| /* |
| * 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 <fstream> |
| #include <sstream> |
| #include "core_utils.h" |
| |
| // save the TLS option |
| static std::string tls_option_arg{}; |
| |
| std::string serial_number_to_str(bcmolt_serial_number* serial_number) { |
| #define SERIAL_NUMBER_SIZE 12 |
| char buff[SERIAL_NUMBER_SIZE+1]; |
| |
| sprintf(buff, "%c%c%c%c%1X%1X%1X%1X%1X%1X%1X%1X", |
| serial_number->vendor_id.arr[0], |
| serial_number->vendor_id.arr[1], |
| serial_number->vendor_id.arr[2], |
| serial_number->vendor_id.arr[3], |
| serial_number->vendor_specific.arr[0]>>4 & 0x0f, |
| serial_number->vendor_specific.arr[0] & 0x0f, |
| serial_number->vendor_specific.arr[1]>>4 & 0x0f, |
| serial_number->vendor_specific.arr[1] & 0x0f, |
| serial_number->vendor_specific.arr[2]>>4 & 0x0f, |
| serial_number->vendor_specific.arr[2] & 0x0f, |
| serial_number->vendor_specific.arr[3]>>4 & 0x0f, |
| serial_number->vendor_specific.arr[3] & 0x0f); |
| |
| return buff; |
| } |
| |
| std::string vendor_specific_to_str(char const * const vendor_specific) { |
| char buff[SERIAL_NUMBER_SIZE+1]; |
| |
| sprintf(buff, "%1X%1X%1X%1X%1X%1X%1X%1X", |
| vendor_specific[0]>>4 & 0x0f, |
| vendor_specific[0] & 0x0f, |
| vendor_specific[1]>>4 & 0x0f, |
| vendor_specific[1] & 0x0f, |
| vendor_specific[2]>>4 & 0x0f, |
| vendor_specific[2] & 0x0f, |
| vendor_specific[3]>>4 & 0x0f, |
| vendor_specific[3] & 0x0f); |
| |
| return buff; |
| } |
| /** |
| * Returns the default NNI (Upstream direction) or PON (Downstream direction) scheduler |
| * Every NNI port and PON port have default scheduler. |
| * The NNI0 default scheduler ID is 18432, and NNI1 is 18433 and so on. |
| * Similarly, PON0 default scheduler ID is 16384. PON1 is 16385 and so on. |
| * |
| * @param intf_id NNI or PON interface ID |
| * @param direction "upstream" or "downstream" |
| * |
| * @return default scheduler ID for the given interface. |
| */ |
| |
| uint16_t get_dev_id(void) { |
| return dev_id; |
| } |
| |
| int get_default_tm_sched_id(int intf_id, std::string direction) { |
| if (direction == upstream) { |
| return tm_upstream_sched_id_start + intf_id; |
| } else if (direction == downstream) { |
| return tm_downstream_sched_id_start + intf_id; |
| } |
| else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "invalid direction - %s\n", direction.c_str()); |
| return 0; |
| } |
| } |
| |
| /** |
| * Gets a unique tm_sched_id for a given intf_id, onu_id, uni_id, gemport_id, direction |
| * The tm_sched_id is locally cached in a map, so that it can rendered when necessary. |
| * VOLTHA replays whole configuration on OLT reboot, so caching locally is not a problem. |
| * Note that tech_profile_id is used to differentiate service schedulers in downstream direction. |
| * |
| * @param intf_id NNI or PON intf ID |
| * @param onu_id ONU ID |
| * @param uni_id UNI ID |
| * @param gemport_id GEM Port ID |
| * @param direction Upstream or downstream |
| * @param tech_profile_id Technology Profile ID |
| * |
| * @return tm_sched_id |
| */ |
| uint32_t get_tm_sched_id(int pon_intf_id, int onu_id, int uni_id, std::string direction, int tech_profile_id) { |
| sched_map_key_tuple key(pon_intf_id, onu_id, uni_id, direction, tech_profile_id); |
| int sched_id = -1; |
| |
| bcmos_fastlock_lock(&tm_sched_bitset_lock); |
| |
| std::map<sched_map_key_tuple, int>::const_iterator it = sched_map.find(key); |
| if (it != sched_map.end()) { |
| sched_id = it->second; |
| } |
| if (sched_id != -1) { |
| bcmos_fastlock_unlock(&tm_sched_bitset_lock, 0); |
| return sched_id; |
| } |
| |
| // Complexity of O(n). Is there better way that can avoid linear search? |
| for (sched_id = 0; sched_id < MAX_TM_SCHED_ID; sched_id++) { |
| if (tm_sched_bitset[sched_id] == 0) { |
| tm_sched_bitset[sched_id] = 1; |
| break; |
| } |
| } |
| |
| if (sched_id < MAX_TM_SCHED_ID) { |
| sched_map[key] = sched_id; |
| bcmos_fastlock_unlock(&tm_sched_bitset_lock, 0); |
| return sched_id; |
| } else { |
| bcmos_fastlock_unlock(&tm_sched_bitset_lock, 0); |
| return -1; |
| } |
| } |
| |
| /** |
| * Free tm_sched_id for a given intf_id, onu_id, uni_id, gemport_id, direction, tech_profile_id |
| * |
| * @param intf_id NNI or PON intf ID |
| * @param onu_id ONU ID |
| * @param uni_id UNI ID |
| * @param gemport_id GEM Port ID |
| * @param direction Upstream or downstream |
| * @param tech_profile_id Technology Profile ID |
| */ |
| void free_tm_sched_id(int pon_intf_id, int onu_id, int uni_id, std::string direction, int tech_profile_id) { |
| sched_map_key_tuple key(pon_intf_id, onu_id, uni_id, direction, tech_profile_id); |
| std::map<sched_map_key_tuple, int>::const_iterator it; |
| bcmos_fastlock_lock(&tm_sched_bitset_lock); |
| it = sched_map.find(key); |
| if (it != sched_map.end()) { |
| tm_sched_bitset[it->second] = 0; |
| sched_map.erase(it); |
| } |
| bcmos_fastlock_unlock(&tm_sched_bitset_lock, 0); |
| } |
| |
| bool is_tm_sched_id_present(int pon_intf_id, int onu_id, int uni_id, std::string direction, int tech_profile_id) { |
| sched_map_key_tuple key(pon_intf_id, onu_id, uni_id, direction, tech_profile_id); |
| std::map<sched_map_key_tuple, int>::const_iterator it = sched_map.find(key); |
| if (it != sched_map.end()) { |
| return true; |
| } |
| return false; |
| } |
| |
| /** |
| * Check whether given two tm qmp profiles are equal or not |
| * |
| * @param tmq_map_profileA <vector> TM QUEUE MAPPING PROFILE |
| * @param tmq_map_profileB <vector> TM QUEUE MAPPING PROFILE |
| * |
| * @return boolean, true if given tmq_map_profiles are equal else false |
| */ |
| |
| bool check_tm_qmp_equality(std::vector<uint32_t> tmq_map_profileA, std::vector<uint32_t> tmq_map_profileB) { |
| for (uint32_t i = 0; i < TMQ_MAP_PROFILE_SIZE; i++) { |
| if (tmq_map_profileA[i] != tmq_map_profileB[i]) { |
| return false; |
| } |
| } |
| return true; |
| } |
| |
| /** |
| * Modifies given queues_pbit_map to parsable format |
| * e.g: Modifes "0b00000101" to "10100000" |
| * |
| * @param queues_pbit_map PBIT MAP configured for each GEM in TECH PROFILE |
| * @param size Queue count |
| * |
| * @return string queues_pbit_map |
| */ |
| std::string* get_valid_queues_pbit_map(std::string *queues_pbit_map, uint32_t size) { |
| for(uint32_t i=0; i < size; i++) { |
| /* Deletes 2 characters from index number 0 */ |
| queues_pbit_map[i].erase(0, 2); |
| std::reverse(queues_pbit_map[i].begin(), queues_pbit_map[i].end()); |
| } |
| return queues_pbit_map; |
| } |
| |
| /** |
| * Creates TM QUEUE MAPPING PROFILE for given queues_pbit_map and queues_priority_q |
| * |
| * @param queues_pbit_map PBIT MAP configured for each GEM in TECH PROFILE |
| * @param queues_priority_q PRIORITY_Q configured for each GEM in TECH PROFILE |
| * @param size Queue count |
| * |
| * @return <vector> TM QUEUE MAPPING PROFILE |
| */ |
| std::vector<uint32_t> get_tmq_map_profile(std::string *queues_pbit_map, uint32_t *queues_priority_q, uint32_t size) { |
| std::vector<uint32_t> tmq_map_profile(8,0); |
| |
| for(uint32_t i=0; i < size; i++) { |
| for (uint32_t j = 0; j < queues_pbit_map[i].size(); j++) { |
| if (queues_pbit_map[i][j]=='1') { |
| tmq_map_profile.at(j) = queue_id_list[queues_priority_q[i]]; |
| } |
| } |
| } |
| return tmq_map_profile; |
| } |
| |
| /** |
| * Gets corresponding tm_qmp_id for a given tmq_map_profile |
| * |
| * @param <vector> TM QUEUE MAPPING PROFILE |
| * |
| * @return tm_qmp_id |
| */ |
| int get_tm_qmp_id(std::vector<uint32_t> tmq_map_profile) { |
| int tm_qmp_id = -1; |
| |
| std::map<int, std::vector < uint32_t > >::const_iterator it = qmp_id_to_qmp_map.begin(); |
| while(it != qmp_id_to_qmp_map.end()) { |
| if(check_tm_qmp_equality(tmq_map_profile, it->second)) { |
| tm_qmp_id = it->first; |
| break; |
| } |
| it++; |
| } |
| return tm_qmp_id; |
| } |
| |
| /** |
| * Updates sched_qmp_id_map with given sched_id, pon_intf_id, onu_id, uni_id, tm_qmp_id |
| * |
| * @param upstream/downstream sched_id |
| * @param PON intf ID |
| * @param onu_id ONU ID |
| * @param uni_id UNI ID |
| * @param tm_qmp_id TM QUEUE MAPPING PROFILE ID |
| */ |
| void update_sched_qmp_id_map(uint32_t sched_id,uint32_t pon_intf_id, uint32_t onu_id, \ |
| uint32_t uni_id, int tm_qmp_id) { |
| bcmos_fastlock_lock(&tm_qmp_bitset_lock); |
| sched_qmp_id_map_key_tuple key(sched_id, pon_intf_id, onu_id, uni_id); |
| sched_qmp_id_map.insert(make_pair(key, tm_qmp_id)); |
| bcmos_fastlock_unlock(&tm_qmp_bitset_lock, 0); |
| } |
| |
| /** |
| * Gets corresponding tm_qmp_id for a given sched_id, pon_intf_id, onu_id, uni_id |
| * |
| * @param upstream/downstream sched_id |
| * @param PON intf ID |
| * @param onu_id ONU ID |
| * @param uni_id UNI ID |
| * |
| * @return tm_qmp_id |
| */ |
| int get_tm_qmp_id(uint32_t sched_id,uint32_t pon_intf_id, uint32_t onu_id, uint32_t uni_id) { |
| sched_qmp_id_map_key_tuple key(sched_id, pon_intf_id, onu_id, uni_id); |
| int tm_qmp_id = -1; |
| |
| std::map<sched_qmp_id_map_key_tuple, int>::const_iterator it = sched_qmp_id_map.find(key); |
| if (it != sched_qmp_id_map.end()) { |
| tm_qmp_id = it->second; |
| } |
| return tm_qmp_id; |
| } |
| |
| /** |
| * Gets a unique tm_qmp_id for a given tmq_map_profile |
| * The tm_qmp_id is locally cached in a map, so that it can be rendered when necessary. |
| * VOLTHA replays whole configuration on OLT reboot, so caching locally is not a problem |
| * |
| * @param upstream/downstream sched_id |
| * @param PON intf ID |
| * @param onu_id ONU ID |
| * @param uni_id UNI ID |
| * @param <vector> TM QUEUE MAPPING PROFILE |
| * |
| * @return tm_qmp_id |
| */ |
| int get_tm_qmp_id(uint32_t sched_id,uint32_t pon_intf_id, uint32_t onu_id, uint32_t uni_id, \ |
| std::vector<uint32_t> tmq_map_profile) { |
| int tm_qmp_id; |
| |
| bcmos_fastlock_lock(&tm_qmp_bitset_lock); |
| /* Complexity of O(n). Is there better way that can avoid linear search? */ |
| for (tm_qmp_id = 0; tm_qmp_id < MAX_TM_QMP_ID; tm_qmp_id++) { |
