protos/voltha_protos/openolt.proto - voltha-protos - Gitiles

 // Copyright (c) 2018 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.

 syntax = "proto3";

 option go_package = "github.com/opencord/voltha-protos/v5/go/openolt";
 option java_package = "org.opencord.voltha.openolt";
 option java_outer_classname = "VolthaOpenOLT";

 package openolt;
 import "google/api/annotations.proto";
 import "voltha_protos/tech_profile.proto";
 import "voltha_protos/ext_config.proto";
 import "voltha_protos/extensions.proto";

 service Openolt {

     rpc DisableOlt(Empty) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/Disable"
           body: "*"
         };
     }

     rpc ReenableOlt(Empty) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/Reenable"
           body: "*"
         };
     }

     rpc ActivateOnu(Onu) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/EnableOnu"
           body: "*"
         };
     }

     rpc DeactivateOnu(Onu) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/DisableOnu"
           body: "*"
         };
     }

     rpc DeleteOnu(Onu) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/DeleteOnu"
           body: "*"
         };
     }

     rpc OmciMsgOut(OmciMsg) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/OmciMsgOut"
           body: "*"
         };
     }

     rpc OnuPacketOut(OnuPacket) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/OnuPacketOut"
           body: "*"
         };
     }

     rpc UplinkPacketOut(UplinkPacket) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/UplinkPacketOut"
           body: "*"
         };
     }

     rpc FlowAdd(Flow) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/FlowAdd"
           body: "*"
         };
     }

     rpc FlowRemove(Flow) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/FlowRemove"
           body: "*"
         };
     }

     rpc HeartbeatCheck(Empty) returns (Heartbeat) {
         option (google.api.http) = {
           post: "/v1/HeartbeatCheck"
           body: "*"
         };
     }

     rpc EnablePonIf(Interface) returns (Empty) {
         option (google.api.http) = {
             post: "/v1/EnablePonIf"
             body: "*"
         };
     }

     rpc DisablePonIf(Interface) returns (Empty) {
         option (google.api.http) = {
             post: "/v1/DisablePonIf"
             body: "*"
         };
     }

     rpc GetDeviceInfo(Empty) returns (DeviceInfo) {
         option (google.api.http) = {
             post: "/v1/GetDeviceInfo"
             body: "*"
         };
     }

     rpc Reboot(Empty) returns (Empty) {
          option (google.api.http) = {
             post: "/v1/Reboot"
             body: "*"
         };
     }

     rpc CollectStatistics(Empty) returns (Empty) {
         option (google.api.http) = {
             post: "/v1/CollectStatistics"
             body: "*"
         };
     }

     rpc GetOnuStatistics(Onu) returns (OnuStatistics) {
         option (google.api.http) = {
             post: "/v1/GetOnuStatistics"
             body: "*"
         };
     }

     rpc GetGemPortStatistics(OnuPacket) returns (GemPortStatistics) {
         option (google.api.http) = {
             post: "/v1/GetGemPortStatistics"
             body: "*"
         };
     }

     rpc CreateTrafficSchedulers(tech_profile.TrafficSchedulers) returns (Empty) {
         option (google.api.http) = {
             post: "/v1/CreateTrafficSchedulers"
             body: "*"
         };
     }

     rpc RemoveTrafficSchedulers(tech_profile.TrafficSchedulers) returns (Empty) {
         option (google.api.http) = {
             post: "/v1/RemoveTrafficSchedulers"
             body: "*"
         };
     }

     rpc CreateTrafficQueues(tech_profile.TrafficQueues) returns (Empty) {
         option (google.api.http) = {
             post: "/v1/CreateTrafficQueues"
             body: "*"
         };
     }

     rpc RemoveTrafficQueues(tech_profile.TrafficQueues) returns (Empty) {
         option (google.api.http) = {
             post: "/v1/RemoveTrafficQueues"
             body: "*"
         };
     }

     rpc EnableIndication(Empty) returns (stream Indication) {}

     rpc PerformGroupOperation(Group) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/PerformGroupOperation"
           body: "*"
         };
     }

     rpc DeleteGroup(Group) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/DeleteGroup"
           body: "*"
         };
     }

     rpc GetExtValue(ValueParam) returns (extension.ReturnValues) {
         option (google.api.http) = {
           post: "/v1/GetExtValue"
           body: "*"
         };
     }

     rpc OnuItuPonAlarmSet(config.OnuItuPonAlarm) returns (Empty) {
         option (google.api.http) = {
           post: "/v1/OnuItuPonAlarmSet"
           body: "*"
         };
     }

     rpc GetLogicalOnuDistanceZero(Onu) returns (OnuLogicalDistance) {
         option (google.api.http) = {
             post: "/v1/GetLogicalOnuDistanceZero"
             body: "*"
         };
     }

     rpc GetLogicalOnuDistance(Onu) returns (OnuLogicalDistance) {
         option (google.api.http) = {
             post: "/v1/GetLogicalOnuDistance"
             body: "*"
         };
     }

     rpc GetPonRxPower(Onu) returns (PonRxPowerData) {
         option (google.api.http) = {
           post: "/v1/GetPonRxPower"
           body: "*"
         };
     }
 }

