syntax = "proto3"; package gw; option go_package = "github.com/chirpstack/chirpstack/api/go/v4/gw"; option java_package = "io.chirpstack.api.gw"; option java_multiple_files = true; option java_outer_classname = "GatewayProto"; import "chirpstack-api/common/common.proto"; import "google/protobuf/timestamp.proto"; import "google/protobuf/duration.proto"; import "google/protobuf/struct.proto"; enum CodeRate { CR_UNDEFINED = 0; CR_4_5 = 1; // LoRa CR_4_6 = 2; CR_4_7 = 3; CR_4_8 = 4; CR_3_8 = 5; // LR-FHSS CR_2_6 = 6; CR_1_4 = 7; CR_1_6 = 8; CR_5_6 = 9; CR_LI_4_5 = 10; // LoRa 2.4 gHz CR_LI_4_6 = 11; CR_LI_4_8 = 12; } enum DownlinkTiming { // Send the downlink immediately. IMMEDIATELY = 0; // Send downlink at the given delay (based on provided context). DELAY = 1; // Send at given GPS epoch value. GPS_EPOCH = 2; } enum FineTimestampType { // No fine-timestamp available. NONE = 0; // Encrypted fine-timestamp. ENCRYPTED = 1; // Plain fine-timestamp. PLAIN = 2; } enum CRCStatus { // No CRC. NO_CRC = 0; // Bad CRC. BAD_CRC = 1; // CRC OK. CRC_OK = 2; } enum TxAckStatus { // Ignored (when a previous item was already emitted). IGNORED = 0; // Packet has been programmed for downlink. OK = 1; // Rejected because it was already too late to program this packet for downlink. TOO_LATE = 2; // Rejected because downlink packet timestamp is too much in advance. TOO_EARLY = 3; // Rejected because there was already a packet programmed in requested timeframe. COLLISION_PACKET = 4; // Rejected because there was already a beacon planned in requested timeframe. COLLISION_BEACON = 5; // Rejected because requested frequency is not supported by TX RF chain. TX_FREQ = 6; // Rejected because requested power is not supported by gateway. TX_POWER = 7; // Rejected because GPS is unlocked, so GPS timestamp cannot be used. GPS_UNLOCKED = 8; // Downlink queue is full. QUEUE_FULL = 9; // Internal error. INTERNAL_ERROR = 10; } message Modulation { oneof parameters { // LoRa modulation information. LoraModulationInfo lora = 3; // FSK modulation information. FskModulationInfo fsk = 4; // LR-FHSS modulation information. LrFhssModulationInfo lr_fhss = 5; } } message UplinkTxInfoLegacy { // Frequency (Hz). uint32 frequency = 1; // Modulation. common.Modulation modulation = 2; oneof modulation_info { // LoRa modulation information. LoraModulationInfo lora_modulation_info = 3; // FSK modulation information. FskModulationInfo fsk_modulation_info = 4; // LR-FHSS modulation information. LrFhssModulationInfo lr_fhss_modulation_info = 5; } } message UplinkTxInfo { // Frequency (Hz). uint32 frequency = 1; // Modulation. Modulation modulation = 2; } message LoraModulationInfo { // Bandwidth. uint32 bandwidth = 1; // Speading-factor. uint32 spreading_factor = 2; // Code-rate. string code_rate_legacy = 3; // Code-rate. CodeRate code_rate = 5; // Polarization inversion. bool polarization_inversion = 4; } message FskModulationInfo { // Frequency deviation. uint32 frequency_deviation = 1; // FSK datarate (bits / sec). uint32 datarate = 2; } message LrFhssModulationInfo { // Operating channel width (OCW) in Hz. uint32 operating_channel_width = 1; // Code-rate. // Deprecated: use code_rate. string code_rate_legacy = 2; // Code-rate. CodeRate code_rate = 4; // Hopping grid number of steps. uint32 grid_steps = 3; } message EncryptedFineTimestamp { // AES key index used for encrypting the fine timestamp. uint32 aes_key_index = 1; // Encrypted 'main' fine-timestamp (ns precision part of the timestamp). bytes encrypted_ns = 2; // FPGA ID. bytes fpga_id = 3; } message PlainFineTimestamp { // Full timestamp. google.protobuf.Timestamp time = 1; } message GatewayStats { // Gateway ID. // Deprecated: use gateway_id. bytes gateway_id_legacy = 1; // Gateway ID. string gateway_id = 17; // Gateway time. google.protobuf.Timestamp time = 2; // Gateway location. common.Location location = 3; // Gateway configuration version (this maps to the config_version sent // by ChirpStack to the gateway). string config_version = 4; // Number of radio packets received. uint32 rx_packets_received = 5; // Number of radio packets received with valid PHY CRC. uint32 rx_packets_received_ok = 6; // Number of downlink packets received for transmission. uint32 tx_packets_received = 7; // Number of downlink packets emitted. uint32 tx_packets_emitted = 8; // Additional gateway meta-data. map meta_data = 10; // Tx packets per frequency. map tx_packets_per_frequency = 12; // Rx packets per frequency. map rx_packets_per_frequency = 13; // Tx packets per modulation