| if (tm_qmp_bitset[tm_qmp_id] == 0) { |
| tm_qmp_bitset[tm_qmp_id] = 1; |
| break; |
| } |
| } |
| |
| if (tm_qmp_id < MAX_TM_QMP_ID) { |
| qmp_id_to_qmp_map.insert(make_pair(tm_qmp_id, tmq_map_profile)); |
| bcmos_fastlock_unlock(&tm_qmp_bitset_lock, 0); |
| update_sched_qmp_id_map(sched_id, pon_intf_id, onu_id, uni_id, tm_qmp_id); |
| return tm_qmp_id; |
| } else { |
| bcmos_fastlock_unlock(&tm_qmp_bitset_lock, 0); |
| return -1; |
| } |
| } |
| |
| /** |
| * Free tm_qmp_id for a given sched_id, pon_intf_id, onu_id, uni_id |
| * |
| * @param upstream/downstream sched_id |
| * @param PON intf ID |
| * @param onu_id ONU ID |
| * @param uni_id UNI ID |
| * @param tm_qmp_id TM QUEUE MAPPING PROFILE ID |
| * |
| * @return boolean, true if no more reference for TM QMP else false |
| */ |
| bool free_tm_qmp_id(uint32_t sched_id,uint32_t pon_intf_id, uint32_t onu_id, \ |
| uint32_t uni_id, int tm_qmp_id) { |
| bool result; |
| sched_qmp_id_map_key_tuple key(sched_id, pon_intf_id, onu_id, uni_id); |
| std::map<sched_qmp_id_map_key_tuple, int>::const_iterator it = sched_qmp_id_map.find(key); |
| bcmos_fastlock_lock(&tm_qmp_bitset_lock); |
| if (it != sched_qmp_id_map.end()) { |
| sched_qmp_id_map.erase(it); |
| } |
| |
| uint32_t tm_qmp_ref_count = 0; |
| std::map<sched_qmp_id_map_key_tuple, int>::const_iterator it2 = sched_qmp_id_map.begin(); |
| while(it2 != sched_qmp_id_map.end()) { |
| if(it2->second == tm_qmp_id) { |
| tm_qmp_ref_count++; |
| } |
| it2++; |
| } |
| |
| if (tm_qmp_ref_count == 0) { |
| std::map<int, std::vector < uint32_t > >::const_iterator it3 = qmp_id_to_qmp_map.find(tm_qmp_id); |
| if (it3 != qmp_id_to_qmp_map.end()) { |
| tm_qmp_bitset[tm_qmp_id] = 0; |
| qmp_id_to_qmp_map.erase(it3); |
| OPENOLT_LOG(INFO, openolt_log_id, "Reference count for tm qmp profile id %d is : %d. So clearing it\n", \ |
| tm_qmp_id, tm_qmp_ref_count); |
| result = true; |
| } |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Reference count for tm qmp profile id %d is : %d. So not clearing it\n", \ |
| tm_qmp_id, tm_qmp_ref_count); |
| result = false; |
| } |
| bcmos_fastlock_unlock(&tm_qmp_bitset_lock, 0); |
| |
| return result; |
| } |
| |
| /* ACL ID is a shared resource, caller of this function has to ensure atomicity using locks |
| Gets free ACL ID if available, else -1. */ |
| int get_acl_id() { |
| int acl_id; |
| |
| bcmos_fastlock_lock(&acl_id_bitset_lock); |
| /* Complexity of O(n). Is there better way that can avoid linear search? */ |
| for (acl_id = 0; acl_id < MAX_ACL_ID; acl_id++) { |
| if (acl_id_bitset[acl_id] == 0) { |
| acl_id_bitset[acl_id] = 1; |
| break; |
| } |
| } |
| bcmos_fastlock_unlock(&acl_id_bitset_lock, 0); |
| |
| if (acl_id < MAX_ACL_ID) { |
| return acl_id ; |
| } else { |
| return -1; |
| } |
| } |
| |
| /* ACL ID is a shared resource, caller of this function has to ensure atomicity using locks |
| Frees up the ACL ID. */ |
| void free_acl_id (int acl_id) { |
| bcmos_fastlock_lock(&acl_id_bitset_lock); |
| if (acl_id < MAX_ACL_ID) { |
| acl_id_bitset[acl_id] = 0; |
| } |
| bcmos_fastlock_unlock(&acl_id_bitset_lock, 0); |
| } |
| |
| /* Gets a free Flow ID if available, else INVALID_FLOW_ID */ |
| uint16_t get_flow_id() { |
| uint16_t flow_id; |
| |
| bcmos_fastlock_lock(&flow_id_bitset_lock); |
| /* Complexity of O(n). Is there better way that can avoid linear search? */ |
| // start flow_id from 1 as 0 is invalid |
| for (flow_id = FLOW_ID_START; flow_id <= FLOW_ID_END; flow_id++) { |
| if (flow_id_bitset[flow_id] == 0) { |
| flow_id_bitset[flow_id] = 1; |
| break; |
| } |
| } |
| bcmos_fastlock_unlock(&flow_id_bitset_lock, 0); |
| |
| if (flow_id <= MAX_FLOW_ID) { |
| return flow_id ; |
| } else { |
| return INVALID_FLOW_ID; |
| } |
| } |
| |
| /* Gets requested number of Flow IDs. |
| 'num_of_flow_ids' is number of flow_ids requested. This cannot be more than NUMBER_OF_PBITS |
| 'flow_ids' is pointer to array of size NUMBER_OF_PBITS |
| If the operation is successful, returns true else false |
| The operation is successful if we can allocate fully the number of flow_ids requested. |
| */ |
| bool get_flow_ids(int num_of_flow_ids, uint16_t *flow_ids) { |
| if (num_of_flow_ids > NUMBER_OF_PBITS) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "requested number of flow_ids is more than 8\n"); |
| return false; |
| } |
| int cnt = 0; |
| |
| bcmos_fastlock_lock(&flow_id_bitset_lock); |
| /* Complexity of O(n). Is there better way that can avoid linear search? */ |
| // start flow_id from 1 as 0 is invalid |
| for (uint16_t flow_id = FLOW_ID_START; flow_id <= FLOW_ID_END && cnt < num_of_flow_ids; flow_id++) { |
| if (flow_id_bitset[flow_id] == 0) { |
| flow_id_bitset[flow_id] = 1; |
| flow_ids[cnt] = flow_id; |
| cnt++; |
| } |
| } |
| bcmos_fastlock_unlock(&flow_id_bitset_lock, 0); |
| // If we could not allocate the requested number of flow_ids free the allocated flow_ids |
| // and return false |
| if (cnt != num_of_flow_ids) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "could not allocated the rquested number of flows ids. requested=%d, allocated=%d", num_of_flow_ids, cnt); |
| if (cnt > 0) { |
| for(int i=0; i < cnt; i++) { |
| free_flow_id(flow_ids[i]); |
| } |
| } |
| return false; |
| } |
| return true; |
| } |
| |
| /* Frees up the FLOW ID. */ |
| void free_flow_id (uint16_t flow_id) { |
| bcmos_fastlock_lock(&flow_id_bitset_lock); |
| if (flow_id <= MAX_FLOW_ID) { |
| flow_id_bitset[flow_id] = 0; |
| } |
| bcmos_fastlock_unlock(&flow_id_bitset_lock, 0); |
| } |
| |
| void free_flow_ids(uint8_t num_flows, uint16_t *flow_ids) { |
| for (uint8_t i = 0; i < num_flows; i++) { |
| bcmos_fastlock_lock(&flow_id_bitset_lock); |
| if (flow_ids[i] <= MAX_FLOW_ID) { |
| flow_id_bitset[flow_ids[i]] = 0; |
| } |
| bcmos_fastlock_unlock(&flow_id_bitset_lock, 0); |
| } |
| } |
| |
| /** |
| * Returns qos type as string |
| * |
| * @param qos_type bcmolt_egress_qos_type enum |
| */ |
| std::string get_qos_type_as_string(bcmolt_egress_qos_type qos_type) { |
| switch (qos_type) |
| { |
| case BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE: return "FIXED_QUEUE"; |
| case BCMOLT_EGRESS_QOS_TYPE_TC_TO_QUEUE: return "TC_TO_QUEUE"; |
| case BCMOLT_EGRESS_QOS_TYPE_PBIT_TO_TC: return "PBIT_TO_TC"; |
| case BCMOLT_EGRESS_QOS_TYPE_NONE: return "NONE"; |
| case BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE: return "PRIORITY_TO_QUEUE"; |
| default: OPENOLT_LOG(ERROR, openolt_log_id, "qos-type-not-supported %d\n", qos_type); |
| return "qos-type-not-supported"; |
| } |
| } |
| |
| /** |
| * Gets/Updates qos type for given pon_intf_id, onu_id, uni_id |
| * |
| * @param PON intf ID |
| * @param onu_id ONU ID |
| * @param uni_id UNI ID |
| * @param queue_size TrafficQueues Size |
| * |
| * @return qos_type |
| */ |
| bcmolt_egress_qos_type get_qos_type(uint32_t pon_intf_id, uint32_t onu_id, uint32_t uni_id, uint32_t queue_size) { |
| qos_type_map_key_tuple key(pon_intf_id, onu_id, uni_id); |
| bcmolt_egress_qos_type egress_qos_type = BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE; |
| std::string qos_string; |
| |
| std::map<qos_type_map_key_tuple, bcmolt_egress_qos_type>::const_iterator it = qos_type_map.find(key); |
| if (it != qos_type_map.end()) { |
| egress_qos_type = it->second; |
| qos_string = get_qos_type_as_string(egress_qos_type); |
| OPENOLT_LOG(INFO, openolt_log_id, "Qos-type for subscriber connected to pon_intf_id %d, onu_id %d and uni_id %d is %s\n", \ |
| pon_intf_id, onu_id, uni_id, qos_string.c_str()); |
| } |
| else { |
| /* QOS Type has been pre-defined as Fixed Queue but it will be updated based on number of GEMPORTS |
| associated for a given subscriber. If GEM count = 1 for a given subscriber, qos_type will be Fixed Queue |
| else Priority to Queue */ |
| egress_qos_type = (queue_size > 1) ? \ |
| BCMOLT_EGRESS_QOS_TYPE_PRIORITY_TO_QUEUE : BCMOLT_EGRESS_QOS_TYPE_FIXED_QUEUE; |
| bcmos_fastlock_lock(&data_lock); |
| qos_type_map.insert(make_pair(key, egress_qos_type)); |
| bcmos_fastlock_unlock(&data_lock, 0); |
| qos_string = get_qos_type_as_string(egress_qos_type); |
| OPENOLT_LOG(INFO, openolt_log_id, "Qos-type for subscriber connected to pon_intf_id %d, onu_id %d and uni_id %d is %s\n", \ |
| pon_intf_id, onu_id, uni_id, qos_string.c_str()); |
| } |
| return egress_qos_type; |
| } |
| |
| /** |
| * Clears qos type for given pon_intf_id, onu_id, uni_id |
| * |
| * @param PON intf ID |
| * @param onu_id ONU ID |
| * @param uni_id UNI ID |
| */ |
| void clear_qos_type(uint32_t pon_intf_id, uint32_t onu_id, uint32_t uni_id) { |
| qos_type_map_key_tuple key(pon_intf_id, onu_id, uni_id); |
| std::map<qos_type_map_key_tuple, bcmolt_egress_qos_type>::const_iterator it = qos_type_map.find(key); |
| bcmos_fastlock_lock(&data_lock); |
| if (it != qos_type_map.end()) { |
| qos_type_map.erase(it); |
| OPENOLT_LOG(INFO, openolt_log_id, "Cleared Qos-type for subscriber connected to pon_intf_id %d, onu_id %d and uni_id %d\n", \ |
| pon_intf_id, onu_id, uni_id); |
| } |
| bcmos_fastlock_unlock(&data_lock, 0); |
| } |
| |
| /** |
| * Returns Scheduler/Queue direction as string |
| * |
| * @param direction as specified in tech_profile.proto |
| */ |
| std::string GetDirection(int direction) { |
| switch (direction) |
| { |
| case tech_profile::Direction::UPSTREAM: return upstream; |
| case tech_profile::Direction::DOWNSTREAM: return downstream; |
| default: OPENOLT_LOG(ERROR, openolt_log_id, "direction-not-supported %d\n", direction); |
| return "direction-not-supported"; |
| } |
| } |
| |
| // This method handles waiting for AllocObject configuration. |
| // Returns error if the AllocObject is not in the appropriate state based on action requested. |
| bcmos_errno wait_for_alloc_action(uint32_t intf_id, uint32_t alloc_id, AllocCfgAction action) { |
| Queue<alloc_cfg_complete_result> cfg_result; |
| alloc_cfg_compltd_key k(intf_id, alloc_id); |
| bcmos_fastlock_lock(&alloc_cfg_wait_lock); |
