = { }; |
| bcmolt_topology topo = { }; |
| |
| topo.topology_maps.len = BCM_MAX_PONS_PER_OLT; |
| topo.topology_maps.arr = &topo_map[0]; |
| BCMOLT_CFG_INIT(&olt_cfg, olt, olt_key); |
| BCMOLT_MSG_FIELD_GET(&olt_cfg, bal_state); |
| BCMOLT_FIELD_SET_PRESENT(&olt_cfg.data, olt_cfg_data, topology); |
| BCMOLT_CFG_LIST_BUF_SET(&olt_cfg, olt, topo.topology_maps.arr, |
| sizeof(bcmolt_topology_map) * topo.topology_maps.len); |
| #ifdef TEST_MODE |
| // It is impossible to mock the setting of olt_cfg.data.bal_state because |
| // the actual bcmolt_cfg_get passes the address of olt_cfg.hdr and we cannot |
| // set the olt_cfg.data.topology. So a new stub function is created and address |
| // of olt_cfg is passed. This is one-of case where we need to test add specific |
| // code in production code. |
| err = bcmolt_cfg_get__olt_topology_stub(dev_id, &olt_cfg); |
| #else |
| err = bcmolt_cfg_get_mult_retry(dev_id, &olt_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "cfg: Failed to query OLT topology, err = %s\n", bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "cfg: Failed to query OLT topology"); |
| } |
| |
| num_of_nni_ports = olt_cfg.data.topology.num_switch_ports; |
| num_of_pon_ports = olt_cfg.data.topology.topology_maps.len; |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "OLT capabilitites, oper_state: %s\n", |
| olt_cfg.data.bal_state == BCMOLT_BAL_STATE_BAL_AND_SWITCH_READY |
| ? "up" : "down"); |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "topology nni: %d pon: %d dev: %d\n", |
| num_of_nni_ports, |
| num_of_pon_ports, |
| BCM_MAX_DEVS_PER_LINE_CARD); |
| |
| uint32_t num_failed_cfg_gets = 0; |
| static std::string openolt_version = firmware_version; |
| for (int devid = 0; devid < BCM_MAX_DEVS_PER_LINE_CARD; devid++) { |
| dev_key.device_id = devid; |
| BCMOLT_CFG_INIT(&dev_cfg, device, dev_key); |
| BCMOLT_MSG_FIELD_GET(&dev_cfg, firmware_sw_version); |
| BCMOLT_MSG_FIELD_GET(&dev_cfg, chip_family); |
| BCMOLT_MSG_FIELD_GET(&dev_cfg, system_mode); |
| err = bcmolt_cfg_get_mult_retry(dev_id, &dev_cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(WARNING, openolt_log_id,"Failed to query PON MAC Device %d (errno = %s). Skipping the device.\n", devid, bcmos_strerror(err)); |
| num_failed_cfg_gets++; |
| continue; |
| } |
| |
| std::string bal_version; |
| bal_version += std::to_string(dev_cfg.data.firmware_sw_version.major) |
| + "." + std::to_string(dev_cfg.data.firmware_sw_version.minor) |
| + "." + std::to_string(dev_cfg.data.firmware_sw_version.revision); |
| firmware_version = "BAL." + bal_version + "__" + openolt_version; |
| |
| switch(dev_cfg.data.system_mode) { |
| case 10: board_technology = "GPON"; FILL_ARRAY(intf_technologies,devid*4,(devid+1)*4,"GPON"); break; |
| case 11: board_technology = "GPON"; FILL_ARRAY(intf_technologies,devid*8,(devid+1)*8,"GPON"); break; |
| case 12: board_technology = "GPON"; FILL_ARRAY(intf_technologies,devid*16,(devid+1)*16,"GPON"); break; |
| case 13: board_technology = "XGPON"; FILL_ARRAY(intf_technologies,devid*2,(devid+1)*2,"XGPON"); break; |
| case 14: board_technology = "XGPON"; FILL_ARRAY(intf_technologies,devid*4,(devid+1)*4,"XGPON"); break; |
| case 15: board_technology = "XGPON"; FILL_ARRAY(intf_technologies,devid*8,(devid+1)*8,"XGPON"); break; |
| case 16: board_technology = "XGPON"; FILL_ARRAY(intf_technologies,devid*16,(devid+1)*16,"XGPON"); break; |
| case 18: board_technology = "XGS-PON"; FILL_ARRAY(intf_technologies,devid*2,(devid+1)*2,"XGS-PON"); break; |
| case 19: board_technology = "XGS-PON"; FILL_ARRAY(intf_technologies,devid*16,(devid+1)*16,"XGS-PON"); break; |
| case 20: board_technology = MIXED_TECH; FILL_ARRAY(intf_technologies,devid*2,(devid+1)*2,MIXED_TECH); break; |
| } |
| |
| switch(dev_cfg.data.chip_family) { |
| case BCMOLT_CHIP_FAMILY_CHIP_FAMILY_6862_X: chip_family = "Maple"; break; |
| case BCMOLT_CHIP_FAMILY_CHIP_FAMILY_6865_X: chip_family = "Aspen"; break; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "device %d, pon: %d, version %s, family: %s, board_technology: %s\n", |
| devid, BCM_MAX_PONS_PER_DEV, bal_version.c_str(), chip_family.c_str(), board_technology.c_str()); |
| |
| bcmos_usleep(500000); |
| } |
| |
| /* If all the devices returned errors then we tell the caller that this is an error else we work with |
| only the devices that retured success*/ |
| if (num_failed_cfg_gets == BCM_MAX_DEVS_PER_LINE_CARD) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "device: Query of all the devices failed\n"); |
| return bcm_to_grpc_err(err, "device: All devices failed query"); |
| } |
| |
| return Status::OK; |
| } |
| |
| Status SetStateUplinkIf_(uint32_t intf_id, bool set_state) { |
| bcmos_errno err = BCM_ERR_OK; |
| bcmolt_nni_interface_key intf_key = {.id = (bcmolt_interface)intf_id}; |
| bcmolt_nni_interface_set_nni_state nni_interface_set_state; |
| bcmolt_interface_state state; |
| |
| err = get_nni_interface_status((bcmolt_interface)intf_id, &state); |
| if (err == BCM_ERR_OK) { |
| if (set_state && state == BCMOLT_INTERFACE_STATE_ACTIVE_WORKING) { |
| OPENOLT_LOG(WARNING, openolt_log_id, "NNI interface: %d already enabled\n", intf_id); |
| OPENOLT_LOG(INFO, openolt_log_id, "Initializing tm sched creation for NNI interface: %d\n", intf_id); |
| CreateDefaultSched(intf_id, upstream); |
| CreateDefaultQueue(intf_id, upstream); |
| return Status::OK; |
| } else if (!set_state && state == BCMOLT_INTERFACE_STATE_INACTIVE) { |
| OPENOLT_LOG(INFO, openolt_log_id, "NNI interface: %d already disabled\n", intf_id); |
| return Status::OK; |
| } |
| } |
| |
| BCMOLT_OPER_INIT(&nni_interface_set_state, nni_interface, set_nni_state, intf_key); |
| if (set_state) { |
| BCMOLT_FIELD_SET(&nni_interface_set_state.data, nni_interface_set_nni_state_data, |
| nni_state, BCMOLT_INTERFACE_OPERATION_ACTIVE_WORKING); |
| } else { |
| BCMOLT_FIELD_SET(&nni_interface_set_state.data, nni_interface_set_nni_state_data, |
| nni_state, BCMOLT_INTERFACE_OPERATION_INACTIVE); |
| } |
| err = bcmolt_oper_submit(dev_id, &nni_interface_set_state.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to %s NNI interface: %d, err = %s\n", |
| (set_state)?"enable":"disable", intf_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to enable NNI interface"); |
| } |
| else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Successfully %s NNI interface: %d\n", (set_state)?"enable":"disable", intf_id); |
| if (set_state) { |
| OPENOLT_LOG(INFO, openolt_log_id, "Initializing tm sched creation for NNI interface: %d\n", intf_id); |
| CreateDefaultSched(intf_id, upstream); |
| CreateDefaultQueue(intf_id, upstream); |
| } |
| } |
| |
| return Status::OK; |
| } |
| |
| uint32_t GetNniSpeed_(uint32_t intf_id) { |
| bcmos_errno err = BCM_ERR_OK; |
| |
| uint32_t speed; |
| err = get_nni_interface_speed((bcmolt_interface)intf_id, &speed); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(WARNING, openolt_log_id, "Failed to read speed of NNI interface: %d\n", intf_id); |
| return 0; //This will cause the adapter to use the default speed value |
| } |
| |
| return speed; |
| } |
| |
| Status DisablePonIf_(uint32_t intf_id) { |
| bcmos_errno err; |
| bcmolt_pon_interface_cfg interface_obj; |
| bcmolt_pon_interface_key intf_key = {.pon_ni = (bcmolt_interface)intf_id}; |
| bcmolt_pon_interface_set_pon_interface_state pon_interface_set_state; |
| |
| BCMOLT_CFG_INIT(&interface_obj, pon_interface, intf_key); |
| BCMOLT_MSG_FIELD_GET(&interface_obj, state); |
| |
| err = bcmolt_cfg_get(dev_id, &interface_obj.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to fetch pon port status, PON interface %d, err %d err_text=%s \n", intf_id, err, interface_obj.hdr.hdr.err_text); |
| return bcm_to_grpc_err(err, "Failed to fetch pon port state"); |
| } |
| if (interface_obj.data.state == BCMOLT_INTERFACE_STATE_INACTIVE) { |
| OPENOLT_LOG(INFO, openolt_log_id, "PON Interface already inactive, PON interface %d\n", intf_id); |
| return Status::OK; |
| } |
| |
| BCMOLT_CFG_INIT(&interface_obj, pon_interface, intf_key); |
| BCMOLT_OPER_INIT(&pon_interface_set_state, pon_interface, set_pon_interface_state, intf_key); |
| BCMOLT_MSG_FIELD_SET(&interface_obj, discovery.control, BCMOLT_CONTROL_STATE_DISABLE); |
| |
| err = bcmolt_cfg_set(dev_id, &interface_obj.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to disable discovery of onu, PON interface %d, err = %s (%d(\n", intf_id, interface_obj.hdr.hdr.err_text, err); |
| return bcm_to_grpc_err(err, "Failed to disable discovery of onu"); |
| } |
| |
| BCMOLT_FIELD_SET(&pon_interface_set_state.data, pon_interface_set_pon_interface_state_data, |
| operation, BCMOLT_INTERFACE_OPERATION_INACTIVE); |
| |
| err = bcmolt_oper_submit(dev_id, &pon_interface_set_state.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to disable PON interface: %d\n , err %d\n", intf_id, err); |
| return bcm_to_grpc_err(err, "Failed to disable PON interface"); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Successfully disabled PON interface: %d\n", intf_id); |
| return Status::OK; |
| } |
| |
| 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) { |
| bcmos_errno err = BCM_ERR_OK; |
| bcmolt_onu_cfg onu_cfg; |
| bcmolt_onu_key onu_key; |
| bcmolt_serial_number serial_number; /**< ONU serial number */ |
| bcmolt_bin_str_36 registration_id; /**< ONU registration ID */ |
| |
| bcmolt_onu_set_onu_state onu_oper; /* declare main API struct */ |
| bcmolt_onu_state onu_state; |
| |
| onu_key.onu_id = onu_id; |
| onu_key.pon_ni = intf_id; |
| BCMOLT_CFG_INIT(&onu_cfg, onu, onu_key); |
| BCMOLT_FIELD_SET_PRESENT(&onu_cfg.data, onu_cfg_data, onu_state); |
| #ifdef TEST_MODE |
| // It is impossible to mock the setting of onu_cfg.data.onu_state because |
| // the actual bcmolt_cfg_get passes the address of onu_cfg.hdr and we cannot |
| // set the onu_cfg.data.onu_state. So a new stub function is created and address |
| // of onu_cfg is passed. This is one-of case where we need to add test specific |
| // code in production code. |
| err = bcmolt_cfg_get__onu_state_stub(dev_id, &onu_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &onu_cfg.hdr); |
| #endif |
| OPENOLT_LOG(INFO, openolt_log_id, "Activate ONU : old state = %d, current state = %d\n", |
| onu_cfg.data.onu_old_state, onu_cfg.data.onu_state); |
| if (err == BCM_ERR_OK) { |
| if (onu_cfg.data.onu_state == BCMOLT_ONU_STATE_ACTIVE) { |
| OPENOLT_LOG(INFO, openolt_log_id, "ONU is already in ACTIVE state, \ |
| not processing this request for pon_intf=%d onu_id=%d\n", intf_id, onu_id); |
| return Status::OK; |
| } else if (onu_cfg.data.onu_state != BCMOLT_ONU_STATE_NOT_CONFIGURED && |
| onu_cfg.data.onu_state != BCMOLT_ONU_STATE_INACTIVE) { |
| // We need the ONU to be in NOT_CONFIGURED or INACTIVE state to further process the request |
| OPENOLT_LOG(ERROR, openolt_log_id, "ONU in an invalid state to process the request, \ |
| state=%d pon_intf=%d onu_id=%d\n", onu_cfg.data.onu_state, intf_id, onu_id); |
| return bcm_to_grpc_err(err, "Failed to activate ONU, invalid ONU state"); |
| } |
| } else { |
| // This should never happen. BAL GET should succeed for non-existant ONUs too. The state of such ONUs will be NOT_CONFIGURED |
| OPENOLT_LOG(ERROR, openolt_log_id, "ONU state query failed pon_intf=%d onu_id=%d\n", intf_id, onu_id); |
| return bcm_to_grpc_err(err, "onu get failed"); |
| } |
| |
| // If the ONU is not configured at all we need to first configure it |
| if (onu_cfg.data.onu_state == BCMOLT_ONU_STATE_NOT_CONFIGURED) { |
| OPENOLT_LOG(INFO, openolt_log_id, "Configuring ONU %d on PON %d : vendor id %s, \ |
| vendor specific %s, pir %d\n", onu_id, intf_id, vendor_id, |
| vendor_specific_to_str(vendor_specific).c_str(), pir); |
| |
| memcpy(serial_number.vendor_id.arr, vendor_id, 4); |
| memcpy(serial_number.vendor_specific.arr, vendor_specific, 4); |
| BCMOLT_CFG_INIT(&onu_cfg, onu, onu_key); |
| BCMOLT_MSG_FIELD_SET(&onu_cfg, itu.serial_number, serial_number); |
| BCMOLT_MSG_FIELD_SET(&onu_cfg, itu.auto_learning, BCMOS_TRUE); |
| /*set burst and data profiles to fec disabled*/ |
| if (board_technology == "XGS-PON") { |
| BCMOLT_MSG_FIELD_SET(&onu_cfg, itu.xgpon.ranging_burst_profile, 2); |
| BCMOLT_MSG_FIELD_SET(&onu_cfg, itu.xgpon.data_burst_profile, 1); |
| } else if (board_technology == "GPON") { |
| BCMOLT_MSG_FIELD_SET(&onu_cfg, itu.gpon.ds_ber_reporting_interval, 1000000); |
| BCMOLT_MSG_FIELD_SET(&onu_cfg, itu.gpon.omci_port_id, onu_id); |
| } |
| err = bcmolt_cfg_set(dev_id, &onu_cfg.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to configure ONU %d on PON %d, err = %s (%d)\n", onu_id, intf_id, onu_cfg.hdr.hdr.err_text, err); |
| return bcm_to_grpc_err(err, "Failed to configure ONU"); |
| } |
| } |
| |
| // TODO: MOVE THIS TO A NEW METHOD |
| if (omcc_encryption_mode == true) { |
| // set the encryption mode for omci port id |
| bcmolt_itupon_gem_cfg gem_cfg; |
| bcmolt_itupon_gem_key key = {}; |
| bcmolt_gem_port_configuration configuration = {}; |
| key.pon_ni = intf_id; |
| key.gem_port_id = onu_id; |
| bcmolt_control_state encryption_mode; |
| encryption_mode = BCMOLT_CONTROL_STATE_ENABLE; |
| BCMOLT_CFG_INIT(&gem_cfg, itupon_gem, key); |
| BCMOLT_FIELD_SET(&gem_cfg.data, itupon_gem_cfg_data, encryption_mode, encryption_mode); |
| err = bcmolt_cfg_set(dev_id, &gem_cfg.hdr); |
| if(err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to configure omci gem_port encryption mode = %d, err = %s (%d)\n", onu_id, gem_cfg.hdr.hdr.err_text, err); |
| return bcm_to_grpc_err(err, "Access_Control set ITU PON OMCI Gem port failed"); |
| } |
| } |
| // Now that the ONU is configured, move the ONU to ACTIVE state |
| memset(&onu_cfg, 0, sizeof(bcmolt_onu_cfg)); |
| BCMOLT_CFG_INIT(&onu_cfg, onu, onu_key); |
| BCMOLT_FIELD_SET_PRESENT(&onu_cfg.data, onu_cfg_data, onu_state); |
| BCMOLT_OPER_INIT(&onu_oper, onu, set_onu_state, onu_key); |
| BCMOLT_FIELD_SET(&onu_oper.data, onu_set_onu_state_data, |
| onu_state, BCMOLT_ONU_OPERATION_ACTIVE); |
| err = bcmolt_oper_submit(dev_id, &onu_oper.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to activate ONU %d on PON %d, err = %s\n", onu_id, intf_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to activate ONU"); |
| } |
| // ONU will eventually get activated after we have submitted the operation request. The adapter will receive an asynchronous |
| // ONU_ACTIVATION_COMPLETED_INDICATION |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Activated ONU, onu_id %d on PON %d\n", onu_id, intf_id); |
| |
| return Status::OK; |
| } |
| |
| Status DeactivateOnu_(uint32_t intf_id, uint32_t onu_id, |
| const char *vendor_id, const char *vendor_specific) { |