 message Indication {
     oneof data {
         OltIndication olt_ind = 1;
         IntfIndication intf_ind = 2;
         IntfOperIndication intf_oper_ind = 3;
         OnuDiscIndication onu_disc_ind = 4;
         OnuIndication onu_ind = 5;
         OmciIndication omci_ind = 6;
         PacketIndication pkt_ind = 7;
         PortStatistics port_stats = 8;
         FlowStatistics flow_stats = 9;
         AlarmIndication alarm_ind= 10;
     }
 }

 message AlarmIndication {
     oneof data {
         LosIndication los_ind = 1;
         DyingGaspIndication dying_gasp_ind = 2;
         OnuAlarmIndication onu_alarm_ind = 3;
         OnuStartupFailureIndication onu_startup_fail_ind = 4;
         OnuSignalDegradeIndication onu_signal_degrade_ind = 5;
         OnuDriftOfWindowIndication onu_drift_of_window_ind = 6;
         OnuLossOfOmciChannelIndication onu_loss_omci_ind = 7;
         OnuSignalsFailureIndication onu_signals_fail_ind = 8;
         OnuTransmissionInterferenceWarning onu_tiwi_ind = 9;
         OnuActivationFailureIndication onu_activation_fail_ind = 10;
         OnuProcessingErrorIndication onu_processing_error_ind = 11;
         OnuLossOfKeySyncFailureIndication onu_loss_of_sync_fail_ind = 12;
         OnuItuPonStatsIndication onu_itu_pon_stats_ind = 13;
         OnuDeactivationFailureIndication onu_deactivation_failure_ind = 14;
         OnuRemoteDefectIndication onu_remote_defect_ind = 15;
         OnuLossOfGEMChannelDelineationIndication onu_loss_gem_delineation_ind = 16;
         OnuPhysicalEquipmentErrorIndication onu_physical_equipment_error_ind = 17;
         OnuLossOfAcknowledgementIndication onu_loss_of_ack_ind = 18;
         OnuDifferentialReachExceededIndication onu_diff_reach_exceeded_ind = 19;
     }
 }

 message OltIndication {
     string oper_state = 1;	// up, down
 }

 message IntfIndication {
     fixed32 intf_id = 1;
     string oper_state = 2;      // up, down
 }

 message OnuDiscIndication {
     fixed32 intf_id = 1;
     SerialNumber serial_number = 2;
 }

 message OnuIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string oper_state = 3;      // up, down
     string admin_state = 5;     // up, down
     SerialNumber serial_number = 4;
     /** activation fail reason. */
     enum ActivationFailReason
     {
         ONU_ACTIVATION_FAIL_REASON_NONE = 0;
         ONU_ACTIVATION_FAIL_REASON_RANGING = 1; //Ranging Failure
         ONU_ACTIVATION_FAIL_REASON_PASSWORD_AUTHENTICATION = 2; //Password authentication
         ONU_ACTIVATION_FAIL_REASON_LOS = 3; //LOS
         ONU_ACTIVATION_FAIL_ONU_ALARM = 4; // ONU Alarm
         ONU_ACTIVATION_FAIL_SWITCH_OVER = 5; //protection switch over
     }
     ActivationFailReason fail_reason = 6;

 }

 message IntfOperIndication {
     string type = 1;		// nni, pon
     fixed32 intf_id = 2;
     string oper_state = 3;      // up, down
     fixed32 speed = 4;      // measured in Mbps
 }

 message OmciIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     bytes pkt = 3;
 }

 message PacketIndication {
     string intf_type = 5;		// nni, pon, unknown
     fixed32 intf_id = 1;
     fixed32 onu_id = 8;
     fixed32 uni_id = 9;
     fixed32 gemport_id = 2;
     fixed32 flow_id = 3;
     fixed32 port_no = 6;
     fixed64 cookie = 7;
     bytes pkt = 4;
 }

 message Interface {
     fixed32 intf_id = 1;
 }

 message Heartbeat {
     fixed32 heartbeat_signature = 1;
 }

 message Onu {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     SerialNumber serial_number = 3;
     fixed32 pir = 4;   // peak information rate assigned to onu
     bool omcc_encryption = 5;
 }

 message OnuLogicalDistance {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     fixed32 logical_onu_distance_zero = 3; //0km logical distance
     fixed32 logical_onu_distance = 4;
 }

 message OmciMsg {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     bytes pkt = 3;
 }

 message OnuPacket {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     fixed32 port_no = 4;
     fixed32 gemport_id = 5;
     bytes pkt = 3;
 }

 message UplinkPacket {
     fixed32 intf_id = 1;
     bytes pkt = 2;
 }

 message DeviceInfo {
     string vendor = 1;
     string model = 2;
     string hardware_version = 3;
     string firmware_version = 4;
     string device_id = 16;
     string device_serial_number = 17;
     bool previously_connected = 19; // used to indicate agent reconcile status

     // Total number of pon intf ports on the device
     fixed32 pon_ports = 12;

     reserved 5 to 11, 13, 14;
     // Not used anymore, this information is defined per-range only
     // and is fully provided by DeviceResourceRanges
     //
     // string technology = 5;
     // fixed32 onu_id_start = 6;
     // fixed32 onu_id_end = 7;
     // fixed32 alloc_id_start = 8;
     // fixed32 alloc_id_end = 9;
     // fixed32 gemport_id_start = 10;
     // fixed32 gemport_id_end = 11;
     // fixed32 flow_id_start = 13;
     // fixed32 flow_id_end = 14;

     message DeviceResourceRanges {

         // List of 0 or more intf_ids that use the same technology and pools.
         // If 0 intf_ids supplied, it implies ALL interfaces
         repeated fixed32 intf_ids = 1;