parameters. repeated PerModulationCount tx_packets_per_modulation = 14; // Rx packets per modulation parameters. repeated PerModulationCount rx_packets_per_modulation = 15; // Tx packets per status. map tx_packets_per_status = 16; } message PerModulationCount { // Modulation. Modulation modulation = 1; // Count. uint32 count = 2; } message UplinkRxInfoLegacy { // Gateway ID. bytes gateway_id = 1; // RX time (only set when the gateway has a GPS module). google.protobuf.Timestamp time = 2; // RX time since GPS epoch (only set when the gateway has a GPS module). google.protobuf.Duration time_since_gps_epoch = 3; // RSSI. int32 rssi = 5; // LoRa SNR. double lora_snr = 6; // Channel. uint32 channel = 7; // RF Chain. uint32 rf_chain = 8; // Board. uint32 board = 9; // Antenna. uint32 antenna = 10; // Location. common.Location location = 11; // Fine-timestamp type. FineTimestampType fine_timestamp_type = 12; // Fine-timestamp data. oneof fine_timestamp { // Encrypted fine-timestamp data. EncryptedFineTimestamp encrypted_fine_timestamp = 13; // Plain fine-timestamp data. PlainFineTimestamp plain_fine_timestamp = 14; } // Gateway specific context. bytes context = 15; // Uplink ID (UUID bytes). // Unique and random ID which can be used to correlate the uplink across multiple logs. bytes uplink_id = 16; // CRC status. CRCStatus crc_status = 17; // Optional meta-data map. map metadata = 18; } message UplinkRxInfo { // Gateway ID. string gateway_id = 1; // Uplink ID. uint32 uplink_id = 2; // RX time (only set when the gateway has a GPS module). google.protobuf.Timestamp time = 3; // RX time since GPS epoch (only set when the gateway has a GPS module). google.protobuf.Duration time_since_gps_epoch = 4; // Fine-timestamp. // This timestamp can be used for TDOA based geolocation. google.protobuf.Duration fine_time_since_gps_epoch = 5; // RSSI. int32 rssi = 6; // SNR. // Note: only available for LoRa modulation. float snr = 7; // Channel. uint32 channel = 8; // RF chain. uint32 rf_chain = 9; // Board. uint32 board = 10; // Antenna. uint32 antenna = 11; // Location. common.Location location = 12; // Gateway specific context. // This value must be returned to the gateway on (Class-A) downlink. bytes context = 13; // Properties. google.protobuf.Struct metadata = 14; } message DownlinkTxInfoLegacy { // Gateway ID. // Deprecated: replaced by gateway_id in DownlinkFrame. bytes gateway_id = 1; // TX frequency (in Hz). uint32 frequency = 5; // TX power (in dBm). int32 power = 6; // Modulation. common.Modulation modulation = 7; oneof modulation_info { // LoRa modulation information. LoraModulationInfo lora_modulation_info = 8; // FSK modulation information. FskModulationInfo fsk_modulation_info = 9; } // The board identifier for emitting the frame. uint32 board = 10; // The antenna identifier for emitting the frame. uint32 antenna = 11; // Timing defines the downlink timing to use. DownlinkTiming timing = 12; oneof timing_info { // Immediately timing information. ImmediatelyTimingInfo immediately_timing_info = 13; // Context based delay timing information. DelayTimingInfo delay_timing_info = 14; // GPS Epoch timing information. GPSEpochTimingInfo gps_epoch_timing_info = 15; } // Gateway specific context. // In case of a Class-A downlink, this contains a copy of the uplink context. bytes context = 16; } message DownlinkTxInfo { // TX frequency (in Hz). uint32 frequency = 1; // TX power (in dBm). int32 power = 2; // Modulation. Modulation modulation = 3; // The board identifier for emitting the frame. uint32 board = 4; // The antenna identifier for emitting the frame. uint32 antenna = 5; // Timing. Timing timing = 6; // Gateway specific context. // In case of a Class-A downlink, this contains a copy of the uplink context. bytes context = 7; } message Timing { oneof parameters { // Immediately timing information. ImmediatelyTimingInfo immediately = 1; // Context based delay timing information. DelayTimingInfo delay = 2; // GPS Epoch timing information. GPSEpochTimingInfo gps_epoch = 3; } } message ImmediatelyTimingInfo { // Not implemented yet. } message DelayTimingInfo { // Delay (duration). // The delay will be added to the gateway internal timing, provided by the context object. google.protobuf.Duration delay = 1; } message GPSEpochTimingInfo { // Duration since GPS Epoch. google.protobuf.Duration time_since_gps_epoch = 1; } message UplinkFrame { // PHYPayload. bytes phy_payload = 1; // TX meta-data (deprecated). UplinkTxInfoLegacy tx_info_legacy = 2; // RX meta-data (deprecated). UplinkRxInfoLegacy