| bcmos_errno err = BCM_ERR_OK; |
| bcmolt_onu_set_onu_state onu_oper; /* declare main API struct */ |
| bcmolt_onu_cfg onu_cfg; |
| bcmolt_onu_key onu_key; /**< Object key. */ |
| bcmolt_onu_state onu_state; |
| |
| onu_key.onu_id = onu_id; |
| onu_key.pon_ni = intf_id; |
| BCMOLT_CFG_INIT(&onu_cfg, onu, onu_key); |
| BCMOLT_FIELD_SET_PRESENT(&onu_cfg.data, onu_cfg_data, onu_state); |
| err = bcmolt_cfg_get(dev_id, &onu_cfg.hdr); |
| onu_state = onu_cfg.data.onu_state; |
| if (err == BCM_ERR_OK) { |
| switch (onu_state) { |
| case BCMOLT_ONU_STATE_ACTIVE: |
| BCMOLT_OPER_INIT(&onu_oper, onu, set_onu_state, onu_key); |
| BCMOLT_FIELD_SET(&onu_oper.data, onu_set_onu_state_data, |
| onu_state, BCMOLT_ONU_OPERATION_INACTIVE); |
| err = bcmolt_oper_submit(dev_id, &onu_oper.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to deactivate ONU %d on PON %d, err = %s\n", onu_id, intf_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to deactivate ONU"); |
| } |
| OPENOLT_LOG(INFO, openolt_log_id, "Deactivated ONU, onu_id %d on PON %d\n", onu_id, intf_id); |
| break; |
| } |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to deactivate ONU %d on PON %d, err = %s\n", onu_id, intf_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to get onu config"); |
| } |
| |
| return Status::OK; |
| } |
| |
| Status DeleteOnu_(uint32_t intf_id, uint32_t onu_id, |
| const char *vendor_id, const char *vendor_specific) { |
| bcmos_errno err = BCM_ERR_OK; |
| bcmolt_onu_state onu_state; |
| Status st; |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "DeleteOnu ONU %d on PON %d : vendor id %s, vendor specific %s\n", |
| onu_id, intf_id, vendor_id, vendor_specific_to_str(vendor_specific).c_str()); |
| |
| // Need to deactivate before removing it (BAL rules) |
| st = DeactivateOnu_(intf_id, onu_id, vendor_id, vendor_specific); |
| if (st.error_code() != grpc::StatusCode::OK) { |
| return st; |
| } |
| |
| err = get_onu_state((bcmolt_interface)intf_id, onu_id, &onu_state); |
| if (err == BCM_ERR_OK) { |
| if (onu_state != BCMOLT_ONU_STATE_INACTIVE) { |
| OPENOLT_LOG(INFO, openolt_log_id, "waiting for onu deactivate complete response: intf_id=%d, onu_id=%d\n", |
| intf_id, onu_id); |
| err = wait_for_onu_deactivate_complete(intf_id, onu_id); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to delete onu intf_id %d, onu_id %d\n", |
| intf_id, onu_id); |
| return bcm_to_grpc_err(err, "Failed to delete ONU"); |
| } |
| } |
| else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Onu is Inactive, onu_id: %d, not waiting for onu deactivate complete response\n", |
| intf_id); |
| } |
| } |
| else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to fetch Onu status, onu_id = %d, intf_id = %d, err = %s\n", |
| onu_id, intf_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to delete ONU"); |
| } |
| |
| bcmolt_onu_cfg cfg_obj; |
| bcmolt_onu_key key; |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Processing onu cfg clear for onu_id %d and intf_id %d\n", |
| onu_id, intf_id); |
| |
| key.onu_id = onu_id; |
| key.pon_ni = intf_id; |
| BCMOLT_CFG_INIT(&cfg_obj, onu, key); |
| |
| err = bcmolt_cfg_clear(dev_id, &cfg_obj.hdr); |
| if (err != BCM_ERR_OK) |
| { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to clear information for BAL onu_id %d, Interface ID %d, err = %s (%d)\n", onu_id, intf_id, cfg_obj.hdr.hdr.err_text, err); |
| return Status(grpc::StatusCode::INTERNAL, "Failed to delete ONU"); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Deleted ONU, onu_id %d on PON %d\n", onu_id, intf_id); |
| return Status::OK; |
| } |
| |
| #define MAX_CHAR_LENGTH 20 |
| #define MAX_OMCI_MSG_LENGTH 44 |
| Status OmciMsgOut_(uint32_t intf_id, uint32_t onu_id, const std::string pkt) { |
| bcmolt_bin_str buf = {}; |
| bcmolt_onu_cpu_packets omci_cpu_packets; |
| bcmolt_onu_key key; |
| |
| key.pon_ni = intf_id; |
| key.onu_id = onu_id; |
| |
| BCMOLT_OPER_INIT(&omci_cpu_packets, onu, cpu_packets, key); |
| BCMOLT_MSG_FIELD_SET(&omci_cpu_packets, packet_type, BCMOLT_PACKET_TYPE_OMCI); |
| BCMOLT_MSG_FIELD_SET(&omci_cpu_packets, calc_crc, BCMOS_TRUE); |
| |
| // ??? |
| if ((pkt.size()/2) > MAX_OMCI_MSG_LENGTH) { |
| buf.len = MAX_OMCI_MSG_LENGTH; |
| } else { |
| buf.len = pkt.size()/2; |
| } |
| |
| /* Send the OMCI packet using the BAL remote proxy API */ |
| uint16_t idx1 = 0; |
| uint16_t idx2 = 0; |
| uint8_t arraySend[buf.len]; |
| char str1[MAX_CHAR_LENGTH]; |
| char str2[MAX_CHAR_LENGTH]; |
| memset(&arraySend, 0, buf.len); |
| |
| for (idx1=0,idx2=0; idx1<((buf.len)*2); idx1++,idx2++) { |
| sprintf(str1,"%c", pkt[idx1]); |
| sprintf(str2,"%c", pkt[++idx1]); |
| strcat(str1,str2); |
| arraySend[idx2] = strtol(str1, NULL, 16); |
| } |
| |
| buf.arr = (uint8_t *)malloc((buf.len)*sizeof(uint8_t)); |
| memcpy(buf.arr, (uint8_t *)arraySend, buf.len); |
| |
| BCMOLT_MSG_FIELD_SET(&omci_cpu_packets, number_of_packets, 1); |
| BCMOLT_MSG_FIELD_SET(&omci_cpu_packets, packet_size, buf.len); |
| BCMOLT_MSG_FIELD_SET(&omci_cpu_packets, buffer, buf); |
| |
| bcmos_errno err = bcmolt_oper_submit(dev_id, &omci_cpu_packets.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Error sending OMCI message to ONU %d on PON %d, err = %s\n", onu_id, intf_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "send OMCI failed"); |
| } else { |
| OPENOLT_LOG(DEBUG, omci_log_id, "OMCI request msg of length %d sent to ONU %d on PON %d : %s\n", |
| buf.len, onu_id, intf_id, pkt.c_str()); |
| } |
| free(buf.arr); |
| |
| return Status::OK; |
| } |
| |
| Status OnuPacketOut_(uint32_t intf_id, uint32_t onu_id, uint32_t port_no, uint32_t gemport_id, const std::string pkt) { |
| bcmolt_pon_interface_cpu_packets pon_interface_cpu_packets; /**< declare main API struct */ |
| bcmolt_pon_interface_key key = {.pon_ni = (bcmolt_interface)intf_id}; /**< declare key */ |
| bcmolt_bin_str buf = {}; |
| bcmolt_gem_port_id gem_port_id_array[1]; |
| bcmolt_gem_port_id_list_u8_max_16 gem_port_list = {}; |
| |
| if (port_no > 0) { |
| bool found = false; |
| if (gemport_id == 0) { |
| bcmos_fastlock_lock(&data_lock); |
| // Map the port_no to one of the flows that owns it to find a gemport_id for that flow. |
| // Pick any flow that is mapped with the same port_no. |
| std::map<uint32_t, std::set<uint32_t> >::const_iterator it = port_to_flows.find(port_no); |
| if (it != port_to_flows.end() && !it->second.empty()) { |
| uint32_t flow_id = *(it->second.begin()); // Pick any flow_id out of the bag set |
| std::map<uint32_t, uint32_t>::const_iterator fit = flowid_to_gemport.find(flow_id); |
| if (fit != flowid_to_gemport.end()) { |
| found = true; |
| gemport_id = fit->second; |
| } |
| } |
| bcmos_fastlock_unlock(&data_lock, 0); |
| |
| if (!found) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Packet out failed to find destination for ONU %d port_no %u on PON %d\n", |
| onu_id, port_no, intf_id); |
| return grpc::Status(grpc::StatusCode::NOT_FOUND, "no flow for port_no"); |
| } |
| OPENOLT_LOG(INFO, openolt_log_id, "Gem port %u found for ONU %d port_no %u on PON %d\n", |
| gemport_id, onu_id, port_no, intf_id); |
| } |
| |
| gem_port_id_array[0] = gemport_id; |
| gem_port_list.len = 1; |
| gem_port_list.arr = gem_port_id_array; |
| buf.len = pkt.size(); |
| buf.arr = (uint8_t *)malloc((buf.len)*sizeof(uint8_t)); |
| memcpy(buf.arr, (uint8_t *)pkt.data(), buf.len); |
| |
| /* init the API struct */ |
| BCMOLT_OPER_INIT(&pon_interface_cpu_packets, pon_interface, cpu_packets, key); |
| BCMOLT_MSG_FIELD_SET(&pon_interface_cpu_packets, packet_type, BCMOLT_PACKET_TYPE_ETH); |
| BCMOLT_MSG_FIELD_SET(&pon_interface_cpu_packets, calc_crc, BCMOS_TRUE); |
| BCMOLT_MSG_FIELD_SET(&pon_interface_cpu_packets, gem_port_list, gem_port_list); |
| BCMOLT_MSG_FIELD_SET(&pon_interface_cpu_packets, buffer, buf); |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Packet out of length %d sent to gemport %d on pon %d port_no %u\n", |
| (uint8_t)pkt.size(), gemport_id, intf_id, port_no); |
| |
| /* call API */ |
| bcmolt_oper_submit(dev_id, &pon_interface_cpu_packets.hdr); |
| } |
| else { |
| //TODO: Port No is 0, it is coming sender requirement. |
| OPENOLT_LOG(INFO, openolt_log_id, "port_no %d onu %d on pon %d\n", |
| port_no, onu_id, intf_id); |
| } |
| free(buf.arr); |
| |
| return Status::OK; |
| } |
| |
| Status UplinkPacketOut_(uint32_t intf_id, const std::string pkt) { |
| bcmolt_flow_key key = {}; /* declare key */ |
| bcmolt_bin_str buffer = {}; |
| bcmolt_flow_send_eth_packet oper; /* declare main API struct */ |
| |
| // TODO: flow_id is currently not passed in UplinkPacket message from voltha. |
| bcmolt_flow_id flow_id = INVALID_FLOW_ID; |
| |
| //validate flow_id and find flow_id/flow type: upstream/ingress type: PON/egress type: NNI |
| if (get_flow_status(flow_id, BCMOLT_FLOW_TYPE_UPSTREAM, FLOW_TYPE) == BCMOLT_FLOW_TYPE_UPSTREAM && \ |
| get_flow_status(flow_id, BCMOLT_FLOW_TYPE_UPSTREAM, INGRESS_INTF_TYPE) == BCMOLT_FLOW_INTERFACE_TYPE_PON && \ |
| get_flow_status(flow_id, BCMOLT_FLOW_TYPE_UPSTREAM, EGRESS_INTF_TYPE) == BCMOLT_FLOW_INTERFACE_TYPE_NNI) |
| key.flow_id = flow_id; |
| else { |
| if (flow_id_counters) { |
| std::map<flow_pair, int>::iterator it; |
| for(it = flow_map.begin(); it != flow_map.end(); it++) { |
| int flow_index = it->first.first; |
| if (get_flow_status(flow_index, BCMOLT_FLOW_TYPE_UPSTREAM, FLOW_TYPE) == BCMOLT_FLOW_TYPE_UPSTREAM && \ |
| get_flow_status(flow_index, BCMOLT_FLOW_TYPE_UPSTREAM, INGRESS_INTF_TYPE) == BCMOLT_FLOW_INTERFACE_TYPE_PON && \ |
| get_flow_status(flow_index, BCMOLT_FLOW_TYPE_UPSTREAM, EGRESS_INTF_TYPE) == BCMOLT_FLOW_INTERFACE_TYPE_NNI) { |
| key.flow_id = flow_index; |
| break; |
| } |
| } |
| } |
| else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "no flow id found for uplink packetout\n"); |
| return grpc::Status(grpc::StatusCode::NOT_FOUND, "no flow id found"); |
| } |
| } |
| |
| key.flow_type = BCMOLT_FLOW_TYPE_UPSTREAM; /* send from uplink direction */ |
| |
| /* Initialize the API struct. */ |
| BCMOLT_OPER_INIT(&oper, flow, send_eth_packet, key); |
| |
| buffer.len = pkt.size(); |
| buffer.arr = (uint8_t *)malloc((buffer.len)*sizeof(uint8_t)); |
| memcpy(buffer.arr, (uint8_t *)pkt.data(), buffer.len); |
| if (buffer.arr == NULL) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "allocate packet buffer failed\n"); |
| return bcm_to_grpc_err(BCM_ERR_PARM, "allocate packet buffer failed"); |
| } |
| BCMOLT_FIELD_SET(&oper.data, flow_send_eth_packet_data, buffer, buffer); |
| |
| bcmos_errno err = bcmolt_oper_submit(dev_id, &oper.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Error sending packets via nni port %d, flow_id %d, err = %s\n", intf_id, key.flow_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(BCM_ERR_SYSCALL_ERR, "Error sending packets via nni port"); |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "sent packets to port %d in upstream direction, flow_id %d \n", intf_id, key.flow_id); |
| } |
| |
| return Status::OK; |
| } |
| |
| bool get_aes_flag_for_gem_port(const google::protobuf::Map<unsigned int, bool> &gemport_to_aes, uint32_t gemport_id) { |
| bool aes_flag = false; |
| for (google::protobuf::Map<unsigned int, bool>::const_iterator it=gemport_to_aes.begin(); it!=gemport_to_aes.end(); it++) { |
| if (it->first == gemport_id) { |
| aes_flag = it->second; |
| break; |
| } |
| } |
| return aes_flag; |
| } |
| |
| Status FlowAddWrapper_(const ::openolt::Flow* request) { |
| |
| Status st = Status::OK; |
| int32_t access_intf_id = request->access_intf_id(); |
| int32_t onu_id = request->onu_id(); |
| int32_t uni_id = request->uni_id(); |
| uint32_t port_no = request->port_no(); |
| uint64_t voltha_flow_id = request->flow_id(); |
| uint64_t symmetric_voltha_flow_id = 0; |
| const std::string flow_type = request->flow_type(); |
| int32_t alloc_id = request->alloc_id(); |
| int32_t network_intf_id = request->network_intf_id(); |
| int32_t gemport_id = request->gemport_id(); |
| const ::openolt::Classifier& classifier = request->classifier(); |
| const ::openolt::Action& action = request->action(); |
| int32_t priority = request->priority(); |
| uint64_t cookie = request->cookie(); |
| int32_t group_id = request->group_id(); |
| uint32_t tech_profile_id = request->tech_profile_id(); |
| bool replicate_flow = request->replicate_flow(); |
| const google::protobuf::Map<unsigned int, unsigned int> &pbit_to_gemport = request->pbit_to_gemport(); |
| const google::protobuf::Map<unsigned int, bool> &gemport_to_aes = request->gemport_to_aes(); |
| uint16_t flow_id; |
| bool enable_encryption; |
| // When following conditions are ALL met, it qualifies as datapath flow. |
| // 1. valid access_intf_id, onu_id, uni_id |
| // 2. Valid tech_profile_id |
| // 3. flow_type that is not MULTICAST |
| // 4. Not a trap-to-host flow. |
| bool datapathFlow = access_intf_id >= 0 && onu_id >= 0 && uni_id >= 0 && tech_profile_id > 0 |
| && flow_type != multicast && !action.cmd().trap_to_host(); |
| |
| if (datapathFlow) { |
| const std::string inverse_flow_type = flow_type == upstream? downstream : upstream; |
| symmetric_datapath_flow_id_map_key key(access_intf_id, onu_id, uni_id, tech_profile_id, inverse_flow_type); |
| // Find the onu-uni mapping for the pon-gem key |
| bcmos_fastlock_lock(&symmetric_datapath_flow_id_lock); |
| auto it = symmetric_datapath_flow_id_map.find(key); |
| bcmos_fastlock_unlock(&symmetric_datapath_flow_id_lock, 0); |
| if (it != symmetric_datapath_flow_id_map.end()) { |
| symmetric_voltha_flow_id = it->second; |
| } |
| } |
| |
| // The intf_id variable defaults to access(PON) interface ID. |
| // For trap-from-nni flow where access interface ID is not valid , change it to NNI interface ID |
| // This intf_id identifies the pool from which we get the flow_id |
| uint32_t intf_id = access_intf_id; |
| if (onu_id < 1) { |
| onu_id = 1; |
| } |
| if (access_intf_id < 0) { |
| intf_id = network_intf_id; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "received flow add. voltha_flow_id=%lu, symmetric_voltha_flow_id=%lu, replication=%d\n", voltha_flow_id, symmetric_voltha_flow_id, replicate_flow) |
| // This is the case of voltha_flow_id (not symmetric_voltha_flow_id) |
| if (is_voltha_flow_installed(voltha_flow_id)) { |
| OPENOLT_LOG(INFO, openolt_log_id, "voltha_flow_id=%lu, already installed\n", voltha_flow_id); |
| return ::Status(grpc::StatusCode::ALREADY_EXISTS, "voltha-flow-already-installed"); |
| } |
| |
| // This is the case of symmetric_voltha_flow_id |
| // If symmetric_voltha_flow_id is available and valid in the Flow message, |
| // check if it is installed, and use the corresponding device_flow_id |
