dht-data/dist/messages.js

"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.State = exports.Message = exports.Type = void 0;
const runtime_1 = require("@protobuf-ts/runtime");
const runtime_2 = require("@protobuf-ts/runtime");
const runtime_3 = require("@protobuf-ts/runtime");
const runtime_4 = require("@protobuf-ts/runtime");
const runtime_5 = require("@protobuf-ts/runtime");
/**
 * @generated from protobuf enum Type
 */
var Type;
(function (Type) {
    /**
     * @generated synthetic value - protobuf-ts requires all enums to have a 0 value
     */
    Type[Type["UNSPECIFIED$"] = 0] = "UNSPECIFIED$";
    /**
     * @generated from protobuf enum value: BOOTSTRAP_REQUEST = 1;
     */
    Type[Type["BOOTSTRAP_REQUEST"] = 1] = "BOOTSTRAP_REQUEST";
    /**
     * @generated from protobuf enum value: BOOTSTRAP_RESPONSE = 2;
     */
    Type[Type["BOOTSTRAP_RESPONSE"] = 2] = "BOOTSTRAP_RESPONSE";
    /**
     * @generated from protobuf enum value: CONNECTED = 3;
     */
    Type[Type["CONNECTED"] = 3] = "CONNECTED";
    /**
     * @generated from protobuf enum value: DISCONNECTED = 4;
     */
    Type[Type["DISCONNECTED"] = 4] = "DISCONNECTED";
    /**
     * @generated from protobuf enum value: STATE = 5;
     */
    Type[Type["STATE"] = 5] = "STATE";
})(Type = exports.Type || (exports.Type = {}));
// @generated message type with reflection information, may provide speed optimized methods
class Message$Type extends runtime_5.MessageType {
    constructor() {
        super("Message", [
            { no: 1, name: "type", kind: "enum", T: () => ["Type", Type] },
            { no: 2, name: "bootstrap", kind: "map", K: 9 /*ScalarType.STRING*/, V: { kind: "message", T: () => exports.State } },
            { no: 3, name: "data", kind: "scalar", opt: true, T: 12 /*ScalarType.BYTES*/ },
            { no: 4, name: "id", kind: "scalar", opt: true, T: 12 /*ScalarType.BYTES*/ }
        ]);
    }
    create(value) {
        const message = { type: 0, bootstrap: {} };
        globalThis.Object.defineProperty(message, runtime_4.MESSAGE_TYPE, { enumerable: false, value: this });
        if (value !== undefined)
            (0, runtime_3.reflectionMergePartial)(this, message, value);
        return message;
    }
    internalBinaryRead(reader, length, options, target) {
        let message = target ?? this.create(), end = reader.pos + length;
        while (reader.pos < end) {
            let [fieldNo, wireType] = reader.tag();
            switch (fieldNo) {
                case /* Type type */ 1:
                    message.type = reader.int32();
                    break;
                case /* map<string, State> bootstrap */ 2:
                    this.binaryReadMap2(message.bootstrap, reader, options);
                    break;
                case /* optional bytes data */ 3:
                    message.data = reader.bytes();
                    break;
                case /* optional bytes id */ 4:
                    message.id = reader.bytes();
                    break;
                default:
                    let u = options.readUnknownField;
                    if (u === "throw")
                        throw new globalThis.Error(`Unknown field ${fieldNo} (wire type ${wireType}) for ${this.typeName}`);
                    let d = reader.skip(wireType);
                    if (u !== false)
                        (u === true ? runtime_2.UnknownFieldHandler.onRead : u)(this.typeName, message, fieldNo, wireType, d);
            }
        }
        return message;
    }
    binaryReadMap2(map, reader, options) {
        let len = reader.uint32(), end = reader.pos + len, key, val;
        while (reader.pos < end) {
            let [fieldNo, wireType] = reader.tag();
            switch (fieldNo) {
                case 1:
                    key = reader.string();
                    break;
                case 2:
                    val = exports.State.internalBinaryRead(reader, reader.uint32(), options);