| alloc_cfg_compltd_map[k] = &cfg_result; |
| bcmos_fastlock_unlock(&alloc_cfg_wait_lock, 0); |
| bcmos_errno err = BCM_ERR_OK; |
| |
| // Try to pop the result from BAL with a timeout of ALLOC_CFG_COMPLETE_WAIT_TIMEOUT ms |
| std::pair<alloc_cfg_complete_result, bool> result = cfg_result.pop(ALLOC_CFG_COMPLETE_WAIT_TIMEOUT); |
| if (result.second == false) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "timeout waiting for alloc cfg complete indication intf_id %d, alloc_id %d, action = %d\n", |
| intf_id, alloc_id, action); |
| // Invalidate the queue pointer. |
| bcmos_fastlock_lock(&alloc_cfg_wait_lock); |
| alloc_cfg_compltd_map[k] = NULL; |
| bcmos_fastlock_unlock(&alloc_cfg_wait_lock, 0); |
| err = BCM_ERR_INTERNAL; |
| // If the Alloc object is already in the right state after the performed operation, return OK. |
| bcmolt_activation_state state; |
| err = get_alloc_obj_state(intf_id, alloc_id, &state); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "error fetching alloc obj state intf_id = %d, alloc_id %d, action = %d, err = %d\n", |
| intf_id, alloc_id, action, err); |
| return err; |
| } |
| if ((state == BCMOLT_ACTIVATION_STATE_NOT_CONFIGURED && action == ALLOC_OBJECT_DELETE) || |
| (state == BCMOLT_ACTIVATION_STATE_ACTIVE && action == ALLOC_OBJECT_CREATE)) { |
| OPENOLT_LOG(WARNING, openolt_log_id, "operation timed out, but the alloc object is the right state intf_id = %d, gem_port_id %d, action = %d\n", |
| intf_id, alloc_id, action); |
| return BCM_ERR_OK; |
| } |
| } |
| else if (result.first.status == ALLOC_CFG_STATUS_FAIL) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "error processing alloc cfg request intf_id %d, alloc_id %d, action = %d\n", |
| intf_id, alloc_id, action); |
| err = BCM_ERR_INTERNAL; |
| } |
| |
| if (err == BCM_ERR_OK) { |
| if (action == ALLOC_OBJECT_CREATE) { |
| if (result.first.state != ALLOC_OBJECT_STATE_ACTIVE) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "alloc object not in active state intf_id %d, alloc_id %d alloc_obj_state %d\n", |
| intf_id, alloc_id, result.first.state); |
| err = BCM_ERR_INTERNAL; |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Create upstream bandwidth allocation success, intf_id %d, alloc_id %d\n", |
| intf_id, alloc_id); |
| } |
| } else { // ALLOC_OBJECT_DELETE |
| if (result.first.state != ALLOC_OBJECT_STATE_NOT_CONFIGURED) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "alloc object is not reset intf_id %d, alloc_id %d alloc_obj_state %d\n", |
| intf_id, alloc_id, result.first.state); |
| err = BCM_ERR_INTERNAL; |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Remove alloc object success, intf_id %d, alloc_id %d\n", |
| intf_id, alloc_id); |
| } |
| } |
| } |
| |
| // Remove entry from map |
| bcmos_fastlock_lock(&alloc_cfg_wait_lock); |
| alloc_cfg_compltd_map.erase(k); |
| bcmos_fastlock_unlock(&alloc_cfg_wait_lock, 0); |
| return err; |
| } |
| |
| // This method handles waiting for GemObject configuration. |
| // Returns error if the GemObject is not in the appropriate state based on action requested. |
| bcmos_errno wait_for_gem_action(uint32_t intf_id, uint32_t gem_port_id, GemCfgAction action) { |
| Queue<gem_cfg_complete_result> cfg_result; |
| gem_cfg_compltd_key k(intf_id, gem_port_id); |
| bcmos_fastlock_lock(&gem_cfg_wait_lock); |
| gem_cfg_compltd_map[k] = &cfg_result; |
| bcmos_fastlock_unlock(&gem_cfg_wait_lock, 0); |
| bcmos_errno err = BCM_ERR_OK; |
| |
| // Try to pop the result from BAL with a timeout of GEM_CFG_COMPLETE_WAIT_TIMEOUT ms |
| std::pair<gem_cfg_complete_result, bool> result = cfg_result.pop(GEM_CFG_COMPLETE_WAIT_TIMEOUT); |
| if (result.second == false) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "timeout waiting for gem cfg complete indication intf_id %d, gem_port_id %d, action = %d\n", |
| intf_id, gem_port_id, action); |
| // Invalidate the queue pointer. |
| bcmos_fastlock_lock(&gem_cfg_wait_lock); |
| gem_cfg_compltd_map[k] = NULL; |
| bcmos_fastlock_unlock(&gem_cfg_wait_lock, 0); |
| err = BCM_ERR_INTERNAL; |
| // If the GEM object is already in the right state after the performed operation, return OK. |
| bcmolt_activation_state state; |
| err = get_gem_obj_state(intf_id, gem_port_id, &state); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "error fetching gem obj state intf_id = %d, gem_port_id %d, action = %d, err = %d\n", |
| intf_id, gem_port_id, action, err); |
| return err; |
| } |
| if ((state == BCMOLT_ACTIVATION_STATE_NOT_CONFIGURED && action == GEM_OBJECT_DELETE) || |
| (state == BCMOLT_ACTIVATION_STATE_ACTIVE && action == GEM_OBJECT_CREATE)) { |
| OPENOLT_LOG(WARNING, openolt_log_id, "operation timed out, but the gem object is the right state intf_id = %d, gem_port_id %d, action = %d\n", |
| intf_id, gem_port_id, action); |
| return BCM_ERR_OK; |
| } |
| } |
| else if (result.first.status == GEM_CFG_STATUS_FAIL) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "error processing gem cfg request intf_id %d, gem_port_id %d, action = %d\n", |
| intf_id, gem_port_id, action); |
| err = BCM_ERR_INTERNAL; |
| } |
| |
| if (err == BCM_ERR_OK) { |
| if (action == GEM_OBJECT_CREATE) { |
| if (result.first.state != GEM_OBJECT_STATE_ACTIVE) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "gem object not in active state intf_id %d, gem_port_id %d gem_obj_state %d\n", |
| intf_id, gem_port_id, result.first.state); |
| err = BCM_ERR_INTERNAL; |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Create itupon gem object success, intf_id %d, gem_port_id %d\n", |
| intf_id, gem_port_id); |
| } |
| } else if (action == GEM_OBJECT_ENCRYPT) { |
| if (result.first.state != GEM_OBJECT_STATE_ACTIVE) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "gem object not in active state intf_id %d, gem_port_id %d gem_obj_state %d\n", |
| intf_id, gem_port_id, result.first.state); |
| err = BCM_ERR_INTERNAL; |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Enable itupon gem object encryption success, intf_id %d, gem_port_id %d\n", |
| intf_id, gem_port_id); |
| } |
| } else { // GEM_OBJECT_DELETE |
| if (result.first.state != GEM_OBJECT_STATE_NOT_CONFIGURED) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "gem object is not reset intf_id %d, gem_port_id %d gem_obj_state %d\n", |
| intf_id, gem_port_id, result.first.state); |
| err = BCM_ERR_INTERNAL; |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "Remove itupon gem object success, intf_id %d, gem_port_id %d\n", |
| intf_id, gem_port_id); |
| } |
| } |
| } |
| |
| // Remove entry from map |
| bcmos_fastlock_lock(&gem_cfg_wait_lock); |
| gem_cfg_compltd_map.erase(k); |
| bcmos_fastlock_unlock(&gem_cfg_wait_lock, 0); |
| return err; |
| } |
| |
| // This method handles waiting for OnuDeactivate Completed Indication |
| bcmos_errno wait_for_onu_deactivate_complete(uint32_t intf_id, uint32_t onu_id) { |
| Queue<onu_deactivate_complete_result> deact_result; |
| onu_deact_compltd_key k(intf_id, onu_id); |
| onu_deact_compltd_map[k] = &deact_result; |
| bcmos_errno err = BCM_ERR_OK; |
| |
| // Try to pop the result from BAL with a timeout of ONU_DEACTIVATE_COMPLETE_WAIT_TIMEOUT ms |
| std::pair<onu_deactivate_complete_result, bool> result = deact_result.pop(ONU_DEACTIVATE_COMPLETE_WAIT_TIMEOUT); |
| if (result.second == false) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "timeout waiting for onu deactivate complete indication intf_id %d, onu_id %d\n", |
| intf_id, onu_id); |
| // Invalidate the queue pointer. |
| bcmos_fastlock_lock(&onu_deactivate_wait_lock); |
| onu_deact_compltd_map[k] = NULL; |
| bcmos_fastlock_unlock(&onu_deactivate_wait_lock, 0); |
| err = BCM_ERR_INTERNAL; |
| } |
| else if (result.first.result == BCMOLT_RESULT_FAIL) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "error processing onu deactivate request intf_id %d, onu_id %d, fail_reason %d\n", |
| intf_id, onu_id, result.first.reason); |
| err = BCM_ERR_INTERNAL; |
| } else if (result.first.result == BCMOLT_RESULT_SUCCESS) { |
| OPENOLT_LOG(INFO, openolt_log_id, "success processing onu deactivate request intf_id %d, onu_id %d\n", |
| intf_id, onu_id); |
| } |
| |
| // Remove entry from map |
| bcmos_fastlock_lock(&onu_deactivate_wait_lock); |
| onu_deact_compltd_map.erase(k); |
| bcmos_fastlock_unlock(&onu_deactivate_wait_lock, 0); |
| |
| return err; |
| } |
| |
| char* openolt_read_sysinfo(const char* field_name, char* field_val) |
| { |
| FILE *fp; |
| /* Prepare the command*/ |
| char command[150]; |
| |
| snprintf(command, sizeof command, "bash -l -c \"onlpdump -s\" | perl -ne 'print $1 if /%s: (\\S+)/'", field_name); |
| /* Open the command for reading. */ |
| fp = popen(command, "r"); |
| if (fp == NULL) { |
| /*The client has to check for a Null field value in this case*/ |
| OPENOLT_LOG(INFO, openolt_log_id, "Failed to query the %s\n", field_name); |
| return field_val; |
| } |
| |
| /*Read the field value*/ |
| if (fp) { |
| uint8_t ret; |
| ret = fread(field_val, OPENOLT_FIELD_LEN, 1, fp); |
| if (ret >= OPENOLT_FIELD_LEN) |
| OPENOLT_LOG(INFO, openolt_log_id, "Read data length %u\n", ret); |
| pclose(fp); |
| } |
| return field_val; |
| } |
| |
| Status pushOltOperInd(uint32_t intf_id, const char *type, const char *state, uint32_t speed) |
| { |
| ::openolt::Indication ind; |
| ::openolt::IntfOperIndication* intf_oper_ind = new ::openolt::IntfOperIndication; |
| |
| intf_oper_ind->set_type(type); |
| intf_oper_ind->set_intf_id(intf_id); |
| intf_oper_ind->set_oper_state(state); |
| intf_oper_ind->set_speed(speed); |
| ind.set_allocated_intf_oper_ind(intf_oper_ind); |
| oltIndQ.push(ind); |
| return Status::OK; |
| } |
| |
| #define CLI_HOST_PROMPT_FORMAT "BCM.%u> " |
| |
| /* Build CLI prompt */ |
| void openolt_cli_get_prompt_cb(bcmcli_session *session, char *buf, uint32_t max_len) |
| { |
| snprintf(buf, max_len, CLI_HOST_PROMPT_FORMAT, dev_id); |
| } |
| |
| int _bal_apiend_cli_thread_handler(long data) |
| { |
| char init_string[]="\n"; |