| if (symmetric_voltha_flow_id > 0 && is_voltha_flow_installed(symmetric_voltha_flow_id)) { // symmetric flow found |
| OPENOLT_LOG(INFO, openolt_log_id, "symmetric flow and the symmetric flow is installed\n"); |
| const device_flow_params *dev_fl_symm_params; |
| dev_fl_symm_params = get_device_flow_params(symmetric_voltha_flow_id); |
| if (dev_fl_symm_params == NULL) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "symmetric flow device params not found symm-voltha-flow=%lu voltha-flow=%lu\n", symmetric_voltha_flow_id, voltha_flow_id) |
| return ::Status(grpc::StatusCode::INTERNAL, "symmetric-flow-details-not-found"); |
| } |
| |
| if (!replicate_flow) { // No flow replication |
| flow_id = dev_fl_symm_params[0].flow_id; |
| gemport_id = dev_fl_symm_params[0].gemport_id; // overwrite the gemport with symmetric flow gemport |
| // Should be same as what is coming in this request. |
| enable_encryption = get_aes_flag_for_gem_port(gemport_to_aes, gemport_id); |
| ::openolt::Classifier cl = ::openolt::Classifier(classifier); |
| cl.set_o_pbits(dev_fl_symm_params[0].pbit); |
| st = FlowAdd_(access_intf_id, onu_id, uni_id, port_no, flow_id, |
| flow_type, alloc_id, network_intf_id, gemport_id, cl, |
| action, priority, cookie, group_id, tech_profile_id, enable_encryption); |
| if (st.error_code() != grpc::StatusCode::OK && st.error_code() != grpc::StatusCode::ALREADY_EXISTS) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to install device flow=%u for voltha flow=%lu", flow_id, voltha_flow_id); |
| free_flow_id(flow_id); |
| return st; |
| } |
| |
| device_flow dev_fl; |
| dev_fl.is_flow_replicated = false; |
| dev_fl.symmetric_voltha_flow_id = symmetric_voltha_flow_id; |
| dev_fl.voltha_flow_id = voltha_flow_id; |
| dev_fl.flow_type = flow_type; |
| memcpy(dev_fl.params, dev_fl_symm_params, sizeof(device_flow_params)); |
| // update voltha flow to cache |
| update_voltha_flow_to_cache(voltha_flow_id, dev_fl); |
| } else { // Flow to be replicated |
| OPENOLT_LOG(INFO, openolt_log_id,"symmetric flow and replication is needed\n"); |
| for (uint8_t i=0; i<NUMBER_OF_REPLICATED_FLOWS; i++) { |
| ::openolt::Classifier cl = ::openolt::Classifier(classifier); |
| flow_id = dev_fl_symm_params[i].flow_id; |
| gemport_id = dev_fl_symm_params[i].gemport_id; |
| enable_encryption = get_aes_flag_for_gem_port(gemport_to_aes, gemport_id); |
| cl.set_o_pbits(dev_fl_symm_params[i].pbit); |
| st = FlowAdd_(access_intf_id, onu_id, uni_id, port_no, flow_id, |
| flow_type, alloc_id, network_intf_id, gemport_id, cl, |
| action, priority, cookie, group_id, tech_profile_id, enable_encryption); |
| if (st.error_code() != grpc::StatusCode::OK && st.error_code() != grpc::StatusCode::ALREADY_EXISTS) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to install device flow=%u for voltha flow=%lu. Undoing any device flows installed.", flow_id, voltha_flow_id); |
| // On failure remove any successfully replicated flows installed so far for the voltha_flow_id |
| if (i > 0) { |
| for (int8_t j = i-1; j >= 0; j--) { |
| flow_id = dev_fl_symm_params[j].flow_id; |
| FlowRemove_(flow_id, flow_type); |
| } |
| } |
| // Note: We should not free the flow_ids here because the symmetric flow is already using that flow id. |
| // A call from voltha adapter should invoke a flow remove and then the flow ids would be freed in the process in this particular case |
| return st; |
| } |
| } |
| device_flow dev_fl; |
| dev_fl.is_flow_replicated = true; |
| dev_fl.symmetric_voltha_flow_id = symmetric_voltha_flow_id; |
| dev_fl.voltha_flow_id = voltha_flow_id; |
| dev_fl.flow_type = flow_type; |
| memcpy(dev_fl.params, dev_fl_symm_params, sizeof(device_flow_params)*NUMBER_OF_REPLICATED_FLOWS); |
| // update voltha flow to cache |
| update_voltha_flow_to_cache(voltha_flow_id, dev_fl); |
| } |
| } else { // No symmetric flow found |
| if (!replicate_flow) { // No flow replication |
| OPENOLT_LOG(INFO, openolt_log_id, "not a symmetric flow and replication is not needed\n"); |
| flow_id = get_flow_id(); |
| if (flow_id == INVALID_FLOW_ID) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "could not allocated flow id for voltha-flow-id=%lu\n", voltha_flow_id); |
| return ::Status(grpc::StatusCode::RESOURCE_EXHAUSTED, "flow-ids-exhausted"); |
| } |
| enable_encryption = get_aes_flag_for_gem_port(gemport_to_aes, gemport_id); |
| st = FlowAdd_(access_intf_id, onu_id, uni_id, port_no, flow_id, |
| flow_type, alloc_id, network_intf_id, gemport_id, classifier, |
| action, priority, cookie, group_id, tech_profile_id, enable_encryption); |
| if (st.error_code() == grpc::StatusCode::OK) { |
| device_flow dev_fl; |
| dev_fl.is_flow_replicated = false; |
| dev_fl.symmetric_voltha_flow_id = INVALID_FLOW_ID; // Invalid |
| dev_fl.voltha_flow_id = voltha_flow_id; |
| dev_fl.flow_type = flow_type; |
| dev_fl.params[0].flow_id = flow_id; |
| dev_fl.params[0].gemport_id = gemport_id; |
| dev_fl.params[0].pbit = classifier.o_pbits(); |
| // update voltha flow to cache |
| update_voltha_flow_to_cache(voltha_flow_id, dev_fl); |
| } else { |
| // Free the flow id on failure |
| free_flow_id(flow_id); |
| return st; |
| } |
| } else { // Flow to be replicated |
| OPENOLT_LOG(INFO, openolt_log_id,"not a symmetric flow and replication is needed\n"); |
| if (pbit_to_gemport.size() != NUMBER_OF_PBITS) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "invalid pbit-to-gemport map size=%lu", pbit_to_gemport.size()) |
| return ::Status(grpc::StatusCode::OUT_OF_RANGE, "pbit-to-gemport-map-len-invalid-for-flow-replication"); |
| } |
| uint16_t flow_ids[NUMBER_OF_REPLICATED_FLOWS]; |
| device_flow dev_fl; |
| if (get_flow_ids(NUMBER_OF_REPLICATED_FLOWS, flow_ids)) { |
| uint8_t cnt = 0; |
| dev_fl.is_flow_replicated = true; |
| dev_fl.voltha_flow_id = voltha_flow_id; |
| dev_fl.symmetric_voltha_flow_id = INVALID_FLOW_ID; // invalid |
| dev_fl.flow_type = flow_type; |
| for (google::protobuf::Map<unsigned int, unsigned int>::const_iterator it=pbit_to_gemport.begin(); it!=pbit_to_gemport.end(); it++) { |
| dev_fl.params[cnt].flow_id = flow_ids[cnt]; |
| dev_fl.params[cnt].pbit = it->first; |
| dev_fl.params[cnt].gemport_id = it->second; |
| |
| ::openolt::Classifier cl = ::openolt::Classifier(classifier); |
| flow_id = dev_fl.params[cnt].flow_id; |
| gemport_id = dev_fl.params[cnt].gemport_id; |
| enable_encryption = get_aes_flag_for_gem_port(gemport_to_aes, gemport_id); |
| cl.set_o_pbits(dev_fl.params[cnt].pbit); |
| st = FlowAdd_(access_intf_id, onu_id, uni_id, port_no, flow_id, |
| flow_type, alloc_id, network_intf_id, gemport_id, cl, |
| action, priority, cookie, group_id, tech_profile_id, enable_encryption); |
| if (st.error_code() != grpc::StatusCode::OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to install device flow=%u for voltha flow=%lu. Undoing any device flows installed.", flow_id, voltha_flow_id); |
| // Remove any successfully replicated flows installed so far for the voltha_flow_id |
| if (cnt > 0) { |
| for (int8_t j = cnt-1; j >= 0; j--) { |
| flow_id = dev_fl.params[j].flow_id; |
| FlowRemove_(flow_id, flow_type); |
| } |
| } |
| // Free up all the flow IDs on failure |
| free_flow_ids(NUMBER_OF_REPLICATED_FLOWS, flow_ids); |
| return st; |
| } |
| cnt++; |
| } |
| // On successful flow replication update voltha-flow-id to device-flow map to cache |
| update_voltha_flow_to_cache(voltha_flow_id, dev_fl); |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "could not allocate flow ids for replication voltha-flow-id=%lu\n", voltha_flow_id); |
| return ::Status(grpc::StatusCode::RESOURCE_EXHAUSTED, "flow-ids-exhausted"); |
| } |
| } |
| } |
| |
| if (datapathFlow) { |
| // Create the pon-gem to onu-uni mapping |
| symmetric_datapath_flow_id_map_key key(access_intf_id, onu_id, uni_id, tech_profile_id, flow_type); |
| bcmos_fastlock_lock(&symmetric_datapath_flow_id_lock); |
| symmetric_datapath_flow_id_map[key] = voltha_flow_id; |
| bcmos_fastlock_unlock(&symmetric_datapath_flow_id_lock, 0); |
| } |
| |
| return st; |
| } |
| |
| |
| 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 aes_enabled) { |
| bcmolt_flow_cfg cfg; |
| bcmolt_flow_key key = { }; /**< Object key. */ |
| int32_t o_vid = -1; |
| bool single_tag = false; |
| uint32_t ether_type = 0; |
| bcmolt_classifier c_val = { }; |
| bcmolt_action a_val = { }; |
| bcmolt_tm_queue_ref tm_val = { }; |
| int tm_qmp_id, tm_q_set_id; |
| bcmolt_egress_qos_type qos_type; |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "flow add received for flow_id=%u, flow_type=%s\n", flow_id, flow_type.c_str()); |
| |
| key.flow_id = flow_id; |
| if (flow_type == upstream) { |
| key.flow_type = BCMOLT_FLOW_TYPE_UPSTREAM; |
| } else if (flow_type == downstream) { |
| key.flow_type = BCMOLT_FLOW_TYPE_DOWNSTREAM; |
| } else if (flow_type == multicast) { |
| key.flow_type = BCMOLT_FLOW_TYPE_MULTICAST; |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Invalid flow type %s\n", flow_type.c_str()); |
| return bcm_to_grpc_err(BCM_ERR_PARM, "Invalid flow type"); |
| } |
| |
| BCMOLT_CFG_INIT(&cfg, flow, key); |
| BCMOLT_MSG_FIELD_SET(&cfg, cookie, cookie); |
| |
| if (action.cmd().trap_to_host()) { |
| Status resp = handle_acl_rule_install(onu_id, flow_id, gemport_id, flow_type, access_intf_id, |
| network_intf_id, classifier); |
| return resp; |
| } |
| |
| if (key.flow_type != BCMOLT_FLOW_TYPE_MULTICAST) { |
| |
| if (access_intf_id >= 0 && network_intf_id >= 0) { |
| if (key.flow_type == BCMOLT_FLOW_TYPE_UPSTREAM) { //upstream |
| BCMOLT_MSG_FIELD_SET(&cfg, ingress_intf.intf_type, BCMOLT_FLOW_INTERFACE_TYPE_PON); |
| BCMOLT_MSG_FIELD_SET(&cfg, ingress_intf.intf_id, access_intf_id); |
| BCMOLT_MSG_FIELD_SET(&cfg, egress_intf.intf_type, BCMOLT_FLOW_INTERFACE_TYPE_NNI); |
| BCMOLT_MSG_FIELD_SET(&cfg, egress_intf.intf_id, network_intf_id); |
| } else if (key.flow_type == BCMOLT_FLOW_TYPE_DOWNSTREAM) { //downstream |
| BCMOLT_MSG_FIELD_SET(&cfg, ingress_intf.intf_type, BCMOLT_FLOW_INTERFACE_TYPE_NNI); |
| BCMOLT_MSG_FIELD_SET(&cfg, ingress_intf.intf_id, network_intf_id); |
| BCMOLT_MSG_FIELD_SET(&cfg, egress_intf.intf_type, BCMOLT_FLOW_INTERFACE_TYPE_PON); |
| BCMOLT_MSG_FIELD_SET(&cfg, egress_intf.intf_id, access_intf_id); |
| } |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "flow network setting invalid\n"); |
| return bcm_to_grpc_err(BCM_ERR_PARM, "flow network setting invalid"); |
| } |
| |
| if (onu_id >= ONU_ID_START) { |
| BCMOLT_MSG_FIELD_SET(&cfg, onu_id, onu_id); |
| } |
| if (gemport_id >= GEM_PORT_ID_START) { |
| BCMOLT_MSG_FIELD_SET(&cfg, svc_port_id, gemport_id); |
| } |
| if (gemport_id >= GEM_PORT_ID_START && port_no != 0) { |
| bcmos_fastlock_lock(&data_lock); |
| if (key.flow_type == BCMOLT_FLOW_TYPE_DOWNSTREAM) { |
| port_to_flows[port_no].insert(key.flow_id); |
| flowid_to_gemport[key.flow_id] = gemport_id; |
| } |
| else |
| { |
| flowid_to_port[key.flow_id] = port_no; |
| } |
| bcmos_fastlock_unlock(&data_lock, 0); |
| } |
| |
| if (priority_value >= 0) { |
| BCMOLT_MSG_FIELD_SET(&cfg, priority, priority_value); |
| } |
| |
| } else { // MULTICAST FLOW |
| if (group_id >= 0) { |
| BCMOLT_MSG_FIELD_SET(&cfg, group_id, group_id); |
| } |
| BCMOLT_MSG_FIELD_SET(&cfg, ingress_intf.intf_type, BCMOLT_FLOW_INTERFACE_TYPE_NNI); |
| BCMOLT_MSG_FIELD_SET(&cfg, ingress_intf.intf_id, network_intf_id); |
| } |
| |
| { |
| if (classifier.eth_type()) { |
| ether_type = classifier.eth_type(); |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify ether_type 0x%04x\n", classifier.eth_type()); |
| BCMOLT_FIELD_SET(&c_val, classifier, ether_type, classifier.eth_type()); |
| } |
| |
| if (classifier.dst_mac().size() > 0) { |
| bcmos_mac_address d_mac = {}; |
| bcmos_mac_address_init(&d_mac); |
| memcpy(d_mac.u8, classifier.dst_mac().data(), sizeof(d_mac.u8)); |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify dst_mac %02x:%02x:%02x:%02x:%02x:%02x\n", d_mac.u8[0], |
| d_mac.u8[1], d_mac.u8[2], d_mac.u8[3], d_mac.u8[4], d_mac.u8[5]); |
| BCMOLT_FIELD_SET(&c_val, classifier, dst_mac, d_mac); |
| } |
| |
| if (classifier.src_mac().size() > 0) { |
| bcmos_mac_address s_mac = {}; |
| bcmos_mac_address_init(&s_mac); |
| memcpy(s_mac.u8, classifier.src_mac().data(), sizeof(s_mac.u8)); |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify src_mac %02x:%02x:%02x:%02x:%02x:%02x\n", s_mac.u8[0], |
| s_mac.u8[1], s_mac.u8[2], s_mac.u8[3], s_mac.u8[4], s_mac.u8[5]); |
| BCMOLT_FIELD_SET(&c_val, classifier, src_mac, s_mac); |
| } |
| |
| if (classifier.ip_proto()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify ip_proto %d\n", classifier.ip_proto()); |
| BCMOLT_FIELD_SET(&c_val, classifier, ip_proto, classifier.ip_proto()); |
| } |
| |
| if (classifier.dst_ip()) { |
| bcmos_ipv4_address d_ip = {}; |
| bcmos_ipv4_address_init(&d_ip); |
| d_ip.u32 = classifier.dst_ip(); |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify dst_ip %04x\n", d_ip.u32); |
| BCMOLT_FIELD_SET(&c_val, classifier, dst_ip, d_ip); |
| } |
| |
| /* |
| if (classifier.src_ip()) { |
| BCMBAL_ATTRIBUTE_PROP_SET(&val, classifier, src_ip, classifier.src_ip()); |
| } |
| */ |
| |
| if (classifier.src_port()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify src_port %d\n", classifier.src_port()); |
| BCMOLT_FIELD_SET(&c_val, classifier, src_port, classifier.src_port()); |
| } |
| |
| if (classifier.dst_port()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify dst_port %d\n", classifier.dst_port()); |
| BCMOLT_FIELD_SET(&c_val, classifier, dst_port, classifier.dst_port()); |
| } |
| |
| if (!classifier.pkt_tag_type().empty()) { |
| if (classifier.o_vid()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify o_vid %d\n", classifier.o_vid()); |
| BCMOLT_FIELD_SET(&c_val, classifier, o_vid, classifier.o_vid()); |
| } |
| |
| if (classifier.i_vid()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify i_vid %d\n", classifier.i_vid()); |
| BCMOLT_FIELD_SET(&c_val, classifier, i_vid, classifier.i_vid()); |
| } |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify tag_type %s\n", classifier.pkt_tag_type().c_str()); |
| if (classifier.pkt_tag_type().compare("untagged") == 0) { |
| BCMOLT_FIELD_SET(&c_val, classifier, pkt_tag_type, BCMOLT_PKT_TAG_TYPE_UNTAGGED); |
| } else if (classifier.pkt_tag_type().compare("single_tag") == 0) { |
| BCMOLT_FIELD_SET(&c_val, classifier, pkt_tag_type, BCMOLT_PKT_TAG_TYPE_SINGLE_TAG); |
| single_tag = true; |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify o_pbits 0x%x\n", classifier.o_pbits()); |
| // OpenOlt adapter will send 0xFF in case of no pbit classification |