         // Technology profile for this pool
         string technology = 2;

         message Pool {
             enum PoolType {
                 ONU_ID = 0;
                 ALLOC_ID = 1;
                 GEMPORT_ID = 2;
                 FLOW_ID = 3;
             }

             enum SharingType {
                 DEDICATED_PER_INTF = 0;
                 SHARED_BY_ALL_INTF_ALL_TECH = 1; // Shared across all interfaces in all technologies in all ranges
                 SHARED_BY_ALL_INTF_SAME_TECH = 2; // Shared across all interfaces of the same technology used in this range
             }

             PoolType type = 1;
 	    SharingType sharing = 2;
 	    fixed32 start = 3; // lower bound on IDs allocated from this pool
 	    fixed32 end = 4; // upper bound on IDs allocated from this pool
 	}
         repeated Pool pools = 3;
     }
     repeated DeviceResourceRanges ranges = 15;
 }

 message Classifier {
     fixed32 o_tpid = 1;
     fixed32 o_vid = 2;
     fixed32 i_tpid = 3;
     fixed32 i_vid = 4;
     fixed32 o_pbits = 5;
     fixed32 i_pbits = 6;
     fixed32 eth_type = 7;
     bytes dst_mac = 8;
     bytes src_mac = 9;
     fixed32 ip_proto = 10;
     fixed32 dst_ip = 11;
     fixed32 src_ip = 12;
     fixed32 src_port = 13;
     fixed32 dst_port = 14;
     string pkt_tag_type = 15;	// untagged, single_tag, double_tag
 }

 message ActionCmd {
     bool add_outer_tag = 1;
     bool remove_outer_tag = 2;
     bool trap_to_host = 3;
     bool remark_outer_pbits = 4;
     bool remark_inner_pbits = 5;
     bool add_inner_tag = 6;
     bool remove_inner_tag = 7;
     bool translate_inner_tag = 8;
     bool translate_outer_tag = 9;
 }

 message Action {
     ActionCmd cmd = 1;
     fixed32 o_vid = 2;
     fixed32 o_pbits = 3;
     fixed32 o_tpid = 4;
     fixed32 i_vid = 5;
     fixed32 i_pbits = 6;
     fixed32 i_tpid = 7;
 }

 message Flow {
     sfixed32 access_intf_id = 1;
     sfixed32 onu_id = 2;
     sfixed32 uni_id = 11;

     fixed64 flow_id = 3; // voltha flow-id. 0 is not a valid flow_id
     fixed64 symmetric_flow_id = 18; // symmetric voltha flow-id, if applicable. All data path flows generally have a symmetric flow,
                                     // but trap-to-controller flows do not have a symmetric flow
                                     // Broadcom BAL requires that symmetric flows use the same BAL flow-id

     string flow_type = 4; // upstream, downstream, broadcast, multicast
     sfixed32 alloc_id = 10;
     sfixed32 network_intf_id = 5;
     sfixed32 gemport_id = 6; // When 'replicate_flow' field is true, this field is obsolete.
     Classifier classifier = 7;
     Action action = 8;
     sfixed32 priority = 9;
     fixed64 cookie = 12; // must be provided for any flow with trap_to_host action. Returned in PacketIndication
     fixed32 port_no = 13; // must be provided for any flow with trap_to_host action. Returned in PacketIndication
     fixed32 group_id = 14;
     fixed32 tech_profile_id = 15;

     bool replicate_flow = 16; // When this field is true, use pbitToGemPortID to know which p-bit needs to be classfied to which gem port.
     map<fixed32, fixed32> pbit_to_gemport = 17; // Map of p-bit to gem port ID
     map<fixed32, bool> gemport_to_aes = 19; // Map of gem port ID to aes encryption
 }

 message SerialNumber {
     bytes vendor_id = 1;
     bytes vendor_specific = 2;
 }

 message PortStatistics {
     fixed32 intf_id = 1;
     fixed64 rx_bytes = 2;
     fixed64 rx_packets = 3;
     fixed64 rx_ucast_packets = 4;
     fixed64 rx_mcast_packets = 5;
     fixed64 rx_bcast_packets = 6;
     fixed64 rx_error_packets = 7;
     fixed64 rx_frames = 17;
     fixed64 rx_frames_64 = 18;
     fixed64 rx_frames_65_127 = 19;
     fixed64 rx_frames_128_255 = 20;
     fixed64 rx_frames_256_511 = 21;
     fixed64 rx_frames_512_1023 = 22;
     fixed64 rx_frames_1024_1518 = 23;
     fixed64 rx_frames_1519_2047 = 24;
     fixed64 rx_frames_2048_4095 = 25;
     fixed64 rx_frames_4096_9216 = 26;
     fixed64 rx_frames_9217_16383 = 27;
     fixed64 rx_crc_errors = 14;