| bcmcli_session *sess = current_session; |
| bcmos_task_parm bal_cli_task_p_dummy; |
| |
| /* Switch to interactive mode if not stopped in the init script */ |
| if (!bcmcli_is_stopped(sess)) { |
| /* Force a CLI command prompt |
| * The string passed into the parse function |
| * must be modifiable, so a string constant like |
| * bcmcli_parse(current_session, "\n") will not |
| * work. |
| */ |
| bcmcli_parse(sess, init_string); |
| |
| /* Process user input until EOF or quit command */ |
| bcmcli_driver(sess); |
| } |
| OPENOLT_LOG(INFO, openolt_log_id, "BAL API End CLI terminated\n"); |
| |
| /* Cleanup */ |
| bcmcli_session_close(current_session); |
| bcmcli_token_destroy(NULL); |
| return 0; |
| } |
| |
| /* Init API CLI commands for the current device */ |
| bcmos_errno bcm_openolt_api_cli_init(bcmcli_entry *parent_dir, bcmcli_session *session) |
| { |
| bcmos_errno rc; |
| |
| api_parent_dir = parent_dir; |
| |
| rc = bcm_api_cli_set_commands(session); |
| |
| #ifdef BCM_SUBSYSTEM_HOST |
| /* Subscribe for device change indication */ |
| rc = rc ? rc : bcmolt_olt_sel_ind_register(_api_cli_olt_change_ind); |
| #endif |
| |
| return rc; |
| } |
| |
| bcmos_errno bcm_cli_quit(bcmcli_session *session, const bcmcli_cmd_parm parm[], uint16_t n_parms) |
| { |
| bcmcli_stop(session); |
| bcmcli_session_print(session, "CLI terminated by 'Quit' command\n"); |
| status_bcm_cli_quit = BCMOS_TRUE; |
| |
| return BCM_ERR_OK; |
| } |
| |
| int get_status_bcm_cli_quit(void) { |
| return status_bcm_cli_quit; |
| } |
| |
| bcmos_errno bcmolt_apiend_cli_init() { |
| bcmos_errno ret; |
| bcmos_task_parm bal_cli_task_p = {}; |
| bcmos_task_parm bal_cli_task_p_dummy; |
| |
| /** before creating the task, check if it is already created by the other half of BAL i.e. Core side */ |
| if (BCM_ERR_OK != bcmos_task_query(&bal_cli_thread, &bal_cli_task_p_dummy)) { |
| /* Create BAL CLI thread */ |
| bal_cli_task_p.name = bal_cli_thread_name; |
| bal_cli_task_p.handler = _bal_apiend_cli_thread_handler; |
| bal_cli_task_p.priority = TASK_PRIORITY_CLI; |
| |
| ret = bcmos_task_create(&bal_cli_thread, &bal_cli_task_p); |
| if (BCM_ERR_OK != ret) { |
| bcmos_printf("Couldn't create BAL API end CLI thread\n"); |
| return ret; |
| } |
| } |
| } |
| |
| bcmos_errno get_onu_state(bcmolt_interface pon_ni, int onu_id, bcmolt_onu_state *onu_state) { |
| bcmos_errno err; |
| bcmolt_onu_cfg onu_cfg; |
| bcmolt_onu_key onu_key; |
| onu_key.pon_ni = pon_ni; |
| onu_key.onu_id = onu_id; |
| |
| BCMOLT_CFG_INIT(&onu_cfg, onu, onu_key); |
| BCMOLT_MSG_FIELD_GET(&onu_cfg, onu_state); |
| err = bcmolt_cfg_get(dev_id, &onu_cfg.hdr); |
| *onu_state = onu_cfg.data.onu_state; |
| return err; |
| } |
| |
| bcmos_errno get_gem_obj_state(bcmolt_interface pon_ni, bcmolt_gem_port_id id, bcmolt_activation_state *state) { |
| bcmos_errno err; |
| bcmolt_itupon_gem_cfg cfg; |
| bcmolt_itupon_gem_key key; |
| key.pon_ni = pon_ni; |
| key.gem_port_id = id; |
| |
| BCMOLT_CFG_INIT(&cfg, itupon_gem, key); |
| BCMOLT_MSG_FIELD_GET(&cfg, state); |
| err = bcmolt_cfg_get(dev_id, &cfg.hdr); |
| *state = cfg.data.state; |
| return err; |
| } |
| |
| bcmos_errno get_alloc_obj_state(bcmolt_interface pon_ni, bcmolt_alloc_id id, bcmolt_activation_state *state) { |
| bcmos_errno err; |
| bcmolt_itupon_alloc_cfg cfg; |
| bcmolt_itupon_alloc_key key; |
| key.pon_ni = pon_ni; |
| key.alloc_id = id; |
| |
| BCMOLT_CFG_INIT(&cfg, itupon_alloc, key); |
| BCMOLT_MSG_FIELD_GET(&cfg, state); |
| err = bcmolt_cfg_get(dev_id, &cfg.hdr); |
| *state = cfg.data.state; |
| return err; |
| } |
| |
| bcmos_errno get_pon_interface_status(bcmolt_interface pon_ni, bcmolt_interface_state *state, bcmolt_status *los_status) { |
| bcmos_errno err; |
| bcmolt_pon_interface_key pon_key; |
| bcmolt_pon_interface_cfg pon_cfg; |
| pon_key.pon_ni = pon_ni; |
| |
| BCMOLT_CFG_INIT(&pon_cfg, pon_interface, pon_key); |
| BCMOLT_FIELD_SET_PRESENT(&pon_cfg.data, pon_interface_cfg_data, state); |
| BCMOLT_FIELD_SET_PRESENT(&pon_cfg.data, pon_interface_cfg_data, los_status); |
| #ifdef TEST_MODE |
| // It is impossible to mock the setting of pon_cfg.data.state because |
| // the actual bcmolt_cfg_get passes the address of pon_cfg.hdr and we cannot |
| // set the pon_cfg.data.state. So a new stub function is created and address |
| // of pon_cfg is passed. This is one-of case where we need to add test specific |
| // code in production code. |
| err = bcmolt_cfg_get__pon_intf_stub(dev_id, &pon_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &pon_cfg.hdr); |
| #endif |
| *state = pon_cfg.data.state; |
| *los_status = pon_cfg.data.los_status; |
| return err; |
| } |
| |
| /* Same as bcmolt_cfg_get but with added logic of retrying the API |
| in case of some specific failures like timeout or object not yet ready |
| */ |
| bcmos_errno bcmolt_cfg_get_mult_retry(bcmolt_oltid olt, bcmolt_cfg *cfg) { |
| bcmos_errno err; |
| uint32_t current_try = 0; |
| |
| while (current_try < MAX_BAL_API_RETRY_COUNT) { |
| err = bcmolt_cfg_get(olt, cfg); |
| current_try++; |
| |
| if (err == BCM_ERR_STATE || err == BCM_ERR_TIMEOUT) { |
| OPENOLT_LOG(WARNING, openolt_log_id, "bcmolt_cfg_get: err = %s\n", bcmos_strerror(err)); |
| bcmos_usleep(BAL_API_RETRY_TIME_IN_USECS); |
| continue; |
| } |
| else { |
| break; |
| } |
| } |
| |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "bcmolt_cfg_get tried (%d) times with retry time(%d usecs) err = %s\n", |
| current_try, |
| BAL_API_RETRY_TIME_IN_USECS, |
| bcmos_strerror(err)); |
| } |
| return err; |
| } |
| |
| |
| unsigned NumNniIf_() {return num_of_nni_ports;} |
| unsigned NumPonIf_() {return num_of_pon_ports;} |
| |
| bcmos_errno get_nni_interface_status(bcmolt_interface id, bcmolt_interface_state *state) { |
| bcmos_errno err; |
| bcmolt_nni_interface_key nni_key; |
| bcmolt_nni_interface_cfg nni_cfg; |
| nni_key.id = id; |
| |
| BCMOLT_CFG_INIT(&nni_cfg, nni_interface, nni_key); |
| BCMOLT_FIELD_SET_PRESENT(&nni_cfg.data, nni_interface_cfg_data, state); |
| #ifdef TEST_MODE |
| // It is impossible to mock the setting of nni_cfg.data.state because |
| // the actual bcmolt_cfg_get passes the address of nni_cfg.hdr and we cannot |
| // set the nni_cfg.data.state. So a new stub function is created and address |
| // of nni_cfg is passed. This is one-of case where we need to add test specific |
| // code in production code. |
| err = bcmolt_cfg_get__nni_intf_stub(dev_id, &nni_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &nni_cfg.hdr); |
| #endif |
| *state = nni_cfg.data.state; |
| return err; |
| } |
| |
| bcmos_errno get_nni_interface_speed(bcmolt_interface id, uint32_t *speed) |
| { |
| bcmos_errno err; |
| bcmolt_nni_interface_key nni_key; |
| bcmolt_nni_interface_cfg nni_cfg; |
| nni_key.id = id; |
| |
| BCMOLT_CFG_INIT(&nni_cfg, nni_interface, nni_key); |
| BCMOLT_FIELD_SET_PRESENT(&nni_cfg.data, nni_interface_cfg_data, speed); |
| err = bcmolt_cfg_get(dev_id, &nni_cfg.hdr); |
| *speed = nni_cfg.data.speed; |
| return err; |
| } |
| |
| Status install_gem_port(int32_t intf_id, int32_t onu_id, int32_t uni_id, int32_t gemport_id, std::string board_technology) { |
| gemport_status_map_key_tuple gem_status_key(intf_id, onu_id, uni_id, gemport_id); |
| |
| bcmos_fastlock_lock(&data_lock); |
| std::map<gemport_status_map_key_tuple, bool>::const_iterator it = gemport_status_map.find(gem_status_key); |
| if (it != gemport_status_map.end()) { |
| if (it->second) { |
| bcmos_fastlock_unlock(&data_lock, 0); |
| OPENOLT_LOG(INFO, openolt_log_id, "gem port already installed = %d\n", gemport_id); |
| return Status::OK; |
| } |
| } |
| bcmos_fastlock_unlock(&data_lock, 0); |
| |
| bcmos_errno err; |
| bcmolt_itupon_gem_cfg cfg; /* declare main API struct */ |
| bcmolt_itupon_gem_key key = {}; /* declare key */ |
| bcmolt_gem_port_configuration configuration = {}; |
| bcmolt_onu_state onu_state; |
| |
| key.pon_ni = intf_id; |
| key.gem_port_id = gemport_id; |
| |
| BCMOLT_CFG_INIT(&cfg, itupon_gem, key); |
| |
| bcmolt_gem_port_direction configuration_direction; |
| configuration_direction = BCMOLT_GEM_PORT_DIRECTION_BIDIRECTIONAL; |
| BCMOLT_FIELD_SET(&configuration, gem_port_configuration, direction, configuration_direction); |
| |
| bcmolt_gem_port_type configuration_type; |
| configuration_type = BCMOLT_GEM_PORT_TYPE_UNICAST; |
| BCMOLT_FIELD_SET(&configuration, gem_port_configuration, type, configuration_type); |
| |
| BCMOLT_FIELD_SET(&cfg.data, itupon_gem_cfg_data, configuration, configuration); |
| |
| BCMOLT_FIELD_SET(&cfg.data, itupon_gem_cfg_data, onu_id, onu_id); |
| |
| bcmolt_control_state encryption_mode; |
| encryption_mode = BCMOLT_CONTROL_STATE_DISABLE; |
| BCMOLT_FIELD_SET(&cfg.data, itupon_gem_cfg_data, encryption_mode, encryption_mode); |
| |
| bcmolt_us_gem_port_destination upstream_destination_queue; |
| upstream_destination_queue = BCMOLT_US_GEM_PORT_DESTINATION_DATA; |
| BCMOLT_FIELD_SET(&cfg.data, itupon_gem_cfg_data, upstream_destination_queue, upstream_destination_queue); |
| |
| bcmolt_control_state control; |
| control = BCMOLT_CONTROL_STATE_ENABLE; |
| BCMOLT_FIELD_SET(&cfg.data, itupon_gem_cfg_data, control, control); |
| |
| bool wait_for_gem_cfg_complt = false; |
| if (board_technology == "GPON") { |
| // Wait for gem cfg complete indication only if ONU state is ACTIVE |
| 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 get onu status onu_id = %d, gem_port = %d err = %s\n", onu_id, gemport_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "failed to get onu status"); |
| } else if (onu_state == BCMOLT_ONU_STATE_ACTIVE) { |
| wait_for_gem_cfg_complt = true; |
| } |
| } |
| |
| err = bcmolt_cfg_set(dev_id, &cfg.hdr); |
| if(err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to install gem_port = %d err = %s (%d)\n", gemport_id, cfg.hdr.hdr.err_text, err); |
| return bcm_to_grpc_err(err, "Access_Control set ITU PON Gem port failed"); |
| } |
| |