| // If it is any other value (0 to 7), it is for outer pbit classification. |
| // OpenFlow protocol does not provide inner pbit classification (in case of double tagged packets), |
| // and VOLTHA has not used any workaround to solve this problem (for ex: use metadata field). |
| // Also there exists no use case for i-pbit classification, so we can safely ignore this for now. |
| if(0xFF != classifier.o_pbits()){ |
| BCMOLT_FIELD_SET(&c_val, classifier, o_pbits, classifier.o_pbits()); |
| } |
| } else if (classifier.pkt_tag_type().compare("double_tag") == 0) { |
| BCMOLT_FIELD_SET(&c_val, classifier, pkt_tag_type, BCMOLT_PKT_TAG_TYPE_DOUBLE_TAG); |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify o_pbits 0x%x\n", classifier.o_pbits()); |
| // Same comments as in case of "single_tag" packets. |
| // 0xFF means no pbit classification, otherwise a valid PCP (0 to 7). |
| if(0xFF != classifier.o_pbits()){ |
| BCMOLT_FIELD_SET(&c_val, classifier, o_pbits, classifier.o_pbits()); |
| } |
| } |
| } |
| BCMOLT_MSG_FIELD_SET(&cfg, classifier, c_val); |
| } |
| |
| const ::openolt::ActionCmd& cmd = action.cmd(); |
| |
| if (cmd.add_outer_tag()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "action add o_tag\n"); |
| BCMOLT_FIELD_SET(&a_val, action, cmds_bitmask, BCMOLT_ACTION_CMD_ID_ADD_OUTER_TAG); |
| } |
| |
| if (cmd.remove_outer_tag()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "action pop o_tag\n"); |
| BCMOLT_FIELD_SET(&a_val, action, cmds_bitmask, BCMOLT_ACTION_CMD_ID_REMOVE_OUTER_TAG); |
| } |
| |
| if (cmd.translate_outer_tag()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "action translate o_tag\n"); |
| BCMOLT_FIELD_SET(&a_val, action, cmds_bitmask, BCMOLT_ACTION_CMD_ID_XLATE_OUTER_TAG); |
| } |
| |
| if (action.o_vid()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "action o_vid=%d\n", action.o_vid()); |
| o_vid = action.o_vid(); |
| BCMOLT_FIELD_SET(&a_val, action, o_vid, action.o_vid()); |
| } |
| |
| if (action.o_pbits()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "action o_pbits=0x%x\n", action.o_pbits()); |
| BCMOLT_FIELD_SET(&a_val, action, o_pbits, action.o_pbits()); |
| } |
| |
| if (action.i_vid()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "action i_vid=%d\n", action.i_vid()); |
| BCMOLT_FIELD_SET(&a_val, action, i_vid, action.i_vid()); |
| } |
| |
| if (action.i_pbits()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "action i_pbits=0x%x\n", action.i_pbits()); |
| BCMOLT_FIELD_SET(&a_val, action, i_pbits, action.i_pbits()); |
| } |
| |
| BCMOLT_MSG_FIELD_SET(&cfg, action, a_val); |
| |
| if ((access_intf_id >= 0) && (onu_id >= ONU_ID_START)) { |
| qos_type = get_qos_type(access_intf_id, onu_id, uni_id); |
| if (key.flow_type == BCMOLT_FLOW_TYPE_DOWNSTREAM) { |
| tm_val.sched_id = get_tm_sched_id(access_intf_id, onu_id, uni_id, downstream, tech_profile_id); |
| |
| if (qos_type == BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE) { |
| // Queue 0 on DS subscriber scheduler |
| tm_val.queue_id = 0; |
| |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.type, qos_type); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.tm_sched.id, tm_val.sched_id); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.u.fixed_queue.queue_id, tm_val.queue_id); |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "direction = %s, queue_id = %d, sched_id = %d, intf_type %s\n", \ |
| downstream.c_str(), tm_val.queue_id, tm_val.sched_id, \ |
| GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type)); |
| |
| } else if (qos_type == BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE) { |
| /* Fetch TM QMP ID mapped to DS subscriber scheduler */ |
| tm_qmp_id = tm_q_set_id = get_tm_qmp_id(tm_val.sched_id, access_intf_id, onu_id, uni_id); |
| |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.type, qos_type); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.tm_sched.id, tm_val.sched_id); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.u.priority_to_queue.tm_qmp_id, tm_qmp_id); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.u.priority_to_queue.tm_q_set_id, tm_q_set_id); |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "direction = %s, q_set_id = %d, sched_id = %d, intf_type %s\n", \ |
| downstream.c_str(), tm_q_set_id, tm_val.sched_id, \ |
| GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type)); |
| } |
| } else if (key.flow_type == BCMOLT_FLOW_TYPE_UPSTREAM) { |
| // NNI Scheduler ID |
| tm_val.sched_id = get_default_tm_sched_id(network_intf_id, upstream); |
| if (qos_type == BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE) { |
| // Queue 0 on NNI scheduler |
| tm_val.queue_id = 0; |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.type, qos_type); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.tm_sched.id, tm_val.sched_id); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.u.fixed_queue.queue_id, tm_val.queue_id); |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "direction = %s, queue_id = %d, sched_id = %d, intf_type %s\n", \ |
| upstream.c_str(), tm_val.queue_id, tm_val.sched_id, \ |
| GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type)); |
| |
| } else if (qos_type == BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE) { |
| /* Fetch TM QMP ID mapped to US NNI scheduler */ |
| tm_qmp_id = tm_q_set_id = get_tm_qmp_id(tm_val.sched_id, access_intf_id, onu_id, uni_id); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.type, qos_type); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.tm_sched.id, tm_val.sched_id); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.u.priority_to_queue.tm_qmp_id, tm_qmp_id); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.u.priority_to_queue.tm_q_set_id, tm_q_set_id); |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "direction = %s, q_set_id = %d, sched_id = %d, intf_type %s\n", \ |
| upstream.c_str(), tm_q_set_id, tm_val.sched_id, \ |
| GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type)); |
| } |
| } |
| } else { |
| tm_val.sched_id = get_default_tm_sched_id(network_intf_id, upstream); |
| tm_val.queue_id = 0; |
| |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.type, BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.tm_sched.id, tm_val.sched_id); |
| BCMOLT_MSG_FIELD_SET(&cfg , egress_qos.u.fixed_queue.queue_id, tm_val.queue_id); |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "direction = %s, queue_id = %d, sched_id = %d, intf_type %s\n", \ |
| flow_type.c_str(), tm_val.queue_id, tm_val.sched_id, \ |
| GET_FLOW_INTERFACE_TYPE(cfg.data.ingress_intf.intf_type)); |
| } |
| |
| BCMOLT_MSG_FIELD_SET(&cfg, state, BCMOLT_FLOW_STATE_ENABLE); |
| |
| #ifndef SCALE_AND_PERF |
| // BAL 3.1 supports statistics only for unicast flows. |
| if (key.flow_type != BCMOLT_FLOW_TYPE_MULTICAST) { |
| BCMOLT_MSG_FIELD_SET(&cfg, statistics, BCMOLT_CONTROL_STATE_ENABLE); |
| } |
| #endif // SCALE_AND_PERF |
| |
| #ifndef SCALE_AND_PERF |
| #ifdef FLOW_CHECKER |
| //Flow Checker, To avoid duplicate flow. |
| if (flow_id_counters != 0) { |
| bool b_duplicate_flow = false; |
| std::map<flow_pair, int>::iterator it; |
| |
| for(it = flow_map.begin(); it != flow_map.end(); it++) { |
| b_duplicate_flow = (cfg.data.onu_id == get_flow_status(it->first.first, it->first.second, ONU_ID)) && \ |
| (key.flow_type == it->first.second) && \ |
| (cfg.data.svc_port_id == get_flow_status(it->first.first, it->first.second, SVC_PORT_ID)) && \ |
| (cfg.data.priority == get_flow_status(it->first.first, it->first.second, PRIORITY)) && \ |
| (cfg.data.cookie == get_flow_status(it->first.first, it->first.second, COOKIE)) && \ |
| (cfg.data.ingress_intf.intf_type == get_flow_status(it->first.first, it->first.second, INGRESS_INTF_TYPE)) && \ |
| (cfg.data.ingress_intf.intf_id == get_flow_status(it->first.first, it->first.second, INGRESS_INTF_ID)) && \ |
| (cfg.data.egress_intf.intf_type == get_flow_status(it->first.first, it->first.second, EGRESS_INTF_TYPE)) && \ |
| (cfg.data.egress_intf.intf_id == get_flow_status(it->first.first, it->first.second, EGRESS_INTF_ID)) && \ |
| (c_val.o_vid == get_flow_status(it->first.first, it->first.second, CLASSIFIER_O_VID)) && \ |
| (c_val.o_pbits == get_flow_status(it->first.first, it->first.second, CLASSIFIER_O_PBITS)) && \ |
| (c_val.i_vid == get_flow_status(it->first.first, it->first.second, CLASSIFIER_I_VID)) && \ |
| (c_val.i_pbits == get_flow_status(it->first.first, it->first.second, CLASSIFIER_I_PBITS)) && \ |
| (c_val.ether_type == get_flow_status(it->first.first, it->first.second, CLASSIFIER_ETHER_TYPE)) && \ |
| (c_val.ip_proto == get_flow_status(it->first.first, it->first.second, CLASSIFIER_IP_PROTO)) && \ |
| (c_val.src_port == get_flow_status(it->first.first, it->first.second, CLASSIFIER_SRC_PORT)) && \ |
| (c_val.dst_port == get_flow_status(it->first.first, it->first.second, CLASSIFIER_DST_PORT)) && \ |
| (c_val.pkt_tag_type == get_flow_status(it->first.first, it->first.second, CLASSIFIER_PKT_TAG_TYPE)) && \ |
| (cfg.data.egress_qos.type == get_flow_status(it->first.first, it->first.second, EGRESS_QOS_TYPE)) && \ |
| (cfg.data.egress_qos.u.fixed_queue.queue_id == get_flow_status(it->first.first, it->first.second, EGRESS_QOS_QUEUE_ID)) && \ |
| (cfg.data.egress_qos.tm_sched.id == get_flow_status(it->first.first, it->first.second, EGRESS_QOS_TM_SCHED_ID)) && \ |
| (a_val.cmds_bitmask == get_flow_status(it->first.first, it->first.second, ACTION_CMDS_BITMASK)) && \ |
| (a_val.o_vid == get_flow_status(it->first.first, it->first.second, ACTION_O_VID)) && \ |
| (a_val.i_vid == get_flow_status(it->first.first, it->first.second, ACTION_I_VID)) && \ |
| (a_val.o_pbits == get_flow_status(it->first.first, it->first.second, ACTION_O_PBITS)) && \ |
| (a_val.i_pbits == get_flow_status(it->first.first, it->first.second, ACTION_I_PBITS)) && \ |
| (cfg.data.state == get_flow_status(it->first.first, it->first.second, STATE)) && \ |
| (cfg.data.group_id == get_flow_status(it->first.first, it->first.second, GROUP_ID)); |
| #ifdef SHOW_FLOW_PARAM |
| // Flow Parameter |
| FLOW_PARAM_LOG(); |
| #endif |
| if (b_duplicate_flow) { |
| FLOW_LOG(WARNING, "Flow duplicate", 0); |
| return bcm_to_grpc_err(BCM_ERR_ALREADY, "flow exists"); |
| } |
| } |
| } |
| #endif // FLOW_CHECKER |
| #endif // SCALE_AND_PERF |
| |
| bcmos_errno err = bcmolt_cfg_set(dev_id, &cfg.hdr); |
| if (err) { |
| FLOW_LOG(ERROR, "Flow add failed", err); |
| return bcm_to_grpc_err(err, "flow add failed"); |
| } else { |
| FLOW_LOG(INFO, "Flow add ok", err); |
| bcmos_fastlock_lock(&data_lock); |
| flow_map[std::pair<int, int>(key.flow_id,key.flow_type)] = flow_map.size(); |
| flow_id_counters = flow_map.size(); |
| bcmos_fastlock_unlock(&data_lock, 0); |
| |
| } |
| |
| /* |
| Enable AES encryption on GEM ports if they are used in downstream unicast flows. |
| Rationale: We can't do upstream encryption in GPON. This change addresses the common denominator (and also minimum viable) |
| use case for both technologies which is downstream unicast GEM port encryption. Since the downstream traffic is inherently |
| broadcast to all the ONUs behind a PON port, encrypting the individual subscriber traffic in this direction is important |
| and considered good enough in terms of security (See Section 12.1 of G.984.3). For upstream unicast and downstream multicast |
| GEM encryption, we need to make additional changes specific to XGSPON. This will be done as a future work. |
| */ |
| if (aes_enabled && (access_intf_id >= 0) && (gemport_id >= GEM_PORT_ID_START) && (key.flow_type == BCMOLT_FLOW_TYPE_DOWNSTREAM)) { |
| OPENOLT_LOG(INFO, openolt_log_id, "Setting encryption on pon = %d gem_port = %d through flow_id = %d\n", access_intf_id, gemport_id, flow_id); |
| enable_encryption_for_gem_port(access_intf_id, gemport_id, board_technology); |
| } else { |
| OPENOLT_LOG(WARNING, openolt_log_id, "Flow config for flow_id = %d is not suitable for setting downstream encryption on pon = %d gem_port = %d. No action taken.\n", flow_id, access_intf_id, gemport_id); |
| } |
| |
| return Status::OK; |
| } |
| |
| Status FlowRemoveWrapper_(const ::openolt::Flow* request) { |
| int32_t access_intf_id = request->access_intf_id(); |
| int32_t onu_id = request->onu_id(); |
| int32_t uni_id = request->uni_id(); |
| uint32_t tech_profile_id = request->tech_profile_id(); |
| uint64_t voltha_flow_id = request->flow_id(); |
| Status st; |
| |
| // If Voltha flow is not installed, return fail |
| if (! is_voltha_flow_installed(voltha_flow_id)) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "voltha_flow_id=%lu not found\n", voltha_flow_id); |
| return ::Status(grpc::StatusCode::NOT_FOUND, "voltha-flow-not-found"); |
| } |
| |
| const device_flow *dev_fl = get_device_flow(voltha_flow_id); |
| if (dev_fl == NULL) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "device flow for voltha_flow_id=%lu in the cache is NULL\n", voltha_flow_id); |
| return ::Status(grpc::StatusCode::INTERNAL, "device-flow-null-in-cache"); |
| } |
| std::string flow_type = dev_fl->flow_type; |
| if (dev_fl->is_flow_replicated) { |
| // Note: Here we are ignoring FlowRemove failures |
| for (int i=0; i<NUMBER_OF_REPLICATED_FLOWS; i++) { |
| st = FlowRemove_(dev_fl->params[i].flow_id, flow_type); |
| if (st.error_code() == grpc::StatusCode::OK) { |
| free_flow_id(dev_fl->params[i].flow_id); |
| } |
| } |
| } else { |
| // Note: Here we are ignoring FlowRemove failures |
| st = FlowRemove_(dev_fl->params[0].flow_id, flow_type); |
| if (st.error_code() == grpc::StatusCode::OK) { |
| free_flow_id(dev_fl->params[0].flow_id); |
| } |
| } |
| // remove the flow from cache on voltha flow removal |
| remove_voltha_flow_from_cache(voltha_flow_id); |
| |
| symmetric_datapath_flow_id_map_key key(access_intf_id, onu_id, uni_id, tech_profile_id, flow_type); |
| // Remove onu-uni mapping for the pon-gem key |
| bcmos_fastlock_lock(&symmetric_datapath_flow_id_lock); |
| symmetric_datapath_flow_id_map.erase(key); |
| bcmos_fastlock_unlock(&symmetric_datapath_flow_id_lock, 0); |
| |
| return Status::OK; |
| } |
| |
| Status FlowRemove_(uint32_t flow_id, const std::string flow_type) { |
| |
| bcmolt_flow_cfg cfg; |
| bcmolt_flow_key key = { }; |
| |
| key.flow_id = (bcmolt_flow_id) flow_id; |
| key.flow_id = flow_id; |
| if (flow_type == upstream) { |
| key.flow_type = BCMOLT_FLOW_TYPE_UPSTREAM; |
| } else if (flow_type == downstream) { |
| key.flow_type = BCMOLT_FLOW_TYPE_DOWNSTREAM; |
| } else if(flow_type == multicast) { |
| key.flow_type = BCMOLT_FLOW_TYPE_MULTICAST; |
| } else { |
| OPENOLT_LOG(WARNING, openolt_log_id, "Invalid flow type %s\n", flow_type.c_str()); |