     fixed64 tx_bytes = 8;
     fixed64 tx_packets = 9;
     fixed64 tx_ucast_packets = 10;
     fixed64 tx_mcast_packets = 11;
     fixed64 tx_bcast_packets = 12;
     fixed64 tx_error_packets = 13;
     fixed64 tx_frames = 28;
     fixed64 tx_frames_64 = 29;
     fixed64 tx_frames_65_127 = 30;
     fixed64 tx_frames_128_255 = 31;
     fixed64 tx_frames_256_511 = 32;
     fixed64 tx_frames_512_1023 = 33;
     fixed64 tx_frames_1024_1518 = 34;
     fixed64 tx_frames_1519_2047 = 35;
     fixed64 tx_frames_2048_4095 = 36;
     fixed64 tx_frames_4096_9216 = 37;
     fixed64 tx_frames_9217_16383 = 38;

     fixed64 bip_errors = 15;
     fixed32 timestamp = 16;
 }

 message OnuStatistics {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     fixed64 positive_drift = 3;
     fixed64 negative_drift = 4;
     fixed64 delimiter_miss_detection = 5;
     fixed64 bip_errors = 6;
     fixed64 bip_units = 7;
     fixed64 fec_corrected_symbols = 8;
     fixed64 fec_codewords_corrected = 9;
     fixed64 fec_codewords_uncorrectable = 10;
     fixed64 fec_codewords = 11;
     fixed64 fec_corrected_units = 12;
     fixed64 xgem_key_errors = 13;
     fixed64 xgem_loss = 14;
     fixed64 rx_ploams_error = 15;
     fixed64 rx_ploams_non_idle = 16;
     fixed64 rx_omci = 17;
     fixed64 rx_omci_packets_crc_error = 18;
     fixed64 rx_bytes = 19;
     fixed64 rx_packets = 20;
     fixed64 tx_bytes = 21;
     fixed64 tx_packets = 22;
     fixed64 ber_reported = 23;
     fixed64 lcdg_errors = 24;
     fixed64 rdi_errors = 25;
     fixed32 timestamp = 26;
 }

 message GemPortStatistics {
     fixed32 intf_id = 1;
     fixed32 gemport_id = 2;
     fixed64 rx_packets = 3;
     fixed64 rx_bytes = 4;
     fixed64 tx_packets = 5;
     fixed64 tx_bytes = 6;
     fixed32 timestamp = 26;
 }

 message FlowStatistics {
     fixed32 flow_id = 1;
     fixed64 rx_bytes = 2;
     fixed64 rx_packets = 3;
     fixed64 tx_bytes = 8;
     fixed64 tx_packets = 9;
     fixed32 timestamp = 16;
 }

 message LosIndication {
     fixed32 intf_id = 1;
     string status = 2;
 }

 message DyingGaspIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
 }

 message OnuAlarmIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string los_status = 3;
     string lob_status = 4;
     string lopc_miss_status = 5;
     string lopc_mic_error_status = 6;
     string lofi_status = 7;
     string loami_status = 8;
 }

 message OnuStartupFailureIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
 }

 message OnuSignalDegradeIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
     fixed32 inverse_bit_error_rate = 4;
 }

 message OnuDriftOfWindowIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
     fixed32 drift = 4;
     fixed32 new_eqd = 5;
 }

 message OnuLossOfOmciChannelIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
 }

 message OnuSignalsFailureIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
     fixed32 inverse_bit_error_rate = 4;
 }

 message OnuTransmissionInterferenceWarning {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
     fixed32 drift = 4;
 }

 message OnuActivationFailureIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     fixed32 fail_reason = 3;
 }

 message OnuLossOfKeySyncFailureIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
 }

 message RdiErrorIndication {
     fixed64 rdi_error_count = 1; // RDI Error count
     string status = 2; // on/off based on configured reporting condition
 }

 message OnuItuPonStatsIndication{
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     oneof stats {
         RdiErrorIndication rdi_error_ind = 3;
         // add more here
     }
 }

 message OnuProcessingErrorIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
 }

 message OnuDeactivationFailureIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
 }

 message OnuRemoteDefectIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     fixed64 rdi_errors = 3;
 }

 message OnuLossOfGEMChannelDelineationIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
     fixed32 delineation_errors = 4;
 }

 message OnuPhysicalEquipmentErrorIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
 }

 message OnuLossOfAcknowledgementIndication {
     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
 }

 message OnuDifferentialReachExceededIndication {
         fixed32 intf_id = 1;
         fixed32 onu_id = 2;
         string status = 3;
         fixed32 distance = 4;
 }

 message GroupMember {
     enum InterfaceType {
         PON = 0;
         EPON_1G_PATH = 1;
         EPON_10G_PATH = 2;
     }
     uint32 interface_id = 1;
     InterfaceType interface_type = 2;
     uint32 gem_port_id = 3;
     uint32 priority = 4; // Priority (and also the ID) of the default fixed queue for the multicast traffic.
                          // This queue is attached to the default PON port scheduler.
 }

 message Group {
     enum GroupMembersCommand {
         ADD_MEMBERS = 0;
         REMOVE_MEMBERS = 1;
         SET_MEMBERS = 2;
     }

     uint32 group_id = 1;
     GroupMembersCommand command = 2;
     repeated GroupMember members = 3;
     Action action = 4;
 }

 message ValueParam {
 	Onu onu = 1;
 	extension.ValueType.Type value = 2;
 }

 message PonRxPowerData {
     enum RssiMeasurementFailReason {
         FAIL_REASON_NONE = 0;
         FAIL_REASON_NO_DELIMITER = 1;
         FAIL_REASON_NO_ACCESS = 2;
     }

     fixed32 intf_id = 1;
     fixed32 onu_id = 2;
     string status = 3;
     RssiMeasurementFailReason fail_reason = 4;
     double rx_power_mean_dbm = 5;
 }

 message Empty {}
	// Copyright (c) 2018 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.