rx_info_legacy = 3; // Tx meta-data. UplinkTxInfo tx_info = 4; // Rx meta-data. UplinkRxInfo rx_info = 5; } message UplinkFrameSet { // PHYPayload. bytes phy_payload = 1; // TX meta-data. UplinkTxInfo tx_info = 2; // RX meta-data set. repeated UplinkRxInfo rx_info = 3; } message DownlinkFrame { // Downlink ID. uint32 downlink_id = 3; // Downlink ID (UUID). // Deprecated: use downlink_id. bytes downlink_id_legacy = 4; // Downlink frame items. // This makes it possible to send multiple downlink opportunities to the // gateway at once (e.g. RX1 and RX2 in LoRaWAN). The first item has the // highest priority, the last the lowest. The gateway will emit at most // one item. repeated DownlinkFrameItem items = 5; // Gateway ID. // Deprecated: use gateway_id bytes gateway_id_legacy = 6; // Gateway ID. string gateway_id = 7; } message DownlinkFrameItem { // PHYPayload. bytes phy_payload = 1; // TX meta-data (deprecated). DownlinkTxInfoLegacy tx_info_legacy = 2; // Tx meta-data. DownlinkTxInfo tx_info = 3; } message DownlinkTxAck { // Gateway ID (deprecated). bytes gateway_id_legacy = 1; // Gateway ID. string gateway_id = 6; // Downlink ID. uint32 downlink_id = 2; // Downlink ID (deprecated). bytes downlink_id_legacy = 4; // Downlink frame items. // This list has the same length as the request and indicates which // downlink frame has been emitted of the requested list (or why it failed). // Note that at most one item has a positive acknowledgement. repeated DownlinkTxAckItem items = 5; } message DownlinkTxAckItem { // The Ack status of this item. TxAckStatus status = 1; } message GatewayConfiguration { // Gateway ID. // Deprecated: use gateway_id. bytes gateway_id_legacy = 1; // Gateway ID. string gateway_id = 5; // Configuration version. string version = 2; // Channels. repeated ChannelConfiguration channels = 3; // Stats interval. google.protobuf.Duration stats_interval = 4; } message ChannelConfiguration { // Frequency (Hz). uint32 frequency = 1; // Modulation (deprecated). common.Modulation modulation_legacy = 2; oneof modulation_config { // LoRa modulation config. LoraModulationConfig lora_modulation_config = 3; // FSK modulation config. FskModulationConfig fsk_modulation_config = 4; } // Board index. uint32 board = 5; // Demodulator index (of the given board). uint32 demodulator = 6; } message LoraModulationConfig { // Bandwidth (kHz). // Deprecated: use bandwidth. uint32 bandwidth_legacy = 1; // Bandwidth (Hz). uint32 bandwidth = 3; // Spreading-factors. repeated uint32 spreading_factors = 2; } message FskModulationConfig { // Bandwidth (kHz). // Deprecated: use bandwidth. uint32 bandwidth_legacy = 1; // Bandwidth (Hz). uint32 bandwidth = 3; // Bitrate. uint32 bitrate = 2; } message GatewayCommandExecRequest { // Gateway ID. // Deprecated: use gateway_id. bytes gateway_id_legacy = 1; // Gateway ID. string gateway_id = 6; // Command to execute. // This command must be pre-configured in the LoRa Gateway Bridge configuration. string command = 2; // Execution request ID. // The same will be returned when the execution of the command has // completed. uint32 exec_id = 7; // Standard input. bytes stdin = 4; // Environment variables. map environment = 5; } message GatewayCommandExecResponse { // Gateway ID. // Deprecated: use gateway_id. bytes gateway_id_legacy = 1; // Gateway ID. string gateway_id = 6; // Execution request ID. uint32 exec_id = 7; // Standard output. bytes stdout = 3; // Standard error. bytes stderr = 4; // Error message. string error = 5; } // RawPacketForwarderEvent contains a raw packet-forwarder event. // It can be used to access packet-forwarder features that are not (fully) // integrated with the ChirpStack Gateway Bridge. message RawPacketForwarderEvent { // Gateway ID. // Deprecated: use gateway_id. bytes gateway_id_legacy = 1; // Gateway ID. string gateway_id = 4; // Payload contains the raw payload. bytes payload = 3; } // RawPacketForwarderEvent contains a raw packet-forwarder command. // It can be used to access packet-forwarder features that are not (fully) // integrated with the ChirpStack Gateway Bridge. message RawPacketForwarderCommand { // Gateway ID. // Deprecated: use gateway_id. bytes gateway_id_legacy = 1; // Gateway ID. string gateway_id = 4; // Payload contains the raw payload. bytes payload = 3; } // ConnState contains the connection state of a gateway. message ConnState { // Gateway ID. // Deprecated: use gateway_id. bytes gateway_id_legacy = 1; // Gateway ID. string gateway_id = 3; enum State { OFFLINE = 0; ONLINE = 1; } State state = 2; }