| return bcm_to_grpc_err(BCM_ERR_PARM, "Invalid flow type"); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "flow remove received for flow_id=%u, flow_type=%s\n", |
| flow_id, flow_type.c_str()); |
| |
| bcmos_fastlock_lock(&acl_packet_trap_handler_lock); |
| flow_id_flow_direction fl_id_fl_dir(flow_id, flow_type); |
| int32_t gemport_id = -1; |
| int32_t intf_id = -1; |
| int16_t acl_id = -1; |
| if (flow_to_acl_map.count(fl_id_fl_dir) > 0) { |
| |
| acl_id_intf_id ac_id_if_id = flow_to_acl_map[fl_id_fl_dir]; |
| acl_id = std::get<0>(ac_id_if_id); |
| intf_id = std::get<1>(ac_id_if_id); |
| // cleanup acl only if it is a valid acl. If not valid acl, it may be datapath flow. |
| if (acl_id >= 0) { |
| Status resp = handle_acl_rule_cleanup(acl_id, intf_id, flow_type); |
| if (resp.ok()) { |
| OPENOLT_LOG(INFO, openolt_log_id, "acl removed ok for flow_id = %u with acl_id = %d\n", flow_id, acl_id); |
| flow_to_acl_map.erase(fl_id_fl_dir); |
| |
| // When flow is being removed, extract the value corresponding to flow_id from trap_to_host_pkt_info_with_vlan_for_flow_id if it exists |
| if (trap_to_host_pkt_info_with_vlan_for_flow_id.count(flow_id) > 0) { |
| trap_to_host_pkt_info_with_vlan pkt_info_with_vlan = trap_to_host_pkt_info_with_vlan_for_flow_id[flow_id]; |
| // Formulate the trap_to_host_pkt_info tuple key |
| trap_to_host_pkt_info pkt_info(std::get<0>(pkt_info_with_vlan), |
| std::get<1>(pkt_info_with_vlan), |
| std::get<2>(pkt_info_with_vlan), |
| std::get<3>(pkt_info_with_vlan)); |
| // Extract the value corresponding to trap_to_host_pkt_info key from trap_to_host_vlan_ids_for_trap_to_host_pkt_info |
| // The value is a list of vlan_ids for the given trap_to_host_pkt_info key |
| // Remove the vlan_id from the list that corresponded to the flow being removed. |
| if (trap_to_host_vlan_ids_for_trap_to_host_pkt_info.count(pkt_info) > 0) { |
| trap_to_host_vlan_ids_for_trap_to_host_pkt_info[pkt_info].remove(std::get<4>(pkt_info_with_vlan)); |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "trap-to-host with intf_type = %d, intf_id = %d, pkt_type = %d gemport_id = %d not found in trap_to_host_vlan_ids_for_trap_to_host_pkt_info map", |
| std::get<0>(pkt_info_with_vlan), std::get<1>(pkt_info_with_vlan), std::get<2>(pkt_info_with_vlan), std::get<3>(pkt_info_with_vlan)); |
| } |
| |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "flow id = %u not found in trap_to_host_pkt_info_with_vlan_for_flow_id map", flow_id); |
| } |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "acl remove error for flow_id = %u with acl_id = %d\n", flow_id, acl_id); |
| } |
| bcmos_fastlock_unlock(&acl_packet_trap_handler_lock, 0); |
| return resp; |
| } |
| } |
| bcmos_fastlock_unlock(&acl_packet_trap_handler_lock, 0); |
| |
| bcmos_fastlock_lock(&data_lock); |
| uint32_t port_no = flowid_to_port[key.flow_id]; |
| if (key.flow_type == BCMOLT_FLOW_TYPE_DOWNSTREAM) { |
| flowid_to_gemport.erase(key.flow_id); |
| port_to_flows[port_no].erase(key.flow_id); |
| if (port_to_flows[port_no].empty()) port_to_flows.erase(port_no); |
| } |
| else |
| { |
| flowid_to_port.erase(key.flow_id); |
| } |
| bcmos_fastlock_unlock(&data_lock, 0); |
| |
| BCMOLT_CFG_INIT(&cfg, flow, key); |
| |
| bcmos_errno err = bcmolt_cfg_clear(dev_id, &cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Error while removing %s flow, flow_id=%d, err = %s (%d)\n", flow_type.c_str(), flow_id, cfg.hdr.hdr.err_text, err); |
| return Status(grpc::StatusCode::INTERNAL, "Failed to remove flow"); |
| } |
| |
| bcmos_fastlock_lock(&data_lock); |
| if (flow_id_counters != 0) { |
| std::map<flow_pair, int>::iterator it; |
| for(it = flow_map.begin(); it != flow_map.end(); it++) { |
| if (it->first.first == flow_id && it->first.second == key.flow_type) { |
| flow_id_counters -= 1; |
| flow_map.erase(it); |
| } |
| } |
| } |
| OPENOLT_LOG(INFO, openolt_log_id, "Flow %d, %s removed\n", flow_id, flow_type.c_str()); |
| |
| flow_to_acl_map.erase(fl_id_fl_dir); |
| |
| bcmos_fastlock_unlock(&data_lock, 0); |
| |
| return Status::OK; |
| } |
| |
| bcmos_errno CreateDefaultSched(uint32_t intf_id, const std::string direction) { |
| bcmos_errno err; |
| bcmolt_tm_sched_cfg tm_sched_cfg; |
| bcmolt_tm_sched_key tm_sched_key = {.id = 1}; |
| tm_sched_key.id = get_default_tm_sched_id(intf_id, direction); |
| |
| //check TM scheduler has configured or not |
| BCMOLT_CFG_INIT(&tm_sched_cfg, tm_sched, tm_sched_key); |
| BCMOLT_MSG_FIELD_GET(&tm_sched_cfg, state); |
| #ifdef TEST_MODE |
| // It is impossible to mock the setting of tm_sched_cfg.data.state because |
| // the actual bcmolt_cfg_get passes the address of tm_sched_cfg.hdr and we cannot |
| // set the tm_sched_cfg.data.state. So a new stub function is created and address |
| // of tm_sched_cfg is passed. This is one-of case where we need to add test specific |
| // code in production code. |
| err = bcmolt_cfg_get__tm_sched_stub(dev_id, &tm_sched_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &tm_sched_cfg.hdr); |
| #endif |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "cfg: Failed to query TM scheduler, err = %s (%d)\n", tm_sched_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| else if (tm_sched_cfg.data.state == BCMOLT_CONFIG_STATE_CONFIGURED) { |
| OPENOLT_LOG(WARNING, openolt_log_id, "tm scheduler default config has already with id %d\n", tm_sched_key.id); |
| return BCM_ERR_OK; |
| } |
| |
| // bcmbal_tm_sched_owner |
| BCMOLT_CFG_INIT(&tm_sched_cfg, tm_sched, tm_sched_key); |
| |
| /**< The output of the tm_sched object instance */ |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, attachment_point.type, BCMOLT_TM_SCHED_OUTPUT_TYPE_INTERFACE); |
| |
| if (direction == upstream) { |
| // In upstream it is NNI scheduler |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, attachment_point.u.interface.interface_ref.intf_type, BCMOLT_INTERFACE_TYPE_NNI); |
| } else if (direction == downstream) { |
| // In downstream it is PON scheduler |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, attachment_point.u.interface.interface_ref.intf_type, BCMOLT_INTERFACE_TYPE_PON); |
| } |
| |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, attachment_point.u.interface.interface_ref.intf_id, intf_id); |
| |
| // bcmbal_tm_sched_type |
| // set the deafult policy to strict priority |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, sched_type, BCMOLT_TM_SCHED_TYPE_SP); |
| |
| // num_priorities: Max number of strict priority scheduling elements |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, num_priorities, NUM_OF_PRIORITIES); |
| |
| err = bcmolt_cfg_set(dev_id, &tm_sched_cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create %s scheduler, id %d, intf_id %d, err = %s\n", |
| direction.c_str(), tm_sched_key.id, intf_id, bcmos_strerror(err)); |
| return err; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Create %s scheduler success, id %d, intf_id %d\n", \ |
| direction.c_str(), tm_sched_key.id, intf_id); |
| return BCM_ERR_OK; |
| } |
| |
| bcmos_errno CreateSched(std::string direction, uint32_t intf_id, uint32_t onu_id, uint32_t uni_id, uint32_t port_no, |
| uint32_t alloc_id, ::tech_profile::AdditionalBW additional_bw, uint32_t weight, uint32_t priority, |
| ::tech_profile::SchedulingPolicy sched_policy, ::tech_profile::TrafficShapingInfo tf_sh_info, |
| uint32_t tech_profile_id) { |
| |
| bcmos_errno err; |
| |
| if (direction == downstream) { |
| bcmolt_tm_sched_cfg tm_sched_cfg; |
| bcmolt_tm_sched_key tm_sched_key = {.id = 1}; |
| tm_sched_key.id = get_tm_sched_id(intf_id, onu_id, uni_id, direction, tech_profile_id); |
| |
| // bcmbal_tm_sched_owner |
| // In downstream it is sub_term scheduler |
| BCMOLT_CFG_INIT(&tm_sched_cfg, tm_sched, tm_sched_key); |
| |
| /**< The output of the tm_sched object instance */ |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, attachment_point.type, BCMOLT_TM_SCHED_OUTPUT_TYPE_TM_SCHED); |
| |
| // bcmbal_tm_sched_parent |
| // The parent for the sub_term scheduler is the PON scheduler in the downstream |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, attachment_point.u.tm_sched.tm_sched_id, get_default_tm_sched_id(intf_id, direction)); |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, attachment_point.u.tm_sched.tm_sched_param.type, BCMOLT_TM_SCHED_PARAM_TYPE_PRIORITY); |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, attachment_point.u.tm_sched.tm_sched_param.u.priority.priority, priority); |
| /* removed by BAL v3.0, N/A - No direct attachment point of type ONU, same functionality may |
| be achieved using the' virtual' type of attachment. |
| tm_sched_owner.u.sub_term.intf_id = intf_id; |
| tm_sched_owner.u.sub_term.sub_term_id = onu_id; |
| */ |
| |
| // bcmbal_tm_sched_type |
| // set the deafult policy to strict priority |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, sched_type, BCMOLT_TM_SCHED_TYPE_SP); |
| |
| // num_priorities: Max number of strict priority scheduling elements |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, num_priorities, 8); |
| |
| // bcmbal_tm_shaping |
| if (tf_sh_info.cir() >= 0 && tf_sh_info.pir() > 0) { |
| uint32_t cir = tf_sh_info.cir(); |
| uint32_t pir = tf_sh_info.pir(); |
| uint32_t burst = tf_sh_info.pbs(); |
| OPENOLT_LOG(INFO, openolt_log_id, "applying traffic shaping in DL cir=%u, pir=%u, burst=%u\n", |
| cir, pir, burst); |
| BCMOLT_FIELD_SET_PRESENT(&tm_sched_cfg.data.rate, tm_shaping, pir); |
| BCMOLT_FIELD_SET_PRESENT(&tm_sched_cfg.data.rate, tm_shaping, burst); |
| // FIXME: Setting CIR, results in BAL throwing error 'tm_sched minimum rate is not supported yet' |
| //BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, rate.cir, cir); |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, rate.pir, pir); |
| BCMOLT_MSG_FIELD_SET(&tm_sched_cfg, rate.burst, burst); |
| } |
| |
| err = bcmolt_cfg_set(dev_id, &tm_sched_cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create downstream subscriber scheduler, id %d, \ |
| intf_id %d, onu_id %d, uni_id %d, port_no %u, err = %s (%d)\n", tm_sched_key.id, intf_id, onu_id, uni_id, \ |
| port_no, tm_sched_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| OPENOLT_LOG(INFO, openolt_log_id, "Create downstream subscriber sched, id %d, intf_id %d, onu_id %d, \ |
| uni_id %d, port_no %u\n", tm_sched_key.id, intf_id, onu_id, uni_id, port_no); |
| |
| } else { //upstream |
| bcmolt_itupon_alloc_cfg cfg; |
| bcmolt_itupon_alloc_key key = { }; |
| key.pon_ni = intf_id; |
| key.alloc_id = alloc_id; |
| int bw_granularity = (board_technology == "XGS-PON")?XGS_BANDWIDTH_GRANULARITY:GPON_BANDWIDTH_GRANULARITY; |
| /* |
| PIR: Maximum Bandwidth |
| CIR: Assured Bandwidth |
| GIR: Fixed Bandwidth |
| */ |
| int pir_bw = tf_sh_info.pir()*125; // conversion from kbps to bytes/sec |
| int cir_bw = tf_sh_info.cir()*125; // conversion from kbps to bytes/sec |
| int gir_bw = tf_sh_info.gir()*125; // conversion from kbps to bytes/sec |
| int guaranteed_bw = cir_bw+gir_bw; |
| //offset to match bandwidth granularity |
| int offset_pir_bw = pir_bw%bw_granularity; |
| int offset_gir_bw = gir_bw%bw_granularity; |
| int offset_guaranteed_bw = guaranteed_bw%bw_granularity; |
| |
| pir_bw = pir_bw - offset_pir_bw; |
| gir_bw = gir_bw - offset_gir_bw; |
| guaranteed_bw = guaranteed_bw - offset_guaranteed_bw; |
| |
| BCMOLT_CFG_INIT(&cfg, itupon_alloc, key); |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Creating alloc_id %d with pir = %d bytes/sec, cir = %d bytes/sec, gir = %d bytes/sec, additional_bw = %d.\n", alloc_id, pir_bw, cir_bw, gir_bw, additional_bw); |
| |
| if (pir_bw == 0) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Maximum bandwidth must be at least %d bytes/sec\n", |
| (board_technology == "XGS-PON")?XGS_BANDWIDTH_GRANULARITY:GPON_BANDWIDTH_GRANULARITY); |
| return BCM_ERR_PARM; |
| } else if (pir_bw < guaranteed_bw) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Maximum bandwidth (%d) can't be less than Guaranteed bandwidth (%d)\n", |
| pir_bw, guaranteed_bw); |
| return BCM_ERR_PARM; |
| } |
| |
| // Setting additional bw eligibility and validating bw provisionings |
| switch (additional_bw) { |
| |
| case tech_profile::AdditionalBW::AdditionalBW_BestEffort: //AdditionalBW_BestEffort - For T-Cont types 4 & 5 |
| if (pir_bw == guaranteed_bw) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Maximum bandwidth must be greater than Guaranteed \ |
| bandwidth for additional bandwidth eligibility of type Best Effort\n"); |
| return BCM_ERR_PARM; |
| } |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.additional_bw_eligibility, BCMOLT_ADDITIONAL_BW_ELIGIBILITY_BEST_EFFORT); |
| break; |
| |
| case tech_profile::AdditionalBW::AdditionalBW_NA: //AdditionalBW_NA - For T-Cont types 3 & 5 |
| if (guaranteed_bw == 0) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Guaranteed bandwidth must be greater than zero for \ |
| additional bandwidth eligibility of type Non-Assured (NA)\n"); |
| return BCM_ERR_PARM; |
| } else if (pir_bw == guaranteed_bw) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Maximum bandwidth must be greater than Guaranteed \ |
| bandwidth for additional bandwidth eligibility of type Non-Assured\n"); |
| return BCM_ERR_PARM; |
| } |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.additional_bw_eligibility, BCMOLT_ADDITIONAL_BW_ELIGIBILITY_NON_ASSURED); |
| break; |
| |
| case tech_profile::AdditionalBW::AdditionalBW_None: //AdditionalBW_None - For T-Cont types 1 & 2 |
| if (guaranteed_bw != pir_bw) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Guaranteed bandwidth must be equal to maximum bandwidth \ |
| for additional bandwidth eligibility of type None\n"); |
| return BCM_ERR_PARM; |
| } |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.additional_bw_eligibility, BCMOLT_ADDITIONAL_BW_ELIGIBILITY_NONE); |
| break; |
| |
| default: |
| OPENOLT_LOG(ERROR, openolt_log_id, "Invalid additional bandwidth eligibility value (%d) supplied.\n", additional_bw); |
| return BCM_ERR_PARM; |
| } |
| |
| /* CBR Real Time Bandwidth which require shaping of the bandwidth allocations |
| in a fine granularity. */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.cbr_rt_bw, 0); |
| /* Since we can assign minimum 64000 bytes/sec for cbr_rt_bw, we prefer assigning |
| gir_bw to cbr_nrt_bw to allow smaller amounts. |
| TODO: Specify CBR_RT_BW and CBR_NRT_BW separately from VOLTHA */ |
| /* Fixed Bandwidth with no critical requirement of shaping */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.cbr_nrt_bw, gir_bw); |
| /* Dynamic bandwidth which the OLT is committed to allocate upon demand */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.guaranteed_bw, guaranteed_bw); |