	syntax = "proto3";

	option go_package = "github.com/opencord/voltha-protos/v5/go/openolt";
	option java_package = "org.opencord.voltha.openolt";
	option java_outer_classname = "VolthaOpenOLT";

	package openolt;
	import "google/api/annotations.proto";
	import "voltha_protos/tech_profile.proto";
	import "voltha_protos/ext_config.proto";
	import "voltha_protos/extensions.proto";

	service Openolt {

	rpc DisableOlt(Empty) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/Disable"
	body: "*"
	};
	}

	rpc ReenableOlt(Empty) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/Reenable"
	body: "*"
	};
	}

	rpc ActivateOnu(Onu) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/EnableOnu"
	body: "*"
	};
	}

	rpc DeactivateOnu(Onu) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/DisableOnu"
	body: "*"
	};
	}

	rpc DeleteOnu(Onu) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/DeleteOnu"
	body: "*"
	};
	}

	rpc OmciMsgOut(OmciMsg) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/OmciMsgOut"
	body: "*"
	};
	}

	rpc OnuPacketOut(OnuPacket) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/OnuPacketOut"
	body: "*"
	};
	}

	rpc UplinkPacketOut(UplinkPacket) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/UplinkPacketOut"
	body: "*"
	};
	}

	rpc FlowAdd(Flow) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/FlowAdd"
	body: "*"
	};
	}

	rpc FlowRemove(Flow) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/FlowRemove"
	body: "*"
	};
	}

	rpc HeartbeatCheck(Empty) returns (Heartbeat) {
	option (google.api.http) = {
	post: "/v1/HeartbeatCheck"
	body: "*"
	};
	}

	rpc EnablePonIf(Interface) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/EnablePonIf"
	body: "*"
	};
	}

	rpc DisablePonIf(Interface) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/DisablePonIf"
	body: "*"
	};
	}

	rpc GetDeviceInfo(Empty) returns (DeviceInfo) {
	option (google.api.http) = {
	post: "/v1/GetDeviceInfo"
	body: "*"
	};
	}

	rpc Reboot(Empty) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/Reboot"
	body: "*"
	};
	}

	rpc CollectStatistics(Empty) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/CollectStatistics"
	body: "*"
	};
	}

	rpc GetOnuStatistics(Onu) returns (OnuStatistics) {
	option (google.api.http) = {
	post: "/v1/GetOnuStatistics"
	body: "*"
	};
	}

	rpc GetGemPortStatistics(OnuPacket) returns (GemPortStatistics) {
	option (google.api.http) = {
	post: "/v1/GetGemPortStatistics"
	body: "*"
	};
	}

	rpc CreateTrafficSchedulers(tech_profile.TrafficSchedulers) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/CreateTrafficSchedulers"
	body: "*"
	};
	}

	rpc RemoveTrafficSchedulers(tech_profile.TrafficSchedulers) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/RemoveTrafficSchedulers"
	body: "*"
	};
	}

	rpc CreateTrafficQueues(tech_profile.TrafficQueues) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/CreateTrafficQueues"
	body: "*"
	};
	}

	rpc RemoveTrafficQueues(tech_profile.TrafficQueues) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/RemoveTrafficQueues"
	body: "*"
	};
	}

	rpc EnableIndication(Empty) returns (stream Indication) {}

	rpc PerformGroupOperation(Group) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/PerformGroupOperation"
	body: "*"
	};
	}

	rpc DeleteGroup(Group) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/DeleteGroup"
	body: "*"
	};
	}

	rpc GetExtValue(ValueParam) returns (extension.ReturnValues) {
	option (google.api.http) = {
	post: "/v1/GetExtValue"
	body: "*"
	};
	}

	rpc OnuItuPonAlarmSet(config.OnuItuPonAlarm) returns (Empty) {
	option (google.api.http) = {
	post: "/v1/OnuItuPonAlarmSet"
	body: "*"
	};
	}

	rpc GetLogicalOnuDistanceZero(Onu) returns (OnuLogicalDistance) {
	option (google.api.http) = {
	post: "/v1/GetLogicalOnuDistanceZero"
	body: "*"
	};
	}

	rpc GetLogicalOnuDistance(Onu) returns (OnuLogicalDistance) {
	option (google.api.http) = {
	post: "/v1/GetLogicalOnuDistance"
	body: "*"
	};
	}

	rpc GetPonRxPower(Onu) returns (PonRxPowerData) {
	option (google.api.http) = {
	post: "/v1/GetPonRxPower"
	body: "*"
	};
	}
	}

	message Indication {
	oneof data {
	OltIndication olt_ind = 1;
	IntfIndication intf_ind = 2;
	IntfOperIndication intf_oper_ind = 3;
	OnuDiscIndication onu_disc_ind = 4;
	OnuIndication onu_ind = 5;
	OmciIndication omci_ind = 6;
	PacketIndication pkt_ind = 7;
	PortStatistics port_stats = 8;
	FlowStatistics flow_stats = 9;
	AlarmIndication alarm_ind= 10;
	}
	}