| // Wait for gem cfg complete indication only if ONU state is ACTIVE |
| if (wait_for_gem_cfg_complt) { |
| err = wait_for_gem_action(intf_id, gemport_id, GEM_OBJECT_CREATE); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to install gem_port = %d err = %s\n", gemport_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Access_Control set ITU PON Gem port failed"); |
| } |
| } else { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "not waiting for gem config complete indication = %d\n", gemport_id); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "gem port installed successfully = %d\n", gemport_id); |
| |
| bcmos_fastlock_lock(&data_lock); |
| gemport_status_map[gem_status_key] = true; |
| bcmos_fastlock_unlock(&data_lock, 0); |
| |
| return Status::OK; |
| } |
| |
| Status remove_gem_port(int32_t intf_id, int32_t onu_id, int32_t uni_id, int32_t gemport_id, std::string board_technology) { |
| gemport_status_map_key_tuple gem_status_key(intf_id, onu_id, uni_id, gemport_id); |
| bcmolt_onu_state onu_state; |
| |
| bcmos_fastlock_lock(&data_lock); |
| std::map<gemport_status_map_key_tuple, bool>::const_iterator it = gemport_status_map.find(gem_status_key); |
| if (it == gemport_status_map.end()) { |
| bcmos_fastlock_unlock(&data_lock, 0); |
| OPENOLT_LOG(INFO, openolt_log_id, "gem port already removed = %d\n", gemport_id); |
| return Status::OK; |
| } |
| bcmos_fastlock_unlock(&data_lock, 0); |
| |
| bcmolt_itupon_gem_cfg gem_cfg; |
| bcmolt_itupon_gem_key key = { |
| .pon_ni = (bcmolt_interface)intf_id, |
| .gem_port_id = (bcmolt_gem_port_id)gemport_id |
| }; |
| bcmos_errno err; |
| |
| bool wait_for_gem_cfg_complt = false; |
| if (board_technology == "GPON") { |
| // Wait for gem cfg complete indication only if ONU state is ACTIVE |
| 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 get onu status onu_id = %d, gem_port = %d err = %s\n", onu_id, gemport_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "failed to get onu status"); |
| } else if (onu_state == BCMOLT_ONU_STATE_ACTIVE) { |
| wait_for_gem_cfg_complt = true; |
| } |
| } |
| |
| BCMOLT_CFG_INIT(&gem_cfg, itupon_gem, key); |
| err = bcmolt_cfg_clear(dev_id, &gem_cfg.hdr); |
| if (err != BCM_ERR_OK) |
| { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to remove gem_port = %d err = %s (%d)\n", gemport_id, gem_cfg.hdr.hdr.err_text, err); |
| return bcm_to_grpc_err(err, "Access_Control clear ITU PON Gem port failed"); |
| } |
| |
| if (wait_for_gem_cfg_complt) { |
| OPENOLT_LOG(INFO, openolt_log_id, "onu state is active waiting for gem cfg complete indication intf = %d onu = %d\n", |
| intf_id, onu_id); |
| err = wait_for_gem_action(intf_id, gemport_id, GEM_OBJECT_DELETE); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to remove gem, intf_id %d, gemport_id %d, err = %s\n", |
| intf_id, gemport_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "failed to remove gem"); |
| } |
| } else { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "onu not active or/and not gpon tech, not waiting for gem cfg complete, onu_state = %d, intf = %d, gemport_id = %d, onu=%d\n", |
| onu_state, intf_id, gemport_id, onu_id); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "gem port removed successfully = %d\n", gemport_id); |
| |
| bcmos_fastlock_lock(&data_lock); |
| it = gemport_status_map.find(gem_status_key); |
| if (it != gemport_status_map.end()) { |
| gemport_status_map.erase(it); |
| } |
| bcmos_fastlock_unlock(&data_lock, 0); |
| |
| return Status::OK; |
| } |
| |
| Status enable_encryption_for_gem_port(int32_t intf_id, int32_t gemport_id, std::string board_technology) { |
| bcmos_errno err; |
| bcmolt_itupon_gem_cfg cfg; |
| bcmolt_itupon_gem_key key = { |
| .pon_ni = (bcmolt_interface)intf_id, |
| .gem_port_id = (bcmolt_gem_port_id)gemport_id |
| }; |
| |
| BCMOLT_CFG_INIT(&cfg, itupon_gem, key); |
| BCMOLT_MSG_FIELD_GET(&cfg, encryption_mode); |
| err = bcmolt_cfg_get(dev_id, &cfg.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "GEM port get encryption_mode failed err = %s (%d)\n", cfg.hdr.hdr.err_text, err); |
| return bcm_to_grpc_err(err, "GEM port get encryption_mode failed"); |
| } |
| |
| if (cfg.data.encryption_mode == BCMOLT_CONTROL_STATE_ENABLE) { |
| OPENOLT_LOG(INFO, openolt_log_id, "gem port already encrypted = %d\n", gemport_id); |
| return Status::OK; |
| } |
| |
| bcmolt_control_state encryption_mode; |
| encryption_mode = BCMOLT_CONTROL_STATE_ENABLE; |
| BCMOLT_FIELD_SET(&cfg.data, itupon_gem_cfg_data, encryption_mode, encryption_mode); |
| |
| err = bcmolt_cfg_set(dev_id, &cfg.hdr); |
| if(err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to set encryption on pon = %d gem_port = %d, err = %s (%d)\n", |
| intf_id, gemport_id, cfg.hdr.hdr.err_text, err); |
| return bcm_to_grpc_err(err, "Failed to set encryption on GEM port");; |
| } |
| |
| #ifndef SCALE_AND_PERF |
| if (board_technology == "GPON") { |
| err = wait_for_gem_action(intf_id, gemport_id, GEM_OBJECT_ENCRYPT); |
| if (err) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to enable gemport encryption, gem_port = %d err = %s\n", gemport_id, bcmos_strerror(err)); |
| return bcm_to_grpc_err(err, "Access_Control ITU PON Gem port encryption failed"); |
| } |
| } |
| #endif |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "encryption set successfully on pon = %d gem_port = %d\n", intf_id, gemport_id); |
| |
| return Status::OK; |
| } |
| |
| Status update_acl_interface(int32_t intf_id, bcmolt_interface_type intf_type, uint32_t access_control_id, |
| bcmolt_members_update_command acl_cmd) { |
| bcmos_errno err; |
| bcmolt_access_control_interfaces_update oper; /* declare main API struct */ |
| bcmolt_access_control_key acl_key = {}; /* declare key */ |
| bcmolt_intf_ref interface_ref_list_elem = {}; |
| bcmolt_interface_type interface_ref_list_elem_intf_type; |
| bcmolt_interface_id interface_ref_list_elem_intf_id; |
| bcmolt_intf_ref_list_u8 interface_ref_list = {}; |
| |
| if (acl_cmd != BCMOLT_MEMBERS_UPDATE_COMMAND_ADD && acl_cmd != BCMOLT_MEMBERS_UPDATE_COMMAND_REMOVE) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "acl cmd = %d not supported currently\n", acl_cmd); |
| return bcm_to_grpc_err(BCM_ERR_PARM, "unsupported acl cmd"); |
| } |
| interface_ref_list.arr = (bcmolt_intf_ref*)bcmos_calloc(sizeof(bcmolt_intf_ref)*1); |
| |
| if (interface_ref_list.arr == NULL) |
| return bcm_to_grpc_err(BCM_ERR_PARM, "allocate interface_ref_list failed"); |
| OPENOLT_LOG(INFO, openolt_log_id, "update acl interface received for intf_id = %d, intf_type = %s, acl_id = %d, acl_cmd = %s\n", |
| intf_id, intf_type == BCMOLT_INTERFACE_TYPE_PON? "pon": "nni", access_control_id, |
| acl_cmd == BCMOLT_MEMBERS_UPDATE_COMMAND_ADD? "add": "remove"); |
| |
| acl_key.id = access_control_id; |
| |
| /* Initialize the API struct. */ |
| BCMOLT_OPER_INIT(&oper, access_control, interfaces_update, acl_key); |
| |
| bcmolt_members_update_command command; |
| command = acl_cmd; |
| BCMOLT_FIELD_SET(&oper.data, access_control_interfaces_update_data, command, command); |
| |
| interface_ref_list_elem_intf_type = intf_type; |
| BCMOLT_FIELD_SET(&interface_ref_list_elem, intf_ref, intf_type, interface_ref_list_elem_intf_type); |
| |
| interface_ref_list_elem_intf_id = intf_id; |
| BCMOLT_FIELD_SET(&interface_ref_list_elem, intf_ref, intf_id, interface_ref_list_elem_intf_id); |
| |
| interface_ref_list.len = 1; |
| BCMOLT_ARRAY_ELEM_SET(&interface_ref_list, 0, interface_ref_list_elem); |
| |
| BCMOLT_FIELD_SET(&oper.data, access_control_interfaces_update_data, interface_ref_list, interface_ref_list); |
| |
| err = bcmolt_oper_submit(dev_id, &oper.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "update acl interface fail for intf_id = %d, intf_type = %s, acl_id = %d, acl_cmd = %s\n", |
| intf_id, intf_type == BCMOLT_INTERFACE_TYPE_PON? "pon": "nni", access_control_id, |
| acl_cmd == BCMOLT_MEMBERS_UPDATE_COMMAND_ADD? "add": "remove"); |
| return bcm_to_grpc_err(err, "Access_Control submit interface failed"); |
| } |
| |
| bcmos_free(interface_ref_list.arr); |
| OPENOLT_LOG(INFO, openolt_log_id, "update acl interface success for intf_id = %d, intf_type = %s, acl_id = %d, acl_cmd = %s\n", |
| intf_id, intf_type == BCMOLT_INTERFACE_TYPE_PON? "pon": "nni", access_control_id, |
| acl_cmd == BCMOLT_MEMBERS_UPDATE_COMMAND_ADD? "add": "remove"); |
| |
| return Status::OK; |
| } |
| |
| Status install_acl(const acl_classifier_key acl_key) { |
| bcmos_errno err; |
| bcmolt_access_control_cfg cfg; |
| bcmolt_access_control_key key = { }; |
| bcmolt_classifier c_val = { }; |
| // hardcode the action for now. |
| bcmolt_access_control_fwd_action_type action_type = BCMOLT_ACCESS_CONTROL_FWD_ACTION_TYPE_TRAP_TO_HOST; |
| int acl_id = get_acl_id(); |
| if (acl_id < 0) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "exhausted acl_id for eth_type = %d, ip_proto = %d, src_port = %d, dst_port = %d o_vid = %d, max_acl_hit=%d\n", |
| acl_key.ether_type, acl_key.ip_proto, acl_key.src_port, acl_key.dst_port, acl_key.o_vid, max_acls_with_vlan_classifiers_hit); |
| return bcm_to_grpc_err(BCM_ERR_INTERNAL, "exhausted acl id"); |
| } |
| |
| key.id = acl_id; |
| /* config access control instance */ |
| BCMOLT_CFG_INIT(&cfg, access_control, key); |
| if (acl_key.ether_type > 0) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "Access_Control classify ether_type 0x%04x\n", acl_key.ether_type); |
| BCMOLT_FIELD_SET(&c_val, classifier, ether_type, acl_key.ether_type); |
| } |
| |
| if (acl_key.ip_proto > 0) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "Access_Control classify ip_proto %d\n", acl_key.ip_proto); |
| BCMOLT_FIELD_SET(&c_val, classifier, ip_proto, acl_key.ip_proto); |
| } |
| |
| if (acl_key.dst_port > 0) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "Access_Control classify dst_port %d\n", acl_key.dst_port); |
| BCMOLT_FIELD_SET(&c_val, classifier, dst_port, acl_key.dst_port); |
| } |
| |