                    break;
                default: throw new globalThis.Error("unknown map entry field for field Message.bootstrap");
            }
        }
        map[key ?? ""] = val ?? exports.State.create();
    }
    internalBinaryWrite(message, writer, options) {
        /* Type type = 1; */
        if (message.type !== 0)
            writer.tag(1, runtime_1.WireType.Varint).int32(message.type);
        /* map<string, State> bootstrap = 2; */
        for (let k of Object.keys(message.bootstrap)) {
            writer.tag(2, runtime_1.WireType.LengthDelimited).fork().tag(1, runtime_1.WireType.LengthDelimited).string(k);
            writer.tag(2, runtime_1.WireType.LengthDelimited).fork();
            exports.State.internalBinaryWrite(message.bootstrap[k], writer, options);
            writer.join().join();
        }
        /* optional bytes data = 3; */
        if (message.data !== undefined)
            writer.tag(3, runtime_1.WireType.LengthDelimited).bytes(message.data);
        /* optional bytes id = 4; */
        if (message.id !== undefined)
            writer.tag(4, runtime_1.WireType.LengthDelimited).bytes(message.id);
        let u = options.writeUnknownFields;
        if (u !== false)
            (u == true ? runtime_2.UnknownFieldHandler.onWrite : u)(this.typeName, message, writer);
        return writer;
    }
}
/**
 * @generated MessageType for protobuf message Message
 */
exports.Message = new Message$Type();
// @generated message type with reflection information, may provide speed optimized methods
class State$Type extends runtime_5.MessageType {
    constructor() {
        super("State", [
            { no: 1, name: "connectedTo", kind: "scalar", repeat: 2 /*RepeatType.UNPACKED*/, T: 12 /*ScalarType.BYTES*/ },
            { no: 2, name: "data", kind: "scalar", opt: true, T: 12 /*ScalarType.BYTES*/ }
        ]);
    }
    create(value) {
        const message = { connectedTo: [] };
        globalThis.Object.defineProperty(message, runtime_4.MESSAGE_TYPE, { enumerable: false, value: this });
        if (value !== undefined)
            (0, runtime_3.reflectionMergePartial)(this, message, value);
        return message;
    }
    internalBinaryRead(reader, length, options, target) {
        let message = target ?? this.create(), end = reader.pos + length;
        while (reader.pos < end) {
            let [fieldNo, wireType] = reader.tag();
            switch (fieldNo) {
                case /* repeated bytes connectedTo */ 1:
                    message.connectedTo.push(reader.bytes());
                    break;
                case /* optional bytes data */ 2:
                    message.data = reader.bytes();
                    break;
                default:
                    let u = options.readUnknownField;
                    if (u === "throw")
                        throw new globalThis.Error(`Unknown field ${fieldNo} (wire type ${wireType}) for ${this.typeName}`);
                    let d = reader.skip(wireType);
                    if (u !== false)
                        (u === true ? runtime_2.UnknownFieldHandler.onRead : u)(this.typeName, message, fieldNo, wireType, d);
            }
        }
        return message;
    }
    internalBinaryWrite(message, writer, options) {
        /* repeated bytes connectedTo = 1; */
        for (let i = 0; i < message.connectedTo.length; i++)
            writer.tag(1, runtime_1.WireType.LengthDelimited).bytes(message.connectedTo[i]);
        /* optional bytes data = 2; */
        if (message.data !== undefined)
            writer.tag(2, runtime_1.WireType.LengthDelimited).bytes(message.data);
        let u = options.writeUnknownFields;
        if (u !== false)
            (u == true ? runtime_2.UnknownFieldHandler.onWrite : u)(this.typeName, message, writer);
        return writer;
    }
}
/**
 * @generated MessageType for protobuf message State
 */
exports.State = new State$Type();