	message AlarmIndication {
	oneof data {
	LosIndication los_ind = 1;
	DyingGaspIndication dying_gasp_ind = 2;
	OnuAlarmIndication onu_alarm_ind = 3;
	OnuStartupFailureIndication onu_startup_fail_ind = 4;
	OnuSignalDegradeIndication onu_signal_degrade_ind = 5;
	OnuDriftOfWindowIndication onu_drift_of_window_ind = 6;
	OnuLossOfOmciChannelIndication onu_loss_omci_ind = 7;
	OnuSignalsFailureIndication onu_signals_fail_ind = 8;
	OnuTransmissionInterferenceWarning onu_tiwi_ind = 9;
	OnuActivationFailureIndication onu_activation_fail_ind = 10;
	OnuProcessingErrorIndication onu_processing_error_ind = 11;
	OnuLossOfKeySyncFailureIndication onu_loss_of_sync_fail_ind = 12;
	OnuItuPonStatsIndication onu_itu_pon_stats_ind = 13;
	OnuDeactivationFailureIndication onu_deactivation_failure_ind = 14;
	OnuRemoteDefectIndication onu_remote_defect_ind = 15;
	OnuLossOfGEMChannelDelineationIndication onu_loss_gem_delineation_ind = 16;
	OnuPhysicalEquipmentErrorIndication onu_physical_equipment_error_ind = 17;
	OnuLossOfAcknowledgementIndication onu_loss_of_ack_ind = 18;
	OnuDifferentialReachExceededIndication onu_diff_reach_exceeded_ind = 19;
	}
	}

	message OltIndication {
	string oper_state = 1; // up, down
	}

	message IntfIndication {
	fixed32 intf_id = 1;
	string oper_state = 2; // up, down
	}

	message OnuDiscIndication {
	fixed32 intf_id = 1;
	SerialNumber serial_number = 2;
	}

	message OnuIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string oper_state = 3; // up, down
	string admin_state = 5; // up, down
	SerialNumber serial_number = 4;
	/** activation fail reason. */
	enum ActivationFailReason
	{
	ONU_ACTIVATION_FAIL_REASON_NONE = 0;
	ONU_ACTIVATION_FAIL_REASON_RANGING = 1; //Ranging Failure
	ONU_ACTIVATION_FAIL_REASON_PASSWORD_AUTHENTICATION = 2; //Password authentication
	ONU_ACTIVATION_FAIL_REASON_LOS = 3; //LOS
	ONU_ACTIVATION_FAIL_ONU_ALARM = 4; // ONU Alarm
	ONU_ACTIVATION_FAIL_SWITCH_OVER = 5; //protection switch over
	}
	ActivationFailReason fail_reason = 6;

	}

	message IntfOperIndication {
	string type = 1; // nni, pon
	fixed32 intf_id = 2;
	string oper_state = 3; // up, down
	fixed32 speed = 4; // measured in Mbps
	}

	message OmciIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	bytes pkt = 3;
	}

	message PacketIndication {
	string intf_type = 5; // nni, pon, unknown
	fixed32 intf_id = 1;
	fixed32 onu_id = 8;
	fixed32 uni_id = 9;
	fixed32 gemport_id = 2;
	fixed32 flow_id = 3;
	fixed32 port_no = 6;
	fixed64 cookie = 7;
	bytes pkt = 4;
	}

	message Interface {
	fixed32 intf_id = 1;
	}

	message Heartbeat {
	fixed32 heartbeat_signature = 1;
	}

	message Onu {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	SerialNumber serial_number = 3;
	fixed32 pir = 4; // peak information rate assigned to onu
	bool omcc_encryption = 5;
	}

	message OnuLogicalDistance {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	fixed32 logical_onu_distance_zero = 3; //0km logical distance
	fixed32 logical_onu_distance = 4;
	}

	message OmciMsg {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	bytes pkt = 3;
	}

	message OnuPacket {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	fixed32 port_no = 4;
	fixed32 gemport_id = 5;
	bytes pkt = 3;
	}

	message UplinkPacket {
	fixed32 intf_id = 1;
	bytes pkt = 2;
	}

	message DeviceInfo {
	string vendor = 1;
	string model = 2;
	string hardware_version = 3;
	string firmware_version = 4;
	string device_id = 16;
	string device_serial_number = 17;
	bool previously_connected = 19; // used to indicate agent reconcile status

	// Total number of pon intf ports on the device
	fixed32 pon_ports = 12;

	reserved 5 to 11, 13, 14;
	// Not used anymore, this information is defined per-range only
	// and is fully provided by DeviceResourceRanges
	//
	// string technology = 5;
	// fixed32 onu_id_start = 6;
	// fixed32 onu_id_end = 7;
	// fixed32 alloc_id_start = 8;
	// fixed32 alloc_id_end = 9;
	// fixed32 gemport_id_start = 10;
	// fixed32 gemport_id_end = 11;
	// fixed32 flow_id_start = 13;
	// fixed32 flow_id_end = 14;

	message DeviceResourceRanges {

	// List of 0 or more intf_ids that use the same technology and pools.
	// If 0 intf_ids supplied, it implies ALL interfaces
	repeated fixed32 intf_ids = 1;