| if (acl_key.src_port > 0) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "Access_Control classify src_port %d\n", acl_key.src_port); |
| BCMOLT_FIELD_SET(&c_val, classifier, src_port, acl_key.src_port); |
| } |
| |
| // Make sure that max_acls_with_vlan_classifiers_hit is not true to consider o_vid for ACL classification. |
| if (acl_key.o_vid > 0 && acl_key.o_vid != ANY_VLAN && !max_acls_with_vlan_classifiers_hit) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "Access_Control classify o_vid %d\n", acl_key.o_vid); |
| BCMOLT_FIELD_SET(&c_val, classifier, o_vid, acl_key.o_vid); |
| } |
| |
| BCMOLT_MSG_FIELD_SET(&cfg, classifier, c_val); |
| BCMOLT_MSG_FIELD_SET(&cfg, priority, 10000); |
| BCMOLT_MSG_FIELD_SET(&cfg, statistics_control, BCMOLT_CONTROL_STATE_ENABLE); |
| |
| BCMOLT_MSG_FIELD_SET(&cfg, forwarding_action.action, action_type); |
| |
| err = bcmolt_cfg_set(dev_id, &cfg.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Access_Control set configuration failed, err = %s (%d)\n", cfg.hdr.hdr.err_text, err); |
| // Free the acl_id |
| free_acl_id(acl_id); |
| return bcm_to_grpc_err(err, "Access_Control set configuration failed"); |
| } |
| |
| ACL_LOG(INFO, "ACL add ok", err); |
| |
| // Update the map that we have installed an acl for the given classfier. |
| acl_classifier_to_acl_id_map[acl_key] = acl_id; |
| // If there was a valid vlan classifier in the ACL and the ACL ID hit the ceiling, set max_acls_with_vlan_classifiers_hit to true |
| // After max_acls_with_vlan_classifiers_hit is set to true no more ACLs can have vlan as an ACL classifier. |
| if (acl_key.o_vid > 0 && acl_key.o_vid != ANY_VLAN && acl_id >= MAX_ACL_WITH_VLAN_CLASSIFIER) { |
| max_acls_with_vlan_classifiers_hit = true; |
| } |
| return Status::OK; |
| } |
| |
| Status remove_acl(int acl_id) { |
| bcmos_errno err; |
| bcmolt_access_control_cfg cfg; /* declare main API struct */ |
| bcmolt_access_control_key key = {}; /* declare key */ |
| |
| key.id = acl_id; |
| |
| /* Initialize the API struct. */ |
| BCMOLT_CFG_INIT(&cfg, access_control, key); |
| BCMOLT_FIELD_SET_PRESENT(&cfg.data, access_control_cfg_data, state); |
| err = bcmolt_cfg_get(dev_id, &cfg.hdr); |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Access_Control get state failed, err = %s (%d)\n", cfg.hdr.hdr.err_text, err); |
| return bcm_to_grpc_err(err, "Access_Control get state failed"); |
| } |
| |
| if (cfg.data.state == BCMOLT_CONFIG_STATE_CONFIGURED) { |
| key.id = acl_id; |
| /* Initialize the API struct. */ |
| BCMOLT_CFG_INIT(&cfg, access_control, key); |
| |
| err = bcmolt_cfg_clear(dev_id, &cfg.hdr); |
| if (err != BCM_ERR_OK) { |
| // Should we free acl_id here ? We should ideally never land here.. |
| OPENOLT_LOG(ERROR, openolt_log_id, "Error %d while removing Access_Control rule ID err = %s (%d)\n", |
| acl_id, cfg.hdr.hdr.err_text, err); |
| return Status(grpc::StatusCode::INTERNAL, "Failed to remove Access_Control"); |
| } |
| } |
| |
| // Free up acl_id |
| free_acl_id(acl_id); |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "acl removed successfully %d\n", acl_id); |
| |
| return Status::OK; |
| } |
| |
| // Formulates ACL Classifier Key based on the following fields |
| // a. ether_type b. ip_proto c. src_port d. dst_port |
| // If any of the field is not available it is populated as -1. |
| void formulate_acl_classifier_key(acl_classifier_key *key, const ::openolt::Classifier& classifier) { |
| |
| // TODO: Is 0 a valid value for any of the following classifiers? |
| // because in the that case, the 'if' check would fail and -1 would be filled as value. |
| // |
| if (classifier.eth_type()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify ether_type 0x%04x\n", classifier.eth_type()); |
| key->ether_type = classifier.eth_type(); |
| } else key->ether_type = -1; |
| |
| if (classifier.ip_proto()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify ip_proto %d\n", classifier.ip_proto()); |
| key->ip_proto = classifier.ip_proto(); |
| } else key->ip_proto = -1; |
| |
| |
| if (classifier.src_port()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify src_port %d\n", classifier.src_port()); |
| key->src_port = classifier.src_port(); |
| } else key->src_port = -1; |
| |
| |
| if (classifier.dst_port()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify dst_port %d\n", classifier.dst_port()); |
| key->dst_port = classifier.dst_port(); |
| } else key->dst_port = -1; |
| |
| // We should also check the max_acls_with_vlan_classifiers_hit flag is not false to consider the vlan for flow classifier key |
| if (classifier.o_vid() && !max_acls_with_vlan_classifiers_hit) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "classify o_vid %d\n", classifier.o_vid()); |
| key->o_vid = classifier.o_vid(); |
| } else key->o_vid = ANY_VLAN; |
| |
| } |
| |
| Status handle_acl_rule_install(int32_t onu_id, uint64_t flow_id, int32_t gemport_id, |
| const std::string flow_type, int32_t access_intf_id, |
| int32_t network_intf_id, |
| const ::openolt::Classifier& classifier) { |
| int acl_id; |
| uint32_t intf_id = flow_type == upstream? access_intf_id: network_intf_id; |
| const std::string intf_type = flow_type == upstream? "pon": "nni"; |
| bcmolt_interface_type olt_if_type = intf_type == "pon"? BCMOLT_INTERFACE_TYPE_PON: BCMOLT_INTERFACE_TYPE_NNI; |
| |
| Status resp; |
| trap_to_host_packet_type pkt_type = get_trap_to_host_packet_type(classifier); |
| if (pkt_type == unsupported_trap_to_host_pkt_type) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "unsupported pkt trap type"); |
| return Status(grpc::StatusCode::UNIMPLEMENTED, "unsupported pkt trap type"); |
| } |
| |
| // few map keys we are going to use later. |
| flow_id_flow_direction fl_id_fl_dir(flow_id, flow_type); |
| |
| acl_classifier_key acl_key; |
| formulate_acl_classifier_key(&acl_key, classifier); |
| const acl_classifier_key acl_key_const = {.ether_type=acl_key.ether_type, .ip_proto=acl_key.ip_proto, |
| .src_port=acl_key.src_port, .dst_port=acl_key.dst_port, .o_vid=acl_key.o_vid}; |
| bcmos_fastlock_lock(&acl_packet_trap_handler_lock); |
| |
| // Check if the acl is already installed |
| if (acl_classifier_to_acl_id_map.count(acl_key_const) > 0) { |
| // retreive the acl_id |
| acl_id = acl_classifier_to_acl_id_map[acl_key_const]; |
| |
| |
| if (flow_to_acl_map.count(fl_id_fl_dir)) { |
| // could happen if same trap flow is received again |
| OPENOLT_LOG(INFO, openolt_log_id, "flow and related acl already handled, nothing more to do\n"); |
| bcmos_fastlock_unlock(&acl_packet_trap_handler_lock, 0); |
| return Status::OK; |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "Acl for flow_id=%lu with eth_type = %d, ip_proto = %d, src_port = %d, dst_port = %d o_vid = %d already installed with acl id = %u\n", |
| flow_id, acl_key.ether_type, acl_key.ip_proto, acl_key.src_port, acl_key.dst_port, acl_key.o_vid, acl_id); |
| |
| // The acl_ref_cnt is needed to know how many flows refer an ACL. |
| // When the flow is removed, we decrement the reference count. |
| // When the reference count becomes 0, we remove the ACL. |
| if (acl_ref_cnt.count(acl_id) > 0) { |
| acl_ref_cnt[acl_id] ++; |
| } else { |
| // We should ideally not land here. The acl_ref_cnt should have been |
| // initialized the first time acl was installed. |
| acl_ref_cnt[acl_id] = 1; |
| } |
| |
| } else { |
| resp = install_acl(acl_key_const); |
| if (!resp.ok()) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Acl for flow_id=%lu with eth_type = %d, ip_proto = %d, src_port = %d, dst_port = %d o_vid = %d failed\n", |
| flow_id, acl_key_const.ether_type, acl_key_const.ip_proto, acl_key_const.src_port, acl_key_const.dst_port, acl_key_const.o_vid); |
| bcmos_fastlock_unlock(&acl_packet_trap_handler_lock, 0); |
| return resp; |
| } |
| |
| acl_id = acl_classifier_to_acl_id_map[acl_key_const]; |
| |
| // Initialize the acl reference count |
| acl_ref_cnt[acl_id] = 1; |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "acl add success for flow_id=%lu with acl_id=%d\n", flow_id, acl_id); |
| } |
| |
| // Register the interface for the given acl |
| acl_id_intf_id_intf_type ac_id_inf_id_inf_type(acl_id, intf_id, intf_type); |
| // This is needed to keep a track of which interface (pon/nni) has registered for an ACL. |
| // If it is registered, how many flows refer to it. |
| if (intf_acl_registration_ref_cnt.count(ac_id_inf_id_inf_type) > 0) { |
| intf_acl_registration_ref_cnt[ac_id_inf_id_inf_type]++; |
| } else { |
| // The given interface is not registered for the ACL. We need to do it now. |
| resp = update_acl_interface(intf_id, olt_if_type, acl_id, BCMOLT_MEMBERS_UPDATE_COMMAND_ADD); |
| if (!resp.ok()){ |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to update acl interfaces intf_id=%d, intf_type=%s, acl_id=%d", intf_id, intf_type.c_str(), acl_id); |
| // TODO: Ideally we should return error from hear and clean up other other stateful |
| // counters we creaed earlier. Will leave it out for now. |
| } |
| intf_acl_registration_ref_cnt[ac_id_inf_id_inf_type] = 1; |
| } |
| |
| acl_id_intf_id ac_id_if_id(acl_id, intf_id); |
| flow_to_acl_map[fl_id_fl_dir] = ac_id_if_id; |
| |
| // Populate the trap_to_host_pkt_info_with_vlan corresponding to the trap-to-host voltha flow_id key. |
| // When the trap-to-host voltha flow-id is being removed, this entry is cleared too from the map. |
| trap_to_host_pkt_info_with_vlan pkt_info_with_vlan((int32_t)olt_if_type, intf_id, (int32_t)pkt_type, gemport_id, (short unsigned int)classifier.o_vid()); |
| trap_to_host_pkt_info_with_vlan_for_flow_id[flow_id] = pkt_info_with_vlan; |
| trap_to_host_pkt_info pkt_info((int32_t)olt_if_type, intf_id, (int32_t)pkt_type, gemport_id); |
| bool duplicate = false; |
| // Check if the vlan_id corresponding to the trap_to_host_pkt_info key is found. Set the 'duplicate' flag accordingly. |
| if (trap_to_host_vlan_ids_for_trap_to_host_pkt_info.count(pkt_info) > 0) { |