| /* Maximum allocated bandwidth allowed for this alloc ID */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.maximum_bw, pir_bw); |
| |
| if (pir_bw == gir_bw) { // T-Cont Type 1 --> set alloc type to NONE |
| // the condition cir_bw == 0 is implicitly satistied |
| OPENOLT_LOG(INFO, openolt_log_id, "Setting alloc type to NONE since maximum bandwidth is equal to fixed bandwidth\n"); |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.alloc_type, BCMOLT_ALLOC_TYPE_NONE); |
| } else { // For other T-Cont types, set alloc type to NSR. TODO: read the default from a config file. |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.alloc_type, BCMOLT_ALLOC_TYPE_NSR); |
| } |
| |
| /* Set to True for AllocID with CBR RT Bandwidth that requires compensation |
| for skipped allocations during quiet window */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.cbr_rt_compensation, BCMOS_FALSE); |
| /**< Allocation Profile index for CBR non-RT Bandwidth */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.cbr_nrt_ap_index, 0); |
| /**< Allocation Profile index for CBR RT Bandwidth */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.cbr_rt_ap_index, 0); |
| /**< Alloc ID Weight used in case of Extended DBA mode */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.weight, 0); |
| /**< Alloc ID Priority used in case of Extended DBA mode */ |
| BCMOLT_MSG_FIELD_SET(&cfg, sla.priority, 0); |
| BCMOLT_MSG_FIELD_SET(&cfg, onu_id, onu_id); |
| |
| bcmolt_onu_state onu_state; |
| bool wait_for_alloc_cfg_cmplt = false; |
| err = get_onu_state((bcmolt_interface)intf_id, (bcmolt_onu_id)onu_id, &onu_state); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to fetch onu status, intf_id = %d, onu_id = %d, err = %s\n", |
| intf_id, onu_id, bcmos_strerror(err)); |
| return err; |
| } else if (onu_state == BCMOLT_ONU_STATE_ACTIVE) { |
| wait_for_alloc_cfg_cmplt = true; |
| } |
| |
| err = bcmolt_cfg_set(dev_id, &cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create upstream bandwidth allocation, intf_id %d, onu_id %d, uni_id %d,\ |
| port_no %u, alloc_id %d, err = %s (%d)\n", intf_id, onu_id,uni_id,port_no,alloc_id, cfg.hdr.hdr.err_text, err); |
| return err; |
| } else if (wait_for_alloc_cfg_cmplt) { |
| err = wait_for_alloc_action(intf_id, alloc_id, ALLOC_OBJECT_CREATE); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create upstream bandwidth allocation, intf_id %d, onu_id %d, uni_id %d,\ |
| port_no %u, alloc_id %d, err = %s\n", intf_id, onu_id,uni_id,port_no,alloc_id, bcmos_strerror(err)); |
| return err; |
| } |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "onu not active, not waiting for alloc cfg complete, onu_state = %d, intf = %d, onu=%d\n", |
| onu_state, intf_id, onu_id); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "create upstream bandwidth allocation success, intf_id %d, onu_id %d, uni_id %d,\ |
| port_no %u, alloc_id %d\n", intf_id, onu_id,uni_id,port_no,alloc_id); |
| |
| } |
| |
| return BCM_ERR_OK; |
| } |
| |
| Status CreateTrafficSchedulers_(const ::tech_profile::TrafficSchedulers *traffic_scheds) { |
| uint32_t intf_id = traffic_scheds->intf_id(); |
| uint32_t onu_id = traffic_scheds->onu_id(); |
| uint32_t uni_id = traffic_scheds->uni_id(); |
| uint32_t port_no = traffic_scheds->port_no(); |
| std::string direction; |
| unsigned int alloc_id; |
| ::tech_profile::SchedulerConfig sched_config; |
| ::tech_profile::AdditionalBW additional_bw; |
| uint32_t priority; |
| uint32_t weight; |
| ::tech_profile::SchedulingPolicy sched_policy; |
| ::tech_profile::TrafficShapingInfo traffic_shaping_info; |
| uint32_t tech_profile_id; |
| bcmos_errno err; |
| |
| for (int i = 0; i < traffic_scheds->traffic_scheds_size(); i++) { |
| ::tech_profile::TrafficScheduler traffic_sched = traffic_scheds->traffic_scheds(i); |
| |
| direction = GetDirection(traffic_sched.direction()); |
| if (direction == "direction-not-supported") { |
| return bcm_to_grpc_err(BCM_ERR_PARM, "direction-not-supported"); |
| } |
| |
| alloc_id = traffic_sched.alloc_id(); |
| sched_config = traffic_sched.scheduler(); |
| additional_bw = sched_config.additional_bw(); |
| priority = sched_config.priority(); |
| weight = sched_config.weight(); |
| sched_policy = sched_config.sched_policy(); |
| traffic_shaping_info = traffic_sched.traffic_shaping_info(); |
| tech_profile_id = traffic_sched.tech_profile_id(); |
| err = CreateSched(direction, intf_id, onu_id, uni_id, port_no, alloc_id, additional_bw, weight, priority, |
| sched_policy, traffic_shaping_info, tech_profile_id); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create scheduler, err = %s\n", bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to create scheduler"); |
| } |
| } |
| return Status::OK; |
| } |
| |
| bcmos_errno RemoveSched(int intf_id, int onu_id, int uni_id, int alloc_id, std::string direction, int tech_profile_id) { |
| |
| bcmos_errno err; |
| bcmolt_onu_state onu_state; |
| uint16_t sched_id; |
| |
| if (direction == upstream) { |
| bcmolt_itupon_alloc_cfg cfg; |
| bcmolt_itupon_alloc_key key = { }; |
| key.pon_ni = intf_id; |
| key.alloc_id = alloc_id; |
| sched_id = alloc_id; |
| |
| bcmolt_onu_state onu_state; |
| bool wait_for_alloc_cfg_cmplt = false; |
| err = get_onu_state((bcmolt_interface)intf_id, (bcmolt_onu_id)onu_id, &onu_state); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to fetch onu status, intf_id = %d, onu_id = %d, err = %s\n", |
| intf_id, onu_id, bcmos_strerror(err)); |
| return err; |
| } else if (onu_state == BCMOLT_ONU_STATE_ACTIVE) { |
| wait_for_alloc_cfg_cmplt = true; |
| } |
| |
| BCMOLT_CFG_INIT(&cfg, itupon_alloc, key); |
| err = bcmolt_cfg_clear(dev_id, &cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to remove scheduler, direction = %s, intf_id %d, alloc_id %d, err = %s (%d)\n", |
| direction.c_str(), intf_id, alloc_id, cfg.hdr.hdr.err_text, err); |
| return err; |
| } else if (wait_for_alloc_cfg_cmplt) { |
| err = wait_for_alloc_action(intf_id, alloc_id, ALLOC_OBJECT_DELETE); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to remove upstream bandwidth allocation, intf_id %d, onu_id %d, uni_id %d,\ |
| pon_intf %u, alloc_id %d, err = %s\n", intf_id, onu_id,uni_id,intf_id,alloc_id, bcmos_strerror(err)); |
| return err; |
| } |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "onu not active, not waiting for alloc cfg complete, onu_state = %d, intf = %d, onu=%d\n", |
| onu_state, intf_id, onu_id); |
| } |
| } else if (direction == downstream) { |
| bcmolt_tm_sched_cfg cfg; |
| bcmolt_tm_sched_key key = { }; |
| |
| if (is_tm_sched_id_present(intf_id, onu_id, uni_id, direction, tech_profile_id)) { |
| key.id = get_tm_sched_id(intf_id, onu_id, uni_id, direction, tech_profile_id); |
| sched_id = key.id; |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "schduler not present in %s, err %d\n", direction.c_str(), err); |
| return BCM_ERR_OK; |
| } |
| |
| BCMOLT_CFG_INIT(&cfg, tm_sched, key); |
| err = bcmolt_cfg_clear(dev_id, &(cfg.hdr)); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to remove scheduler, direction = %s, sched_id %d, \ |
| intf_id %d, onu_id %d, tech_profile_id %d, err = %s (%d)\n", direction.c_str(), key.id, intf_id, onu_id, tech_profile_id, cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Removed sched, direction = %s, id %d, intf_id %d, onu_id %d, tech_profile_id %d\n", |
| direction.c_str(), sched_id, intf_id, onu_id, tech_profile_id); |
| free_tm_sched_id(intf_id, onu_id, uni_id, direction, tech_profile_id); |
| return BCM_ERR_OK; |
| } |
| |
| Status RemoveTrafficSchedulers_(const ::tech_profile::TrafficSchedulers *traffic_scheds) { |
| uint32_t intf_id = traffic_scheds->intf_id(); |
| uint32_t onu_id = traffic_scheds->onu_id(); |
| uint32_t uni_id = traffic_scheds->uni_id(); |
| std::string direction; |
| uint32_t tech_profile_id; |
| bcmos_errno err; |
| |
| for (int i = 0; i < traffic_scheds->traffic_scheds_size(); i++) { |
| ::tech_profile::TrafficScheduler traffic_sched = traffic_scheds->traffic_scheds(i); |
| |
| direction = GetDirection(traffic_sched.direction()); |
| if (direction == "direction-not-supported") { |
| return bcm_to_grpc_err(BCM_ERR_PARM, "direction-not-supported"); |
| } |
| |
| int alloc_id = traffic_sched.alloc_id(); |
| int tech_profile_id = traffic_sched.tech_profile_id(); |
| err = RemoveSched(intf_id, onu_id, uni_id, alloc_id, direction, tech_profile_id); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Error-removing-traffic-scheduler, err = %s\n",bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "error-removing-traffic-scheduler"); |
| } |
| } |
| return Status::OK; |
| } |
| |
| bcmos_errno CreateTrafficQueueMappingProfile(uint32_t sched_id, uint32_t intf_id, uint32_t onu_id, uint32_t uni_id, \ |
| std::string direction, std::vector<uint32_t> tmq_map_profile) { |
| bcmos_errno err; |
| bcmolt_tm_qmp_cfg tm_qmp_cfg; |
| bcmolt_tm_qmp_key tm_qmp_key; |
| bcmolt_arr_u8_8 pbits_to_tmq_id = {0}; |
| |
| int tm_qmp_id = get_tm_qmp_id(sched_id, intf_id, onu_id, uni_id, tmq_map_profile); |
| if (tm_qmp_id == -1) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create tm queue mapping profile. Max allowed tm queue mapping profile count is 16.\n"); |
| return BCM_ERR_RANGE; |
| } |
| |
| tm_qmp_key.id = tm_qmp_id; |
| for (uint32_t priority=0; priority<tmq_map_profile.size(); priority++) { |
| pbits_to_tmq_id.arr[priority] = tmq_map_profile[priority]; |
| } |
| |
| BCMOLT_CFG_INIT(&tm_qmp_cfg, tm_qmp, tm_qmp_key); |
| BCMOLT_MSG_FIELD_SET(&tm_qmp_cfg, type, BCMOLT_TM_QMP_TYPE_PBITS); |
| BCMOLT_MSG_FIELD_SET(&tm_qmp_cfg, pbits_to_tmq_id, pbits_to_tmq_id); |
| //BCMOLT_MSG_FIELD_SET(&tm_qmp_cfg, ref_count, 0); |
| //BCMOLT_MSG_FIELD_SET(&tm_qmp_cfg, state, BCMOLT_CONFIG_STATE_CONFIGURED); |
| |
| err = bcmolt_cfg_set(dev_id, &tm_qmp_cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create tm queue mapping profile, tm_qmp_id %d, err = %s\n", |
| tm_qmp_key.id, bcmos_strerror(err)); |
| return err; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Create tm queue mapping profile success, id %d\n", \ |
| tm_qmp_key.id); |
| return BCM_ERR_OK; |
| } |
| |
| bcmos_errno RemoveTrafficQueueMappingProfile(uint32_t tm_qmp_id) { |
| bcmos_errno err; |
| bcmolt_tm_qmp_cfg tm_qmp_cfg; |
| bcmolt_tm_qmp_key tm_qmp_key; |
| tm_qmp_key.id = tm_qmp_id; |
| |
| BCMOLT_CFG_INIT(&tm_qmp_cfg, tm_qmp, tm_qmp_key); |
| err = bcmolt_cfg_clear(dev_id, &tm_qmp_cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to remove tm queue mapping profile, tm_qmp_id %d, err = %s\n", |
| tm_qmp_key.id, bcmos_strerror(err)); |
| return err; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Remove tm queue mapping profile success, id %d\n", \ |
| tm_qmp_key.id); |
| return BCM_ERR_OK; |
| } |
| |
| bcmos_errno CreateDefaultQueue(uint32_t intf_id, const std::string direction) { |
| bcmos_errno err; |
| |
| /* Create default queues on the given PON/NNI scheduler */ |
| for (int queue_id = 0; queue_id < NUMBER_OF_DEFAULT_INTERFACE_QUEUES; queue_id++) { |
| bcmolt_tm_queue_cfg tm_queue_cfg; |
| bcmolt_tm_queue_key tm_queue_key = {}; |
| tm_queue_key.sched_id = get_default_tm_sched_id(intf_id, direction); |
| tm_queue_key.id = queue_id; |
| /* DefaultQueues on PON/NNI schedulers are created with egress_qos_type as |
| BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE - with tm_q_set_id 32768 */ |
| tm_queue_key.tm_q_set_id = BCMOLT_TM_QUEUE_SET_ID_QSET_NOT_USE; |
| |
| BCMOLT_CFG_INIT(&tm_queue_cfg, tm_queue, tm_queue_key); |
| BCMOLT_MSG_FIELD_SET(&tm_queue_cfg, tm_sched_param.type, BCMOLT_TM_SCHED_PARAM_TYPE_PRIORITY); |
| BCMOLT_MSG_FIELD_SET(&tm_queue_cfg, tm_sched_param.u.priority.priority, queue_id); |
| |
| err = bcmolt_cfg_set(dev_id, &tm_queue_cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create %s tm queue, id %d, sched_id %d, tm_q_set_id %d, err = %s\n", \ |
| direction.c_str(), tm_queue_key.id, tm_queue_key.sched_id, tm_queue_key.tm_q_set_id, bcmos_strerror(err)); |
| return err; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Create %s tm_queue success, id %d, sched_id %d, tm_q_set_id %d\n", \ |
| direction.c_str(), tm_queue_key.id, tm_queue_key.sched_id, tm_queue_key.tm_q_set_id); |
| } |
| return BCM_ERR_OK; |
| } |
| |
| bcmos_errno CreateQueue(std::string direction, uint32_t access_intf_id, uint32_t onu_id, uint32_t uni_id, |
| bcmolt_egress_qos_type qos_type, uint32_t priority, uint32_t gemport_id, uint32_t tech_profile_id) { |
| bcmos_errno err; |
| bcmolt_tm_queue_cfg cfg; |
| bcmolt_tm_queue_key key = { }; |
| OPENOLT_LOG(INFO, openolt_log_id, "creating %s queue. access_intf_id = %d, onu_id = %d, uni_id = %d \ |
| gemport_id = %d, tech_profile_id = %d\n", direction.c_str(), access_intf_id, onu_id, uni_id, gemport_id, tech_profile_id); |
| |
| key.sched_id = (direction == upstream) ? get_default_tm_sched_id(nni_intf_id, direction) : \ |
| get_tm_sched_id(access_intf_id, onu_id, uni_id, direction, tech_profile_id); |
| |
| if (priority > 7) { |
| return BCM_ERR_RANGE; |
| } |
| |
| /* FIXME: The upstream queues have to be created once only. |
| The upstream queues on the NNI scheduler are shared by all subscribers. |
| When the first scheduler comes in, the queues get created, and are re-used by all others. |
| Also, these queues should be present until the last subscriber exits the system. |
| One solution is to have these queues always, i.e., create it as soon as OLT is enabled. |
| |
| There is one queue per gem port and Queue ID is fetched based on priority_q configuration |
| for each GEM in TECH PROFILE */ |
| key.id = queue_id_list[priority]; |
| |
| if (qos_type == BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE) { |
| // Reset the Queue ID to 0, if it is fixed queue, i.e., there is only one queue for subscriber. |
| key.id = 0; |
| key.tm_q_set_id = BCMOLT_TM_QUEUE_SET_ID_QSET_NOT_USE; |
| } |
| else if (qos_type == BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE) { |
| key.tm_q_set_id = get_tm_qmp_id(key.sched_id, access_intf_id, onu_id, uni_id); |
| } |
| else { |
| key.tm_q_set_id = BCMOLT_TM_QUEUE_KEY_TM_Q_SET_ID_DEFAULT; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "queue assigned queue_id = %d\n", key.id); |
| |
| BCMOLT_CFG_INIT(&cfg, tm_queue, key); |
| BCMOLT_MSG_FIELD_SET(&cfg, tm_sched_param.u.priority.priority, priority); |
| BCMOLT_MSG_FIELD_SET(&cfg, tm_sched_param.type, BCMOLT_TM_SCHED_PARAM_TYPE_PRIORITY); |
| |
| err = bcmolt_cfg_set(dev_id, &cfg.hdr); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create subscriber tm queue, direction = %s, queue_id %d, \ |