	// Technology profile for this pool
	string technology = 2;

	message Pool {
	enum PoolType {
	ONU_ID = 0;
	ALLOC_ID = 1;
	GEMPORT_ID = 2;
	FLOW_ID = 3;
	}

	enum SharingType {
	DEDICATED_PER_INTF = 0;
	SHARED_BY_ALL_INTF_ALL_TECH = 1; // Shared across all interfaces in all technologies in all ranges
	SHARED_BY_ALL_INTF_SAME_TECH = 2; // Shared across all interfaces of the same technology used in this range
	}

	PoolType type = 1;
	SharingType sharing = 2;
	fixed32 start = 3; // lower bound on IDs allocated from this pool
	fixed32 end = 4; // upper bound on IDs allocated from this pool
	}
	repeated Pool pools = 3;
	}
	repeated DeviceResourceRanges ranges = 15;
	}

	message Classifier {
	fixed32 o_tpid = 1;
	fixed32 o_vid = 2;
	fixed32 i_tpid = 3;
	fixed32 i_vid = 4;
	fixed32 o_pbits = 5;
	fixed32 i_pbits = 6;
	fixed32 eth_type = 7;
	bytes dst_mac = 8;
	bytes src_mac = 9;
	fixed32 ip_proto = 10;
	fixed32 dst_ip = 11;
	fixed32 src_ip = 12;
	fixed32 src_port = 13;
	fixed32 dst_port = 14;
	string pkt_tag_type = 15; // untagged, single_tag, double_tag
	}

	message ActionCmd {
	bool add_outer_tag = 1;
	bool remove_outer_tag = 2;
	bool trap_to_host = 3;
	bool remark_outer_pbits = 4;
	bool remark_inner_pbits = 5;
	bool add_inner_tag = 6;
	bool remove_inner_tag = 7;
	bool translate_inner_tag = 8;
	bool translate_outer_tag = 9;
	}

	message Action {
	ActionCmd cmd = 1;
	fixed32 o_vid = 2;
	fixed32 o_pbits = 3;
	fixed32 o_tpid = 4;
	fixed32 i_vid = 5;
	fixed32 i_pbits = 6;
	fixed32 i_tpid = 7;
	}

	message Flow {
	sfixed32 access_intf_id = 1;
	sfixed32 onu_id = 2;
	sfixed32 uni_id = 11;

	fixed64 flow_id = 3; // voltha flow-id. 0 is not a valid flow_id
	fixed64 symmetric_flow_id = 18; // symmetric voltha flow-id, if applicable. All data path flows generally have a symmetric flow,
	// but trap-to-controller flows do not have a symmetric flow
	// Broadcom BAL requires that symmetric flows use the same BAL flow-id

	string flow_type = 4; // upstream, downstream, broadcast, multicast
	sfixed32 alloc_id = 10;
	sfixed32 network_intf_id = 5;
	sfixed32 gemport_id = 6; // When 'replicate_flow' field is true, this field is obsolete.
	Classifier classifier = 7;
	Action action = 8;
	sfixed32 priority = 9;
	fixed64 cookie = 12; // must be provided for any flow with trap_to_host action. Returned in PacketIndication
	fixed32 port_no = 13; // must be provided for any flow with trap_to_host action. Returned in PacketIndication
	fixed32 group_id = 14;
	fixed32 tech_profile_id = 15;

	bool replicate_flow = 16; // When this field is true, use pbitToGemPortID to know which p-bit needs to be classfied to which gem port.
	map<fixed32, fixed32> pbit_to_gemport = 17; // Map of p-bit to gem port ID
	map<fixed32, bool> gemport_to_aes = 19; // Map of gem port ID to aes encryption
	}

	message SerialNumber {
	bytes vendor_id = 1;
	bytes vendor_specific = 2;
	}

	message PortStatistics {
	fixed32 intf_id = 1;
	fixed64 rx_bytes = 2;
	fixed64 rx_packets = 3;
	fixed64 rx_ucast_packets = 4;
	fixed64 rx_mcast_packets = 5;
	fixed64 rx_bcast_packets = 6;
	fixed64 rx_error_packets = 7;
	fixed64 rx_frames = 17;
	fixed64 rx_frames_64 = 18;
	fixed64 rx_frames_65_127 = 19;
	fixed64 rx_frames_128_255 = 20;
	fixed64 rx_frames_256_511 = 21;
	fixed64 rx_frames_512_1023 = 22;
	fixed64 rx_frames_1024_1518 = 23;
	fixed64 rx_frames_1519_2047 = 24;
	fixed64 rx_frames_2048_4095 = 25;
	fixed64 rx_frames_4096_9216 = 26;
	fixed64 rx_frames_9217_16383 = 27;
	fixed64 rx_crc_errors = 14;

	fixed64 tx_bytes = 8;
	fixed64 tx_packets = 9;
	fixed64 tx_ucast_packets = 10;
	fixed64 tx_mcast_packets = 11;
	fixed64 tx_bcast_packets = 12;
	fixed64 tx_error_packets = 13;
	fixed64 tx_frames = 28;
	fixed64 tx_frames_64 = 29;
	fixed64 tx_frames_65_127 = 30;
	fixed64 tx_frames_128_255 = 31;
	fixed64 tx_frames_256_511 = 32;
	fixed64 tx_frames_512_1023 = 33;
	fixed64 tx_frames_1024_1518 = 34;
	fixed64 tx_frames_1519_2047 = 35;
	fixed64 tx_frames_2048_4095 = 36;
	fixed64 tx_frames_4096_9216 = 37;
	fixed64 tx_frames_9217_16383 = 38;