| auto& vlan_id_list = trap_to_host_vlan_ids_for_trap_to_host_pkt_info[pkt_info]; |
| auto it = std::find(vlan_id_list.begin(), vlan_id_list.end(), acl_key.o_vid); |
| if (it != vlan_id_list.end()) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "cvid = %d exists already in list", acl_key.o_vid); |
| duplicate = true; |
| } |
| } |
| // If the vlan_id is not found corresponding to the trap_to_host_pkt_info key, update it. |
| // This will be used to validate the vlan_id in the trapped packet. If vlan_id in the |
| // trapped packet is not match with the stored value, packet is dropped. |
| if (!duplicate) { |
| trap_to_host_vlan_ids_for_trap_to_host_pkt_info[pkt_info].push_back(acl_key.o_vid); |
| } |
| |
| bcmos_fastlock_unlock(&acl_packet_trap_handler_lock, 0); |
| |
| return Status::OK; |
| } |
| |
| Status handle_acl_rule_cleanup(int16_t acl_id, int32_t intf_id, const std::string flow_type) { |
| const std::string intf_type= flow_type == upstream? "pon": "nni"; |
| acl_id_intf_id_intf_type ac_id_inf_id_inf_type(acl_id, intf_id, intf_type); |
| intf_acl_registration_ref_cnt[ac_id_inf_id_inf_type]--; |
| if (intf_acl_registration_ref_cnt[ac_id_inf_id_inf_type] == 0) { |
| bcmolt_interface_type olt_if_type = intf_type == "pon"? BCMOLT_INTERFACE_TYPE_PON: BCMOLT_INTERFACE_TYPE_NNI; |
| Status resp = update_acl_interface(intf_id, olt_if_type, acl_id, BCMOLT_MEMBERS_UPDATE_COMMAND_REMOVE); |
| if (!resp.ok()){ |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to update acl interfaces intf_id=%d, intf_type=%s, acl_id=%d", intf_id, intf_type.c_str(), acl_id); |
| } |
| intf_acl_registration_ref_cnt.erase(ac_id_inf_id_inf_type); |
| } |
| |
| acl_ref_cnt[acl_id]--; |
| if (acl_ref_cnt[acl_id] == 0) { |
| remove_acl(acl_id); |
| acl_ref_cnt.erase(acl_id); |
| // Iterate acl_classifier_to_acl_id_map and delete classifier the key corresponding to acl_id |
| std::map<acl_classifier_key, uint16_t>::iterator it; |
| for (it=acl_classifier_to_acl_id_map.begin(); it!=acl_classifier_to_acl_id_map.end(); ++it) { |
| if (it->second == acl_id) { |
| OPENOLT_LOG(INFO, openolt_log_id, "cleared classifier key corresponding to acl_id = %d\n", acl_id); |
| acl_classifier_to_acl_id_map.erase(it->first); |
| break; |
| } |
| } |
| } |
| |
| return Status::OK; |
| } |
| |
| Status check_bal_ready() { |
| bcmos_errno err; |
| int maxTrials = 30; |
| bcmolt_olt_cfg olt_cfg = { }; |
| bcmolt_olt_key olt_key = { }; |
| |
| BCMOLT_CFG_INIT(&olt_cfg, olt, olt_key); |
| BCMOLT_MSG_FIELD_GET(&olt_cfg, bal_state); |
| |
| while (olt_cfg.data.bal_state != BCMOLT_BAL_STATE_BAL_AND_SWITCH_READY) { |
| if (--maxTrials == 0) |
| return grpc::Status(grpc::StatusCode::UNAVAILABLE, "check bal ready failed"); |
| sleep(5); |
| #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.bal_state. So a new stub function is created and address |
| // of olt_cfg is passed. This is one-of case where we need to add test specific |
| // code in production code. |
| if (bcmolt_cfg_get__bal_state_stub(dev_id, &olt_cfg)) { |
| #else |
| if (bcmolt_cfg_get(dev_id, &olt_cfg.hdr)) { |
| #endif |
| continue; |
| } |
| else |
| OPENOLT_LOG(INFO, openolt_log_id, "waiting for BAL ready ...\n"); |
| } |
| |
| OPENOLT_LOG(INFO, openolt_log_id, "BAL is ready\n"); |
| return Status::OK; |
| } |
| |
| Status check_connection() { |
| int maxTrials = 60; |
| while (!bcmolt_api_conn_mgr_is_connected(dev_id)) { |
| sleep(1); |
| if (--maxTrials == 0) |
| return grpc::Status(grpc::StatusCode::UNAVAILABLE, "check connection failed"); |
| else |
| OPENOLT_LOG(INFO, openolt_log_id, "waiting for daemon connection ...\n"); |
| } |
| OPENOLT_LOG(INFO, openolt_log_id, "daemon is connected\n"); |
| return Status::OK; |
| } |
| |
| std::string get_ip_address(const char* nw_intf){ |
| std::string ipAddress = "0.0.0.0"; |
| struct ifaddrs *interfaces = NULL; |
| struct ifaddrs *temp_addr = NULL; |
| int success = 0; |
| /* retrieve the current interfaces - returns 0 on success */ |
| success = getifaddrs(&interfaces); |
| if (success == 0) { |
| /* Loop through linked list of interfaces */ |
| temp_addr = interfaces; |
| while(temp_addr != NULL) { |
| if(temp_addr->ifa_addr->sa_family == AF_INET) { |
| /* Check if interface given present in OLT, if yes return its IP Address */ |
| if(strcmp(temp_addr->ifa_name, nw_intf) == 0){ |
| ipAddress=inet_ntoa(((struct sockaddr_in*)temp_addr->ifa_addr)->sin_addr); |
| break; |
| } |
| } |
| temp_addr = temp_addr->ifa_next; |
| } |
| } |
| /* Free memory */ |
| freeifaddrs(interfaces); |
| return ipAddress; |
| } |
| |
| bcmos_errno getOnuMaxLogicalDistance(uint32_t intf_id, uint32_t *mld) { |
| bcmos_errno err = BCM_ERR_OK; |
| bcmolt_pon_distance pon_distance = {}; |
| bcmolt_pon_interface_cfg pon_cfg; /* declare main API struct */ |
| bcmolt_pon_interface_key key = {}; /* declare key */ |
| |
| key.pon_ni = intf_id; |
| |
| if (!state.is_activated()) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "ONU maximum logical distance is not available since OLT is not activated yet\n"); |
| return BCM_ERR_STATE; |
| } |
| |
| /* Initialize the API struct. */ |
| BCMOLT_CFG_INIT(&pon_cfg, pon_interface, key); |
| BCMOLT_FIELD_SET_PRESENT(&pon_distance, pon_distance, max_log_distance); |
| BCMOLT_FIELD_SET(&pon_cfg.data, pon_interface_cfg_data, pon_distance, pon_distance); |
| #ifdef TEST_MODE |
| // It is impossible to mock the setting of pon_cfg.data.state because |
| // the actual bcmolt_cfg_get passes the address of pon_cfg.hdr and we cannot |
| // set the pon_cfg.data.state. So a new stub function is created and address |
| // of pon_cfg is passed. This is one-of case where we need to add test specific |
| // code in production code. |
| err = bcmolt_cfg_get__pon_intf_stub(dev_id, &pon_cfg); |
| #else |
| err = bcmolt_cfg_get(dev_id, &pon_cfg.hdr); |
| #endif |
| if (err != BCM_ERR_OK) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Failed to retrieve ONU maximum logical distance for PON %d, err = %s (%d)\n", intf_id, pon_cfg.hdr.hdr.err_text, err); |
| return err; |
| } |
| *mld = pon_distance.max_log_distance; |
| |
| return BCM_ERR_OK; |
| } |
| |
| /** |
| * Gets mac address based on interface name. |
| * |
| * @param intf_name interface name |
| * @param mac_address mac address field |
| * @param max_size_of_mac_address max sixe of the mac_address |
| * @return mac_address value in case of success or return NULL in case of failure. |
| */ |
| |
| char* get_intf_mac(const char* intf_name, char* mac_address, unsigned int max_size_of_mac_address){ |
| int fd; |
| struct ifreq ifr; |
| char *mac; |
| |
| fd = socket(AF_INET, SOCK_DGRAM, 0); |
| if ( fd == -1) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to get mac, could not create file descriptor"); |
| return NULL; |
| } |
| |
| ifr.ifr_addr.sa_family = AF_INET; |
| strncpy((char *)ifr.ifr_name , (const char *)intf_name , IFNAMSIZ-1); |
| if( ioctl(fd, SIOCGIFHWADDR, &ifr) == -1) |
| { |
| OPENOLT_LOG(ERROR, openolt_log_id, "failed to get mac, ioctl failed and returned err"); |
| close(fd); |
| return NULL; |
| } |
| |
| close(fd); |
| mac = (char *)ifr.ifr_hwaddr.sa_data; |
| |
| // formatted mac address |
| snprintf(mac_address, max_size_of_mac_address, (const char *)"%.2x:%.2x:%.2x:%.2x:%.2x:%.2x", (unsigned char)mac[0], (unsigned char)mac[1], (unsigned char)mac[2], (unsigned char)mac[3], (unsigned char)mac[4], (unsigned char)mac[5]); |
| |
| return mac_address; |
| } |
| |
| void update_voltha_flow_to_cache(uint64_t voltha_flow_id, device_flow dev_flow) { |
| OPENOLT_LOG(DEBUG, openolt_log_id, "updating voltha flow=%lu to cache\n", voltha_flow_id) |
| bcmos_fastlock_lock(&voltha_flow_to_device_flow_lock); |
| voltha_flow_to_device_flow[voltha_flow_id] = dev_flow; |
| bcmos_fastlock_unlock(&voltha_flow_to_device_flow_lock, 0); |
| } |
| |
| void remove_voltha_flow_from_cache(uint64_t voltha_flow_id) { |
| bcmos_fastlock_lock(&voltha_flow_to_device_flow_lock); |
| std::map<uint64_t, device_flow>::const_iterator it = voltha_flow_to_device_flow.find(voltha_flow_id); |
| if (it != voltha_flow_to_device_flow.end()) { |
| voltha_flow_to_device_flow.erase(it); |
| } |
| bcmos_fastlock_unlock(&voltha_flow_to_device_flow_lock, 0); |
| } |
| |
| bool is_voltha_flow_installed(uint64_t voltha_flow_id ) { |
| int count; |
| bcmos_fastlock_lock(&voltha_flow_to_device_flow_lock); |
| count = voltha_flow_to_device_flow.count(voltha_flow_id); |
| bcmos_fastlock_unlock(&voltha_flow_to_device_flow_lock, 0); |
| |
| return count > 0 ? true : false; |
| } |
| |
| const device_flow_params* get_device_flow_params(uint64_t voltha_flow_id) { |
| bcmos_fastlock_lock(&voltha_flow_to_device_flow_lock); |
| std::map<uint64_t, device_flow>::const_iterator it = voltha_flow_to_device_flow.find(voltha_flow_id); |
| if (it != voltha_flow_to_device_flow.end()) { |
| bcmos_fastlock_unlock(&voltha_flow_to_device_flow_lock, 0); |
| return it->second.params; |
| } |
| bcmos_fastlock_unlock(&voltha_flow_to_device_flow_lock, 0); |
| |
| return NULL; |
| } |
| |
| const device_flow* get_device_flow(uint64_t voltha_flow_id) { |
| bcmos_fastlock_lock(&voltha_flow_to_device_flow_lock); |
| std::map<uint64_t, device_flow>::const_iterator it = voltha_flow_to_device_flow.find(voltha_flow_id); |
| if (it != voltha_flow_to_device_flow.end()) { |
| bcmos_fastlock_unlock(&voltha_flow_to_device_flow_lock, 0); |
| return &it->second; |
| } |
| bcmos_fastlock_unlock(&voltha_flow_to_device_flow_lock, 0); |
| |
| return NULL; |
| } |
| |
| trap_to_host_packet_type get_trap_to_host_packet_type(const ::openolt::Classifier& classifier) { |
| trap_to_host_packet_type type = unsupported_trap_to_host_pkt_type; |
| if (classifier.eth_type() == EAP_ETH_TYPE) { |
| type = eap; |
| } else if (classifier.src_port() == DHCP_SERVER_SRC_PORT || classifier.src_port() == DHCP_CLIENT_SRC_PORT) { |
| type = dhcpv4; |
| } else if (classifier.eth_type() == LLDP_ETH_TYPE) { |
| type = lldp; |
