chirpstack/api/python/proto/chirpstack-api/api/device_profile.proto

syntax = "proto3";

package api;

option go_package = "github.com/chirpstack/chirpstack/api/go/v4/api";
option java_package = "io.chirpstack.api";
option java_multiple_files = true;
option java_outer_classname = "DeviceProfileProto";
option csharp_namespace = "Chirpstack.Api";

import "google/api/annotations.proto";
import "google/protobuf/timestamp.proto";
import "google/protobuf/empty.proto";
import "chirpstack-api/common/common.proto";

enum CodecRuntime {
    // None.
    NONE = 0;

    // Cayenne LPP.
    CAYENNE_LPP = 1;

    // JavaScript.
    JS = 2;
}

enum MeasurementKind {
    // Unknown (in which case it is not tracked).
    UNKNOWN = 0;

    // Incrementing counters that never decrease (these are not reset on each reading).
    COUNTER = 1;

    // Counters that do get reset upon reading.
    ABSOLUTE = 2;

    // E.g. a temperature value.
    GAUGE = 3;

    // E.g. a firmware version, true / false value.
    STRING = 4;
}

// DeviceProfileService is the service providing API methods for managing device-profiles.
service DeviceProfileService {
    // Create the given device-profile.
    rpc Create(CreateDeviceProfileRequest) returns (CreateDeviceProfileResponse) {
        option(google.api.http) = {
            post: "/api/device-profiles"
            body: "*"
        };
    }

    // Get the device-profile for the given ID.
    rpc Get(GetDeviceProfileRequest) returns (GetDeviceProfileResponse) {
        option(google.api.http) = {
            get: "/api/device-profiles/{id}"
        };
    }

    // Update the given device-profile.
    rpc Update(UpdateDeviceProfileRequest) returns (google.protobuf.Empty) {
        option(google.api.http) = {
            put: "/api/device-profiles/{device_profile.id}"
            body: "*"
        };
    }

    // Delete the device-profile with the given ID.
    rpc Delete(DeleteDeviceProfileRequest) returns (google.protobuf.Empty) {
        option(google.api.http) = {
            delete: "/api/device-profiles/{id}"
        };
    }
    
    // List the available device-profiles.
    rpc List(ListDeviceProfilesRequest) returns (ListDeviceProfilesResponse) {
        option(google.api.http) = {
            get: "/api/device-profiles"
        };
    }

    // List available ADR algorithms.
    rpc ListAdrAlgorithms(google.protobuf.Empty) returns (ListDeviceProfileAdrAlgorithmsResponse) {
        option(google.api.http) = {
            get: "/api/device-profiles/adr-algorithms"
        };
    }
}

message DeviceProfile {
    // Device-profile ID (UUID).
    // Note: on create this will be automatically generated.
    string id = 1;

    // Tenant ID (UUID).
    string tenant_id = 2;

    // Name.
    string name = 3;

    // Description.
    string description = 26;

    // Region.
    common.Region region = 4; 

    // LoRaWAN mac-version.
    common.MacVersion mac_version = 5;

    // Regional parameters revision.
    common.RegParamsRevision reg_params_revision = 6;

    // ADR algorithm ID.
    string adr_algorithm_id = 7;

    // Payload codec runtime.
    CodecRuntime payload_codec_runtime = 8;

    // Payload codec script.
    string payload_codec_script = 9;

    // Flush queue on device activation.
    bool flush_queue_on_activate = 10;

    // Uplink interval (seconds).
    // This defines the expected uplink interval which the device uses for
    // communication. If the uplink interval has expired and no uplink has
    // been received, the device is considered inactive.
    uint32 uplink_interval = 11;

    // Device-status request interval (times / day).
    // This defines the times per day that ChirpStack will request the device-status
    // from the device.
    uint32 device_status_req_interval = 12;

    // Supports OTAA.
    bool supports_otaa = 13;

    // Supports Class B.
    bool supports_class_b = 14;

    // Supports Class-C.
    bool supports_class_c = 15;

    // Class-B timeout (seconds).
    // This is the maximum time ChirpStack will wait to receive an acknowledgement from the device (if requested).
    uint32 class_b_timeout = 16;