	fixed64 bip_errors = 15;
	fixed32 timestamp = 16;
	}

	message OnuStatistics {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	fixed64 positive_drift = 3;
	fixed64 negative_drift = 4;
	fixed64 delimiter_miss_detection = 5;
	fixed64 bip_errors = 6;
	fixed64 bip_units = 7;
	fixed64 fec_corrected_symbols = 8;
	fixed64 fec_codewords_corrected = 9;
	fixed64 fec_codewords_uncorrectable = 10;
	fixed64 fec_codewords = 11;
	fixed64 fec_corrected_units = 12;
	fixed64 xgem_key_errors = 13;
	fixed64 xgem_loss = 14;
	fixed64 rx_ploams_error = 15;
	fixed64 rx_ploams_non_idle = 16;
	fixed64 rx_omci = 17;
	fixed64 rx_omci_packets_crc_error = 18;
	fixed64 rx_bytes = 19;
	fixed64 rx_packets = 20;
	fixed64 tx_bytes = 21;
	fixed64 tx_packets = 22;
	fixed64 ber_reported = 23;
	fixed64 lcdg_errors = 24;
	fixed64 rdi_errors = 25;
	fixed32 timestamp = 26;
	}

	message GemPortStatistics {
	fixed32 intf_id = 1;
	fixed32 gemport_id = 2;
	fixed64 rx_packets = 3;
	fixed64 rx_bytes = 4;
	fixed64 tx_packets = 5;
	fixed64 tx_bytes = 6;
	fixed32 timestamp = 26;
	}

	message FlowStatistics {
	fixed32 flow_id = 1;
	fixed64 rx_bytes = 2;
	fixed64 rx_packets = 3;
	fixed64 tx_bytes = 8;
	fixed64 tx_packets = 9;
	fixed32 timestamp = 16;
	}

	message LosIndication {
	fixed32 intf_id = 1;
	string status = 2;
	}

	message DyingGaspIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	}

	message OnuAlarmIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string los_status = 3;
	string lob_status = 4;
	string lopc_miss_status = 5;
	string lopc_mic_error_status = 6;
	string lofi_status = 7;
	string loami_status = 8;
	}

	message OnuStartupFailureIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	}

	message OnuSignalDegradeIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	fixed32 inverse_bit_error_rate = 4;
	}

	message OnuDriftOfWindowIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	fixed32 drift = 4;
	fixed32 new_eqd = 5;
	}

	message OnuLossOfOmciChannelIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	}

	message OnuSignalsFailureIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	fixed32 inverse_bit_error_rate = 4;
	}

	message OnuTransmissionInterferenceWarning {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	fixed32 drift = 4;
	}

	message OnuActivationFailureIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	fixed32 fail_reason = 3;
	}

	message OnuLossOfKeySyncFailureIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	}

	message RdiErrorIndication {
	fixed64 rdi_error_count = 1; // RDI Error count
	string status = 2; // on/off based on configured reporting condition
	}

	message OnuItuPonStatsIndication{
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	oneof stats {
	RdiErrorIndication rdi_error_ind = 3;
	// add more here
	}
	}

	message OnuProcessingErrorIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	}

	message OnuDeactivationFailureIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	}

	message OnuRemoteDefectIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	fixed64 rdi_errors = 3;
	}

	message OnuLossOfGEMChannelDelineationIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	fixed32 delineation_errors = 4;
	}

	message OnuPhysicalEquipmentErrorIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	}

	message OnuLossOfAcknowledgementIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	}

	message OnuDifferentialReachExceededIndication {
	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	fixed32 distance = 4;
	}

	message GroupMember {
	enum InterfaceType {
	PON = 0;
	EPON_1G_PATH = 1;
	EPON_10G_PATH = 2;
	}
	uint32 interface_id = 1;
	InterfaceType interface_type = 2;
	uint32 gem_port_id = 3;
	uint32 priority = 4; // Priority (and also the ID) of the default fixed queue for the multicast traffic.
	// This queue is attached to the default PON port scheduler.
	}

	message Group {
	enum GroupMembersCommand {
	ADD_MEMBERS = 0;
	REMOVE_MEMBERS = 1;
	SET_MEMBERS = 2;
	}

	uint32 group_id = 1;
	GroupMembersCommand command = 2;
	repeated GroupMember members = 3;
	Action action = 4;
	}

	message ValueParam {
	Onu onu = 1;
	extension.ValueType.Type value = 2;
	}

	message PonRxPowerData {
	enum RssiMeasurementFailReason {
	FAIL_REASON_NONE = 0;
	FAIL_REASON_NO_DELIMITER = 1;
	FAIL_REASON_NO_ACCESS = 2;
	}

	fixed32 intf_id = 1;
	fixed32 onu_id = 2;
	string status = 3;
	RssiMeasurementFailReason fail_reason = 4;
	double rx_power_mean_dbm = 5;
	}

	message Empty {}