| sched_id %d, tm_q_set_id %d, intf_id %d, onu_id %d, uni_id %d, tech_profile_id %d, err = %s (%d)\n", \ |
| direction.c_str(), key.id, key.sched_id, key.tm_q_set_id, access_intf_id, onu_id, uni_id, tech_profile_id, cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| |
| if (direction == upstream || direction == downstream) { |
| Status st = install_gem_port(access_intf_id, onu_id, uni_id, gemport_id, board_technology); |
| if (st.error_code() != grpc::StatusCode::ALREADY_EXISTS && st.error_code() != grpc::StatusCode::OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to created gemport=%d, access_intf=%d, onu_id=%d\n", gemport_id, access_intf_id, onu_id); |
| return BCM_ERR_INTERNAL; |
| } |
| if (direction == upstream) { |
| // Create the pon-gem to onu-uni mapping |
| pon_gem pg(access_intf_id, gemport_id); |
| onu_uni ou(onu_id, uni_id); |
| bcmos_fastlock_lock(&pon_gem_to_onu_uni_map_lock); |
| pon_gem_to_onu_uni_map[pg] = ou; |
| bcmos_fastlock_unlock(&pon_gem_to_onu_uni_map_lock, 0); |
| } |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Created tm_queue, direction %s, id %d, sched_id %d, tm_q_set_id %d, \ |
| intf_id %d, onu_id %d, uni_id %d, tech_profiled_id %d\n", direction.c_str(), key.id, key.sched_id, key.tm_q_set_id, access_intf_id, onu_id, uni_id, tech_profile_id); |
| return BCM_ERR_OK; |
| } |
| |
| Status CreateTrafficQueues_(const ::tech_profile::TrafficQueues *traffic_queues) { |
| uint32_t intf_id = traffic_queues->intf_id(); |
| uint32_t onu_id = traffic_queues->onu_id(); |
| uint32_t uni_id = traffic_queues->uni_id(); |
| uint32_t tech_profile_id = traffic_queues->tech_profile_id(); |
| uint32_t sched_id; |
| std::string direction; |
| bcmos_errno err; |
| bcmolt_egress_qos_type qos_type = get_qos_type(intf_id, onu_id, uni_id, traffic_queues->traffic_queues_size()); |
| |
| if (qos_type == BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE) { |
| uint32_t queues_priority_q[traffic_queues->traffic_queues_size()] = {0}; |
| std::string queues_pbit_map[traffic_queues->traffic_queues_size()]; |
| for (int i = 0; i < traffic_queues->traffic_queues_size(); i++) { |
| ::tech_profile::TrafficQueue traffic_queue = traffic_queues->traffic_queues(i); |
| |
| direction = GetDirection(traffic_queue.direction()); |
| if (direction == "direction-not-supported") { |
| return bcm_to_grpc_err(BCM_ERR_PARM, "direction-not-supported"); |
| } |
| |
| queues_priority_q[i] = traffic_queue.priority(); |
| queues_pbit_map[i] = traffic_queue.pbit_map(); |
| } |
| |
| std::vector<uint32_t> tmq_map_profile(8, 0); |
| tmq_map_profile = get_tmq_map_profile(get_valid_queues_pbit_map(queues_pbit_map, COUNT_OF(queues_pbit_map)), \ |
| queues_priority_q, COUNT_OF(queues_priority_q)); |
| sched_id = (direction == upstream) ? get_default_tm_sched_id(nni_intf_id, direction) : \ |
| get_tm_sched_id(intf_id, onu_id, uni_id, direction, tech_profile_id); |
| |
| int tm_qmp_id = get_tm_qmp_id(tmq_map_profile); |
| if (tm_qmp_id == -1) { |
| err = CreateTrafficQueueMappingProfile(sched_id, intf_id, onu_id, uni_id, direction, tmq_map_profile); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create tm queue mapping profile, err = %s\n", bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to create tm queue mapping profile"); |
| } |
| } else if (tm_qmp_id != -1 && get_tm_qmp_id(sched_id, intf_id, onu_id, uni_id) == -1) { |
| OPENOLT_LOG(INFO, openolt_log_id, "tm queue mapping profile present already with id %d\n", tm_qmp_id); |
| update_sched_qmp_id_map(sched_id, intf_id, onu_id, uni_id, tm_qmp_id); |
| } |
| } |
| |
| for (int i = 0; i < traffic_queues->traffic_queues_size(); i++) { |
| ::tech_profile::TrafficQueue traffic_queue = traffic_queues->traffic_queues(i); |
| |
| direction = GetDirection(traffic_queue.direction()); |
| if (direction == "direction-not-supported") { |
| return bcm_to_grpc_err(BCM_ERR_PARM, "direction-not-supported"); |
| } |
| |
| err = CreateQueue(direction, intf_id, onu_id, uni_id, qos_type, traffic_queue.priority(), traffic_queue.gemport_id(), tech_profile_id); |
| |
| // If the queue exists already, lets not return failure and break the loop. |
| if (err && err != BCM_ERR_ALREADY) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to create queue, err = %s\n",bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to create queue"); |
| } |
| } |
| return Status::OK; |
| } |
| |
| bcmos_errno RemoveQueue(std::string direction, uint32_t access_intf_id, uint32_t onu_id, uint32_t uni_id, |
| bcmolt_egress_qos_type qos_type, uint32_t priority, uint32_t gemport_id, uint32_t tech_profile_id) { |
| bcmolt_tm_queue_cfg cfg; |
| bcmolt_tm_queue_key key = { }; |
| bcmos_errno err; |
| |
| // Gemports are bi-directional (except in multicast case). We create the gem port when we create the |
| // upstream/downstream queue (see CreateQueue function) and it makes sense to delete them when remove the queues. |
| // For multicast case we do not manage the install/remove of gem port in agent application. It is managed by BAL. |
| if (direction == upstream || direction == downstream) { |
| Status st = remove_gem_port(access_intf_id, onu_id, uni_id, gemport_id, board_technology); |
| if (st.error_code() != grpc::StatusCode::OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to remove gemport=%d, access_intf=%d, onu_id=%d\n", gemport_id, access_intf_id, onu_id); |
| // We should further cleanup proceed, do not return error yet.. |
| // return BCM_ERR_INTERNAL; |
| } |
| if (direction == upstream) { |
| // Remove the pon-gem to onu-uni mapping |
| pon_gem pg(access_intf_id, gemport_id); |
| bcmos_fastlock_lock(&pon_gem_to_onu_uni_map_lock); |
| pon_gem_to_onu_uni_map.erase(pg); |
| bcmos_fastlock_unlock(&pon_gem_to_onu_uni_map_lock, 0); |
| } |
| } |
| |
| if (direction == downstream) { |
| if (is_tm_sched_id_present(access_intf_id, onu_id, uni_id, direction, tech_profile_id)) { |
| key.sched_id = get_tm_sched_id(access_intf_id, onu_id, uni_id, direction, tech_profile_id); |
| key.id = queue_id_list[priority]; |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "queue not present in DS. Not clearing, access_intf_id %d, onu_id %d, uni_id %d, gemport_id %d, direction %s\n", access_intf_id, onu_id, uni_id, gemport_id, direction.c_str()); |
| return BCM_ERR_OK; |
| } |
| } else { |
| /* In the upstream we use pre-created queues on the NNI scheduler that are used by all subscribers. |
| They should not be removed. So, lets return OK. */ |
| return BCM_ERR_OK; |
| } |
| |
| if (qos_type == BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE) { |
| key.tm_q_set_id = BCMOLT_TM_QUEUE_SET_ID_QSET_NOT_USE; |
| // Reset the queue id to 0 when using fixed queue. |
| key.id = 0; |
| } |
| else if (qos_type == BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE) { |
| key.tm_q_set_id = get_tm_qmp_id(key.sched_id, access_intf_id, onu_id, uni_id); |
| } |
| else { |
| key.tm_q_set_id = BCMOLT_TM_QUEUE_KEY_TM_Q_SET_ID_DEFAULT; |
| } |
| |
| BCMOLT_CFG_INIT(&cfg, tm_queue, key); |
| err = bcmolt_cfg_clear(dev_id, &(cfg.hdr)); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to remove queue, direction = %s, queue_id %d, sched_id %d, \ |
| tm_q_set_id %d, intf_id %d, onu_id %d, uni_id %d, err = %s (%d)\n", |
| direction.c_str(), key.id, key.sched_id, key.tm_q_set_id, access_intf_id, onu_id, uni_id, cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Removed tm_queue, direction %s, id %d, sched_id %d, tm_q_set_id %d, \ |
| intf_id %d, onu_id %d, uni_id %d\n", direction.c_str(), key.id, key.sched_id, key.tm_q_set_id, access_intf_id, onu_id, uni_id); |
| |
| return BCM_ERR_OK; |
| } |
| |
| Status RemoveTrafficQueues_(const ::tech_profile::TrafficQueues *traffic_queues) { |
| uint32_t intf_id = traffic_queues->intf_id(); |
| uint32_t onu_id = traffic_queues->onu_id(); |
| uint32_t uni_id = traffic_queues->uni_id(); |
| uint32_t port_no = traffic_queues->port_no(); |
| uint32_t tech_profile_id = traffic_queues->tech_profile_id(); |
| uint32_t sched_id; |
| std::string direction; |
| bcmos_errno err; |
| bcmolt_egress_qos_type qos_type = get_qos_type(intf_id, onu_id, uni_id, traffic_queues->traffic_queues_size()); |
| Status ret_code = Status::OK; |
| |
| for (int i = 0; i < traffic_queues->traffic_queues_size(); i++) { |
| ::tech_profile::TrafficQueue traffic_queue = traffic_queues->traffic_queues(i); |
| |
| direction = GetDirection(traffic_queue.direction()); |
| if (direction == "direction-not-supported") { |
| return bcm_to_grpc_err(BCM_ERR_PARM, "direction-not-supported"); |
| } |
| |
| err = RemoveQueue(direction, intf_id, onu_id, uni_id, qos_type, traffic_queue.priority(), traffic_queue.gemport_id(), tech_profile_id); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to remove queue, err = %s\n",bcmos_strerror(err)); |
| ret_code = bcm_to_grpc_err(err, "Failed to remove one or more queues"); |
| // Do not return here. We should continue to remove the remaining queues and its associated gem ports |
| } |
| } |
| |
| if (qos_type == BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE && (direction == upstream || \ |
| direction == downstream && is_tm_sched_id_present(intf_id, onu_id, uni_id, direction, tech_profile_id))) { |
| sched_id = (direction == upstream) ? get_default_tm_sched_id(nni_intf_id, direction) : \ |
| get_tm_sched_id(intf_id, onu_id, uni_id, direction, tech_profile_id); |
| |
| int tm_qmp_id = get_tm_qmp_id(sched_id, intf_id, onu_id, uni_id); |
| if (free_tm_qmp_id(sched_id, intf_id, onu_id, uni_id, tm_qmp_id)) { |
| err = RemoveTrafficQueueMappingProfile(tm_qmp_id); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to remove tm queue mapping profile, err = %s\n", bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Failed to remove tm queue mapping profile"); |
| } |
| } |
| } |
| clear_qos_type(intf_id, onu_id, uni_id); |
| return ret_code; |
| } |
| |
| Status PerformGroupOperation_(const ::openolt::Group *group_cfg) { |
| |
| bcmos_errno err; |
| bcmolt_group_key key = {}; |
| bcmolt_group_cfg grp_cfg_obj; |
| bcmolt_group_members_update grp_mem_upd; |
| bcmolt_members_update_command grp_mem_upd_cmd; |
| bcmolt_group_member_info member_info = {}; |
| bcmolt_group_member_info_list_u8 members = {}; |
| bcmolt_intf_ref interface_ref = {}; |
| bcmolt_egress_qos egress_qos = {}; |
| bcmolt_tm_sched_ref tm_sched_ref = {}; |
| bcmolt_action a_val = {}; |
| |
| uint32_t group_id = group_cfg->group_id(); |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "PerformGroupOperation request received for Group %d\n", group_id); |
| |
| if (group_id >= 0) { |
| key.id = group_id; |
| } |
| else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Invalid group id %d.\n", group_id); |
| return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT, "Invalid group id"); |
| } |
| |
| BCMOLT_CFG_INIT(&grp_cfg_obj, group, key); |
| BCMOLT_FIELD_SET_PRESENT(&grp_cfg_obj.data, group_cfg_data, state); |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Checking if Group %d exists...\n",group_id); |
| |
| err = bcmolt_cfg_get(dev_id, &(grp_cfg_obj.hdr)); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Error in querying Group %d, err = %s\n", group_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Error in querying group"); |
| } |
| |
| members.len = group_cfg->members_size(); |
| |
| // IMPORTANT: A member cannot be added to a group if the group type is not determined. |
| // Group type is determined after a flow is assigned to it. |
| // Therefore, a group must be created first, then a flow (with multicast type) must be assigned to it. |
| // Only then we can add members to the group. |
| |
| // if group does not exist, create it and return. |
| if (grp_cfg_obj.data.state == BCMOLT_GROUP_STATE_NOT_CONFIGURED) { |
| |
| if (members.len != 0) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Member list is not empty for non-existent Group %d. Members can be added only after a flow is assigned to this newly-created group.\n", group_id); |
| return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT, "Non-empty member list given for non-existent group"); |
| } else { |
| |
| BCMOLT_CFG_INIT(&grp_cfg_obj, group, key); |
| BCMOLT_MSG_FIELD_SET(&grp_cfg_obj, cookie, key.id); |
| |
| /* Setting group actions and action parameters, if any. |
| Only remove_outer_tag and translate_inner_tag actions and i_vid action parameter |
| are supported for multicast groups in BAL 3.1. |
| */ |
| const ::openolt::Action& action = group_cfg->action(); |
| const ::openolt::ActionCmd &cmd = action.cmd(); |
| |
| bcmolt_action_cmd_id cmd_bmask = BCMOLT_ACTION_CMD_ID_NONE; |
| if (cmd.remove_outer_tag()) { |
| OPENOLT_LOG(INFO, openolt_log_id, "Action remove_outer_tag applied to Group %d.\n", group_id); |
| cmd_bmask = (bcmolt_action_cmd_id) (cmd_bmask | BCMOLT_ACTION_CMD_ID_REMOVE_OUTER_TAG); |
| } |
| |
| if (cmd.translate_inner_tag()) { |
| OPENOLT_LOG(INFO, openolt_log_id, "Action translate_inner_tag applied to Group %d.\n", group_id); |
| cmd_bmask = (bcmolt_action_cmd_id) (cmd_bmask | BCMOLT_ACTION_CMD_ID_XLATE_INNER_TAG); |
| } |
| |
| BCMOLT_FIELD_SET(&a_val, action, cmds_bitmask, cmd_bmask); |
| |
| if (action.i_vid()) { |
| OPENOLT_LOG(INFO, openolt_log_id, "Setting action parameter i_vid=%d for Group %d.\n", action.i_vid(), group_id); |
| BCMOLT_FIELD_SET(&a_val, action, i_vid, action.i_vid()); |
| } |
| |
| BCMOLT_MSG_FIELD_SET(&grp_cfg_obj, action, a_val); |
| |
| // Create group |
| err = bcmolt_cfg_set(dev_id, &(grp_cfg_obj.hdr)); |
| |
| if (BCM_ERR_OK != err) { |
| BCM_LOG(ERROR, openolt_log_id, "Failed to create Group %d, err = %s (%d)\n", key.id, bcmos_strerror(err), err); |
| return bcm_to_grpc_err(err, "Error in creating group"); |
| } |
| |
| BCM_LOG(INFO, openolt_log_id, "Group %d has been created and configured with empty member list.\n", key.id); |
| return Status::OK; |
| } |
| } |
| |
| // The group already exists. Continue configuring it according to the update member command. |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Configuring existing Group %d.\n",group_id); |
| |
| // MEMBER LIST CONSTRUCTION |
| // Note that members.len can be 0 here. if the group already exists and the command is SET then sending |
| // empty list to the group is a legit operation and this actually empties the member list. |
| members.arr = (bcmolt_group_member_info*)bcmos_calloc((members.len)*sizeof(bcmolt_group_member_info)); |
| |
| if (!members.arr) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to allocate memory for group member list.\n"); |
| return grpc::Status(grpc::StatusCode::RESOURCE_EXHAUSTED, "Memory exhausted during member list creation"); |