    // Class-B ping-slots per beacon period.
    // Valid options are: 0 - 7.
    //
    // The actual number of ping-slots per beacon period equals to 2^k.
    uint32 class_b_ping_slot_nb_k = 17;

    // Class-B ping-slot DR.
    uint32 class_b_ping_slot_dr = 18;

    // Class-B ping-slot freq (Hz).
    uint32 class_b_ping_slot_freq = 19;

    // Class-C timeout (seconds).
    // This is the maximum time ChirpStack will wait to receive an acknowledgement from the device (if requested).
    uint32 class_c_timeout = 20;

    // RX1 delay (for ABP).
    uint32 abp_rx1_delay = 21;

    // RX1 DR offset (for ABP).
    uint32 abp_rx1_dr_offset = 22;

    // RX2 DR (for ABP).
    uint32 abp_rx2_dr = 23;

    // RX2 frequency (for ABP, Hz).
    uint32 abp_rx2_freq = 24;

    // User defined tags.
    map<string, string> tags = 25;

    // Measurements.
    // If defined, ChirpStack will visualize these metrics in the web-interface.
    map<string, Measurement> measurements = 27;

    // Auto-detect measurements.
    // If set to true, measurements will be automatically added based on the
    // keys of the decoded payload. In cases where the decoded payload contains
    // random keys in the data, you want to set this to false.
    bool auto_detect_measurements = 28;

    // Region configuration ID.
    // If set, devices will only use the associated region. If let blank, then
    // devices will use all regions matching the selected common-name. Note
    // that multiple region configurations can exist for the same common-name,
    // e.g. to provide an 8 channel and 16 channel configuration for the US915
    // band.
    string region_config_id = 29;
}

message Measurement {
    // Name (user defined).
    string name = 2;

    // Kind.
    MeasurementKind kind = 3;
}

message DeviceProfileListItem {
    // Device-profile ID (UUID).
    string id = 1;

	// Created at timestamp.
	google.protobuf.Timestamp created_at = 2;

	// Last update timestamp.
	google.protobuf.Timestamp updated_at = 3;

    // Name.
    string name = 4;

    // Region.
    common.Region region = 5;

    // LoRaWAN mac-version.
    common.MacVersion mac_version = 6;

    // Regional parameters revision.
    common.RegParamsRevision reg_params_revision = 7;

    // Supports OTAA.
    bool supports_otaa = 8;

    // Supports Class-B.
    bool supports_class_b = 9;

    // Supports Class-C.
    bool supports_class_c = 10;
}

message CreateDeviceProfileRequest {
    // Object to create.
    DeviceProfile device_profile = 1;
}

message CreateDeviceProfileResponse {
    // ID (UUID).
    string id = 1;
}

message GetDeviceProfileRequest {
    // ID (UUID).
    string id = 1;
}

message GetDeviceProfileResponse {
    // Device-profile object.
    DeviceProfile device_profile = 1;

	// Created at timestamp.
	google.protobuf.Timestamp created_at = 2;

	// Last update timestamp.
	google.protobuf.Timestamp updated_at = 3;
}

message UpdateDeviceProfileRequest {
    // Device-profile object.
    DeviceProfile device_profile = 1;
}

message DeleteDeviceProfileRequest {
    // ID (UUID).
    string id = 1;
}

message ListDeviceProfilesRequest {
    // Max number of device-profiles to return in the result-set.
    uint32 limit = 1;

    // Offset in the result-set (for pagination).
    uint32 offset = 2;

    // If set, the given string will be used to search on name.
    string search = 3;

    // Tenant ID to list the device-profiles for.
    string tenant_id = 4;
}

message ListDeviceProfilesResponse {
    // Total number of device-profiles.
    uint32 total_count = 1;

    // Result-set.
    repeated DeviceProfileListItem result = 2;
}

message ListDeviceProfileAdrAlgorithmsResponse {
    // Total number of algorithms.
    uint32 total_count = 1;

    // Result-set.
    repeated AdrAlgorithmListItem result = 2;
}

message AdrAlgorithmListItem {
    // Algorithm ID.
    string id = 1;

    // Algorithm name.
    string name = 2;
}