| } else if (classifier.ip_proto() == IGMPv4_PROTOCOL) { |
| type = igmpv4; |
| } else if (classifier.eth_type() == PPPoED_ETH_TYPE) { |
| type = pppoed; |
| } |
| |
| return type; |
| } |
| |
| // is_packet_allowed extracts the VLAN, packet-type, interface-type, interface-id from incoming trap-to-host packet. |
| // Then it verifies if this packet can be allowed upstream to host. It does this by checking if the vlan in the incoming packet |
| //exists in trap_to_host_vlan_ids_for_trap_to_host_pkt_info map for (interface-type, interface-id, packet-type) key. |
| bool is_packet_allowed(bcmolt_access_control_receive_eth_packet_data *data, int32_t gemport_id) { |
| bcmolt_interface_type intf_type = data->interface_ref.intf_type; |
| uint32_t intf_id = data->interface_ref.intf_id; |
| trap_to_host_packet_type pkt_type = unsupported_trap_to_host_pkt_type; |
| uint16_t vlan_id = 0; |
| int ethType; |
| |
| struct timeval dummy_tv = {0, 0}; |
| bool free_memory_of_raw_packet = false; // This indicates the pcap library to not free the message buffer. It will freed by the caller. |
| |
| pcpp::RawPacket rawPacket(data->buffer.arr, data->buffer.len, dummy_tv, free_memory_of_raw_packet, pcpp::LINKTYPE_ETHERNET); |
| pcpp::Packet parsedPacket(&rawPacket); |
| pcpp::EthLayer* ethernetLayer = parsedPacket.getLayerOfType<pcpp::EthLayer>(); |
| if (ethernetLayer == NULL) |
| { |
| OPENOLT_LOG(ERROR, openolt_log_id, "Something went wrong, couldn't find Ethernet layer\n"); |
| return false; |
| } |
| |
| // Getting Vlan layer |
| pcpp::VlanLayer* vlanLayer = parsedPacket.getLayerOfType<pcpp::VlanLayer>(); |
| if (vlanLayer == NULL) |
| { |
| // Allow Untagged LLDP Ether type packet to trap from NNI |
| if (ntohs(ethernetLayer->getEthHeader()->etherType) == LLDP_ETH_TYPE && intf_type == BCMOLT_INTERFACE_TYPE_NNI) { |
| return true; |
| } else { |
| OPENOLT_LOG(WARNING, openolt_log_id, "untagged packets other than lldp packets are dropped. ethertype=%d, intftype=%d, intf_id=%d\n", |
| ntohs(ethernetLayer->getEthHeader()->etherType), intf_type, intf_id); |
| return false; |
| } |
| } else { |
| ethType = ntohs(vlanLayer->getVlanHeader()->etherType); |
| if (ethType == EAP_ETH_TYPE) { // single tagged packet with EAPoL payload |
| vlan_id = vlanLayer->getVlanID(); |
| pkt_type = eap; |
| } else if (ethType == PPPoED_ETH_TYPE) { // single tagged packet with PPPOeD payload |
| vlan_id = vlanLayer->getVlanID(); |
| pkt_type = pppoed; |
| } else if (ethType == IPV4_ETH_TYPE) { // single tagged packet with IPv4 payload |
| vlan_id = vlanLayer->getVlanID(); |
| vlanLayer->parseNextLayer(); |
| pcpp::IPv4Layer *ipv4Layer = (pcpp::IPv4Layer*)vlanLayer->getNextLayer(); |
| if(ipv4Layer->getIPv4Header()->protocol == UDP_PROTOCOL) { // UDP payload |
| // Check the UDP Ports to see if it is a DHCPv4 packet |
| ipv4Layer->parseNextLayer(); |
| pcpp::UdpLayer *udpLayer = (pcpp::UdpLayer*)ipv4Layer->getNextLayer(); |
| if (ntohs(udpLayer->getUdpHeader()->portSrc) == DHCP_SERVER_SRC_PORT|| ntohs(udpLayer->getUdpHeader()->portSrc) == DHCP_CLIENT_SRC_PORT) { |
| pkt_type = dhcpv4; |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "unsupported udp source port = %d\n", ntohs(udpLayer->getUdpHeader()->portSrc)); |
| return false; |
| } |
| } else if (ipv4Layer->getIPv4Header()->protocol == IGMPv4_PROTOCOL) { // Igmpv4 payload |
| pkt_type = igmpv4; |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "unsupported ip protocol = %d\n", ipv4Layer->getIPv4Header()->protocol); |
| return false; |
| } |
| } else if (ethType == VLAN_ETH_TYPE) { // double tagged packet |
| |
| // Trap-to-host from NNI flows do not specify the VLANs, so no vlan validation is necessary. |
| if (intf_type == BCMOLT_INTERFACE_TYPE_NNI) { |
| return true; |
| } |
| |
| // Here we parse the inner vlan payload and currently support only IPv4 packets |
| |
| // Extract the vlan_id for trap-to-host packets arriving from the PON |
| // trap-to-host ACLs from the NNI do not care about VLAN. |
| if (intf_type == BCMOLT_INTERFACE_TYPE_PON) { |
| vlan_id = vlanLayer->getVlanID(); // This is the outer vlan id |
| } |
| vlanLayer->parseNextLayer(); |
| vlanLayer = (pcpp::VlanLayer*)vlanLayer->getNextLayer(); // Here we extract the inner vlan layer |
| ethType = ntohs(vlanLayer->getVlanHeader()->etherType); |
| if (ethType == IPV4_ETH_TYPE) { // IPv4 |
| uint16_t _inner_vlan_id = vlanLayer->getVlanID(); |
| vlanLayer->parseNextLayer(); |
| pcpp::IPv4Layer *ipv4Layer = (pcpp::IPv4Layer*)vlanLayer->getNextLayer(); // here we extract the inner vlan IPv4 payload |
| if(ipv4Layer->getIPv4Header()->protocol == UDP_PROTOCOL) { // UDP payload |
| // Check the UDP Ports to see if it is a DHCPv4 packet |
| ipv4Layer->parseNextLayer(); |
| pcpp::UdpLayer *udpLayer = (pcpp::UdpLayer*)ipv4Layer->getNextLayer(); |
| if (ntohs(udpLayer->getUdpHeader()->portSrc) == DHCP_SERVER_SRC_PORT || ntohs(udpLayer->getUdpHeader()->portSrc) == DHCP_CLIENT_SRC_PORT) { |
| pkt_type = dhcpv4; |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "unsupported udp source port = %d\n", ntohs(udpLayer->getUdpHeader()->portSrc)); |
| return false; |
| } |
| } else if (ipv4Layer->getIPv4Header()->protocol == IGMPv4_PROTOCOL) { // Igmpv4 payload |
| pkt_type = igmpv4; |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "unsupported ip protocol = %d\n", ipv4Layer->getIPv4Header()->protocol) |
| return false; |
| } |
| } |
| } else { |
| OPENOLT_LOG(ERROR, openolt_log_id, "unsupported ether type = 0x%x\n", ntohs((vlanLayer->getVlanHeader()->etherType))); |
| return false; |
| } |
| } |
| |
| #if 0 // Debug logs for test purpose only |
| std::cout << "vlan of received packet " << vlan_id << " intf_type " << intf_type << " intf_id " <<intf_id << " pkt_type " <<pkt_type << " gem_port_id" << gemport_id << "\n"; |
| for(std::map<trap_to_host_pkt_info, std::list<uint16_t> >::const_iterator it = trap_to_host_vlan_ids_for_trap_to_host_pkt_info.begin(); |
| it != trap_to_host_vlan_ids_for_trap_to_host_pkt_info.end(); ++it) |
| { |
| std::cout << "value entries" << " " << std::get<0>(it->first) << " "<< std::get<1>(it->first) << " "<< std::get<2>(it->first) << " "<< std::get<3>(it->first) << "\n\n"; |
| std::cout << "vlans for the above key are => "; |
| for (std::list<uint16_t>::const_iterator _it=it->second.begin(); |
| _it != it->second.end(); |
| ++_it) { |
| std::cout << *_it << " "; |
| } |
| std::cout << "\n\n"; |
| } |
| #endif |
| |
| trap_to_host_pkt_info pkt_info(intf_type, intf_id, pkt_type, gemport_id); |
| // Check for matching vlan only if the trap_to_host_pkt_info exists in the trap_to_host_vlan_ids_for_trap_to_host_pkt_info map |
| if (trap_to_host_vlan_ids_for_trap_to_host_pkt_info.count(pkt_info) > 0) { |
| // Iterate throught the vlan list to find matching vlan |
| auto& vlan_id_list = trap_to_host_vlan_ids_for_trap_to_host_pkt_info[pkt_info]; |
| for (auto allowed_vlan_id : vlan_id_list) { |
| // Found exact matching vlan in the allowed list of vlans for the trap_to_host_pkt_info key or |
| // there is generic match ANY_VLAN in the list in the allowed vlan list. |
| if (allowed_vlan_id == vlan_id || allowed_vlan_id == ANY_VLAN) { |
| return true; |
| } |
| } |
| } |
| return false; |
| } |
| |
| std::pair<grpc_ssl_client_certificate_request_type, bool> get_grpc_tls_option(const char* tls_option) { |
| static const std::map<std::string,grpc_ssl_client_certificate_request_type> grpc_security_option_map = {{"GRPC_SSL_DONT_REQUEST_CLIENT_CERTIFICATE", |
| grpc_ssl_client_certificate_request_type::GRPC_SSL_DONT_REQUEST_CLIENT_CERTIFICATE}, |
| {"GRPC_SSL_REQUEST_CLIENT_CERTIFICATE_BUT_DONT_VERIFY", |
| grpc_ssl_client_certificate_request_type::GRPC_SSL_REQUEST_CLIENT_CERTIFICATE_BUT_DONT_VERIFY}, |
| {"GRPC_SSL_REQUEST_CLIENT_CERTIFICATE_AND_VERIFY", |
| grpc_ssl_client_certificate_request_type::GRPC_SSL_REQUEST_CLIENT_CERTIFICATE_AND_VERIFY}, |
| {"GRPC_SSL_REQUEST_AND_REQUIRE_CLIENT_CERTIFICATE_BUT_DONT_VERIFY", |
| grpc_ssl_client_certificate_request_type::GRPC_SSL_REQUEST_AND_REQUIRE_CLIENT_CERTIFICATE_BUT_DONT_VERIFY}, |
| {"GRPC_SSL_REQUEST_AND_REQUIRE_CLIENT_CERTIFICATE_AND_VERIFY", |
| grpc_ssl_client_certificate_request_type::GRPC_SSL_REQUEST_AND_REQUIRE_CLIENT_CERTIFICATE_AND_VERIFY}}; |
| |
| auto it = grpc_security_option_map.find(tls_option); |
| if (it == grpc_security_option_map.end()) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "invalid gRPC Server security option: %s\n", tls_option); |
| return {grpc_ssl_client_certificate_request_type::GRPC_SSL_DONT_REQUEST_CLIENT_CERTIFICATE, false}; |
| } else { |
| OPENOLT_LOG(INFO, openolt_log_id, "valid gRPC Server security option: %s\n", tls_option); |
| tls_option_arg = std::string{tls_option}; |
| return {it->second, true}; |
| } |
| } |
| |
| const std::string &get_grpc_tls_option() { |
| return tls_option_arg; |
| } |
| |
| bool is_grpc_secure() { |
| return !tls_option_arg.empty(); |
| } |
| |
| std::pair<std::string, bool> read_from_txt_file(const std::string& file_name) { |
| std::ifstream in_file(file_name); |
| |
| if (!in_file.is_open()) { |
| OPENOLT_LOG(ERROR, openolt_log_id, "error opening file '%s'\n", file_name.c_str()); |
| return {"", false}; |
| } |
| |
| std::stringstream buffer; |
| buffer << in_file.rdbuf(); |
| |
| return {buffer.str(), in_file.good()}; |
| } |
| |
| bool save_to_txt_file(const std::string& file_name, const std::string& content) { |
| std::ofstream out_file; |
| out_file.exceptions(std::ofstream::failbit | std::ofstream::badbit); |
| |
| try { |
| out_file.open(file_name, std::ios::out | std::ios::trunc); |
| |
| if (!out_file.is_open()) { |
| std::cerr << "error while opening file '" << file_name << "'\n"; |
| return false; |
| } |
| |
| out_file << content; |
| out_file.close(); |
| |
| return true; |
| } catch (const std::ofstream::failure& e) { |
| std::cerr << "exception while writing to file '" << file_name << "' | err: " << e.what() << '\n'; |
| return false; |
| } |
| } |