| } |
| |
| /* SET GROUP MEMBERS UPDATE COMMAND */ |
| ::openolt::Group::GroupMembersCommand command = group_cfg->command(); |
| switch(command) { |
| case ::openolt::Group::SET_MEMBERS : |
| grp_mem_upd_cmd = BCMOLT_MEMBERS_UPDATE_COMMAND_SET; |
| OPENOLT_LOG(INFO, openolt_log_id, "Setting %d members for Group %d.\n", members.len, group_id); |
| break; |
| case ::openolt::Group::ADD_MEMBERS : |
| grp_mem_upd_cmd = BCMOLT_MEMBERS_UPDATE_COMMAND_ADD; |
| OPENOLT_LOG(INFO, openolt_log_id, "Adding %d members to Group %d.\n", members.len, group_id); |
| break; |
| case ::openolt::Group::REMOVE_MEMBERS : |
| grp_mem_upd_cmd = BCMOLT_MEMBERS_UPDATE_COMMAND_REMOVE; |
| OPENOLT_LOG(INFO, openolt_log_id, "Removing %d members from Group %d.\n", members.len, group_id); |
| break; |
| default : |
| OPENOLT_LOG(ERROR, openolt_log_id, "Invalid value %d for group member command.\n", command); |
| bcmos_free(members.arr); |
| return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT, "Invalid group member command"); |
| } |
| |
| // SET MEMBERS LIST |
| for (int i = 0; i < members.len; i++) { |
| |
| if (command == ::openolt::Group::REMOVE_MEMBERS) { |
| OPENOLT_LOG(INFO, openolt_log_id, "Removing group member %d from group %d\n",i,key.id); |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Adding group member %d to group %d\n",i,key.id); |
| } |
| |
| ::openolt::GroupMember *member = (::openolt::GroupMember *) &group_cfg->members()[i]; |
| |
| // Set member interface type |
| ::openolt::GroupMember::InterfaceType if_type = member->interface_type(); |
| switch(if_type){ |
| case ::openolt::GroupMember::PON : |
| BCMOLT_FIELD_SET(&interface_ref, intf_ref, intf_type, BCMOLT_INTERFACE_TYPE_PON); |
| OPENOLT_LOG(INFO, openolt_log_id, "Interface type PON is assigned to GroupMember %d\n",i); |
| break; |
| case ::openolt::GroupMember::EPON_1G_PATH : |
| BCMOLT_FIELD_SET(&interface_ref, intf_ref, intf_type, BCMOLT_INTERFACE_TYPE_EPON_1_G); |
| OPENOLT_LOG(INFO, openolt_log_id, "Interface type EPON_1G is assigned to GroupMember %d\n",i); |
| break; |
| case ::openolt::GroupMember::EPON_10G_PATH : |
| BCMOLT_FIELD_SET(&interface_ref, intf_ref, intf_type, BCMOLT_INTERFACE_TYPE_EPON_10_G); |
| OPENOLT_LOG(INFO, openolt_log_id, "Interface type EPON_10G is assigned to GroupMember %d\n",i); |
| break; |
| default : |
| OPENOLT_LOG(ERROR, openolt_log_id, "Invalid interface type value %d for GroupMember %d.\n",if_type,i); |
| bcmos_free(members.arr); |
| return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT, "Invalid interface type for a group member"); |
| } |
| |
| // Set member interface id |
| if (member->interface_id() >= 0) { |
| BCMOLT_FIELD_SET(&interface_ref, intf_ref, intf_id, member->interface_id()); |
| OPENOLT_LOG(INFO, openolt_log_id, "Interface %d is assigned to GroupMember %d\n", member->interface_id(), i); |
| } else { |
| bcmos_free(members.arr); |
| return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT, "Invalid interface id for a group member"); |
| } |
| |
| // Set member interface_ref |
| BCMOLT_FIELD_SET(&member_info, group_member_info, intf, interface_ref); |
| |
| // Set member gem_port_id. This must be a multicast gemport. |
| if (member->gem_port_id() >= 0) { |
| BCMOLT_FIELD_SET(&member_info, group_member_info, svc_port_id, member->gem_port_id()); |
| OPENOLT_LOG(INFO, openolt_log_id, "GEM Port %d is assigned to GroupMember %d\n", member->gem_port_id(), i); |
| } else { |
| bcmos_free(members.arr); |
| return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT, "Invalid gem port id for a group member"); |
| } |
| |
| // Set member scheduler id and queue_id |
| uint32_t tm_sched_id = get_default_tm_sched_id(member->interface_id(), downstream); |
| OPENOLT_LOG(INFO, openolt_log_id, "Scheduler %d is assigned to GroupMember %d\n", tm_sched_id, i); |
| BCMOLT_FIELD_SET(&tm_sched_ref, tm_sched_ref, id, tm_sched_id); |
| BCMOLT_FIELD_SET(&egress_qos, egress_qos, tm_sched, tm_sched_ref); |
| |
| // We assume that all multicast traffic destined to a PON port is using the same fixed queue. |
| uint32_t tm_queue_id; |
| if (member->priority() >= 0 && member->priority() < NUMBER_OF_DEFAULT_INTERFACE_QUEUES) { |
| tm_queue_id = queue_id_list[member->priority()]; |
| OPENOLT_LOG(INFO, openolt_log_id, "Queue %d is assigned to GroupMember %d\n", tm_queue_id, i); |
| BCMOLT_FIELD_SET(&egress_qos, egress_qos, type, BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE); |
| BCMOLT_FIELD_SET(&egress_qos.u.fixed_queue, egress_qos_fixed_queue, queue_id, tm_queue_id); |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Invalid fixed queue priority/ID %d for GroupMember %d\n", member->priority(), i); |
| bcmos_free(members.arr); |
| return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT, "Invalid queue priority for a group member"); |
| } |
| |
| BCMOLT_FIELD_SET(&member_info, group_member_info, egress_qos, egress_qos); |
| BCMOLT_ARRAY_ELEM_SET(&(members), i, member_info); |
| } |
| |
| BCMOLT_OPER_INIT(&grp_mem_upd, group, members_update, key); |
| BCMOLT_MSG_FIELD_SET(&grp_mem_upd, members_cmd.members, members); |
| BCMOLT_MSG_FIELD_SET(&grp_mem_upd, members_cmd.command, grp_mem_upd_cmd); |
| |
| err = bcmolt_oper_submit(dev_id, &(grp_mem_upd.hdr)); |
| bcmos_free(members.arr); |
| |
| if (BCM_ERR_OK != err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to submit members update operation for Group %d err = %s (%d)\n", key.id, bcmos_strerror(err), err); |
| return bcm_to_grpc_err(err, "Failed to submit members update operation for the group"); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Successfully submitted members update operation for Group %d\n", key.id); |
| |
| return Status::OK; |
| } |
| |
| Status DeleteGroup_(uint32_t group_id) { |
| |
| bcmos_errno err = BCM_ERR_OK; |
| bcmolt_group_cfg grp_cfg_obj; |
| bcmolt_group_key key = {}; |
| |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Delete request received for group %d\n", group_id); |
| |
| if (group_id >= 0) { |
| key.id = group_id; |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Invalid group id %d.\n", group_id); |
| return grpc::Status(grpc::StatusCode::INVALID_ARGUMENT, "Invalid group id"); |
| } |
| |
| /* init the BAL INIT API */ |
| BCMOLT_CFG_INIT(&grp_cfg_obj, group, key); |
| |
| OPENOLT_LOG(DEBUG, openolt_log_id, "Checking if group %d exists...\n",group_id); |
| |
| // CONFIGURE GROUP MEMBERS |
| BCMOLT_FIELD_SET_PRESENT(&grp_cfg_obj.data, group_cfg_data, state); |
| err = bcmolt_cfg_get(dev_id, &(grp_cfg_obj.hdr)); |
| |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Error in querying Group %d, err = %s\n", group_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Error in querying group"); |
| } |
| |
| if (grp_cfg_obj.data.state != BCMOLT_GROUP_STATE_NOT_CONFIGURED) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "Group %d exists. Will be deleted.\n",group_id); |
| err = bcmolt_cfg_clear(dev_id, &(grp_cfg_obj.hdr)); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Group %d cannot be deleted err = %s (%d).\n", group_id, bcmos_strerror(err), err); |
| return bcm_to_grpc_err(err, "Failed to delete group");; |
| } |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Group %d does not exist.\n", group_id); |
| return Status(grpc::StatusCode::NOT_FOUND, "Group not found"); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Group %d has been deleted successfully.\n", group_id); |
| return Status::OK; |
| } |
| |
| Status GetLogicalOnuDistanceZero_(uint32_t intf_id, ::openolt::OnuLogicalDistance* response) { |
| bcmos_errno err = BCM_ERR_OK; |
| uint32_t mld = 0; |
| double LD0; |
| |
| err = getOnuMaxLogicalDistance(intf_id, &mld); |
| if (err != BCM_ERR_OK) { |
| return bcm_to_grpc_err(err, "Failed to retrieve ONU maximum logical distance"); |
| } |
| |
| LD0 = LOGICAL_DISTANCE(mld*1000, MINIMUM_ONU_RESPONSE_RANGING_TIME, ONU_BIT_TRANSMISSION_DELAY); |
| OPENOLT_LOG(INFO, openolt_log_id, "The ONU logical distance zero is %f, (PON %d)\n", LD0, intf_id); |
| response->set_intf_id(intf_id); |
| response->set_logical_onu_distance_zero(LD0); |
| |
| return Status::OK; |
| } |
| |
| Status GetLogicalOnuDistance_(uint32_t intf_id, uint32_t onu_id, ::openolt::OnuLogicalDistance* response) { |
| bcmos_errno err = BCM_ERR_OK; |
| bcmolt_itu_onu_params itu = {}; |
| bcmolt_onu_cfg onu_cfg; |
| bcmolt_onu_key onu_key = {}; |
| uint32_t mld = 0; |
| double LDi; |
| |
| onu_key.pon_ni = intf_id; |
| onu_key.onu_id = onu_id; |
| |
| err = getOnuMaxLogicalDistance(intf_id, &mld); |
| if (err != BCM_ERR_OK) { |
| return bcm_to_grpc_err(err, "Failed to retrieve ONU maximum logical distance"); |
| } |
| |
| /* Initialize the API struct. */ |
| BCMOLT_CFG_INIT(&onu_cfg, onu, onu_key); |
| BCMOLT_FIELD_SET_PRESENT(&onu_cfg.data, onu_cfg_data, onu_state); |
| BCMOLT_FIELD_SET_PRESENT(&itu, itu_onu_params, ranging_time); |
| BCMOLT_FIELD_SET(&onu_cfg.data, onu_cfg_data, itu, itu); |
| #ifdef TEST_MODE |
| // It is impossible to mock the setting of onu_cfg.data.onu_state because |
| // the actual bcmolt_cfg_get passes the address of onu_cfg.hdr and we cannot |
| // set the onu_cfg.data.onu_state. So a new stub function is created and address |
| // of onu_cfg is passed. This is one-of case where we need to add test specific |
| // code in production code. |
| err = bcmolt_cfg_get__onu_state_stub(dev_id, &onu_cfg); |
| #else |
| /* Call API function. */ |
| err = bcmolt_cfg_get(dev_id, &onu_cfg.hdr); |
| #endif |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to retrieve ONU ranging time for PON %d/ONU id %d, err = %s (%d)\n", intf_id, onu_id, bcmos_strerror(err), err); |
| return bcm_to_grpc_err(err, "Failed to retrieve ONU ranging time"); |
| } |
| |
| if (onu_cfg.data.onu_state != BCMOLT_ONU_STATE_ACTIVE) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "ONU is not yet activated (PON %d, ONU id %d)\n", intf_id, onu_id); |
| return bcm_to_grpc_err(BCM_ERR_PARM, "ONU is not yet activated\n"); |
| } |
| |
| LDi = LOGICAL_DISTANCE(mld*1000, onu_cfg.data.itu.ranging_time, ONU_BIT_TRANSMISSION_DELAY); |
| OPENOLT_LOG(INFO, openolt_log_id, "The ONU logical distance is %f, (PON %d, ONU id %d)\n", LDi, intf_id, onu_id); |
| response->set_intf_id(intf_id); |
| response->set_onu_id(onu_id); |
| response->set_logical_onu_distance(LDi); |
| |
| return Status::OK; |
| } |
| |
| Status GetOnuStatistics_(uint32_t intf_id, uint32_t onu_id, openolt::OnuStatistics* onu_stats) { |
| bcmos_errno err; |
| |
| err = get_onu_statistics((bcmolt_interface_id)intf_id, (bcmolt_onu_id)onu_id, onu_stats); |
| |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "retrieval of ONU statistics failed - PON ID = %u, ONU ID = %u, err = %d - %s", intf_id, onu_id, err, bcmos_strerror(err)); |
| return grpc::Status(grpc::StatusCode::INTERNAL, "retrieval of ONU statistics failed"); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "retrieved ONU statistics for PON ID = %d, ONU ID = %d\n", (int)intf_id, (int)onu_id); |
| return Status::OK; |
| } |
| |
| Status GetGemPortStatistics_(uint32_t intf_id, uint32_t gemport_id, openolt::GemPortStatistics* gemport_stats) { |
| bcmos_errno err; |
| |
| err = get_gemport_statistics((bcmolt_interface_id)intf_id, (bcmolt_gem_port_id)gemport_id, gemport_stats); |
| |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "retrieval of GEMPORT statistics failed - PON ID = %u, ONU ID = %u, err = %d - %s", intf_id, gemport_id, err, bcmos_strerror(err)); |
| return grpc::Status(grpc::StatusCode::INTERNAL, "retrieval of GEMPORT statistics failed"); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "retrieved GEMPORT statistics for PON ID = %d, GEMPORT ID = %d\n", (int)intf_id, (int)gemport_id); |
| return Status::OK; |
| } |
| |
| Status GetPonRxPower_(uint32_t intf_id, uint32_t onu_id, openolt::PonRxPowerData* response) { |
| bcmos_errno err = BCM_ERR_OK; |
| |
| // check the PON intf id |
| if (intf_id >= MAX_SUPPORTED_PON) { |
| err = BCM_ERR_PARM; |
| OPENOLT_LOG(ERROR, openolt_log_id, "invalid pon intf_id - intf_id: %d, onu_id: %d\n", |
| intf_id, onu_id); |
| return bcm_to_grpc_err(err, "invalid pon intf_id"); |
| } |
| |
| bcmolt_onu_rssi_measurement onu_oper; /* declare main API struct */ |
| bcmolt_onu_key onu_key; /**< Object key. */ |
| onu_rssi_compltd_key key(intf_id, onu_id); |
| Queue<onu_rssi_complete_result> queue; |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "GetPonRxPower - intf_id %d, onu_id %d\n", intf_id, onu_id); |
| |
| onu_key.onu_id = onu_id; |
| onu_key.pon_ni = intf_id; |
| /* Initialize the API struct. */ |
| BCMOLT_OPER_INIT(&onu_oper, onu, rssi_measurement, onu_key); |
| err = bcmolt_oper_submit(dev_id, &onu_oper.hdr); |
| if (err == BCM_ERR_OK) { |
| // initialize map |
| bcmos_fastlock_lock(&onu_rssi_wait_lock); |
| onu_rssi_compltd_map.insert({key, &queue}); |
| bcmos_fastlock_unlock(&onu_rssi_wait_lock, 0); |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to measure rssi rx power - intf_id: %d, onu_id: %d, err = %s (%d): %s\n", |
| intf_id, onu_id, bcmos_strerror(err), err, onu_oper.hdr.hdr.err_text); |
| return bcm_to_grpc_err(err, "failed to measure rssi rx power"); |
| } |
| |
| onu_rssi_complete_result completed{}; |
| if (!queue.pop(completed, ONU_RSSI_COMPLETE_WAIT_TIMEOUT)) { |
| // invalidate the queue pointer |
| bcmos_fastlock_lock(&onu_rssi_wait_lock); |
| onu_rssi_compltd_map[key] = NULL; |
| bcmos_fastlock_unlock(&onu_rssi_wait_lock, 0); |
| err = BCM_ERR_TIMEOUT; |
| OPENOLT_LOG(ERROR, openolt_log_id, "timeout waiting for RSSI Measurement Completed indication intf_id %d, onu_id %d\n", |
| intf_id, onu_id); |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "RSSI Rx power - intf_id: %d, onu_id: %d, status: %s, fail_reason: %d, rx_power_mean_dbm: %f\n", |
| completed.pon_intf_id, completed.onu_id, completed.status.c_str(), completed.reason, completed.rx_power_mean_dbm); |
| |
| response->set_intf_id(completed.pon_intf_id); |
| response->set_onu_id(completed.onu_id); |
| response->set_status(completed.status); |
| response->set_fail_reason(static_cast<::openolt::PonRxPowerData_RssiMeasurementFailReason>(completed.reason)); |
| response->set_rx_power_mean_dbm(completed.rx_power_mean_dbm); |
| } |
| |
| // Remove entry from map |
| bcmos_fastlock_lock(&onu_rssi_wait_lock); |
| onu_rssi_compltd_map.erase(key); |
| bcmos_fastlock_unlock(&onu_rssi_wait_lock, 0); |
| |
| if (err == BCM_ERR_OK) { |
| return Status::OK; |
| } else { |
| return bcm_to_grpc_err(err, "timeout waiting for pon rssi measurement complete indication"); |
| } |
| } |