@bandprotocol/bandchain.js

/** * Generated by the protoc-gen-ts. DO NOT EDIT! * compiler version: 3.20.3 * source: ibc/lightclients/solomachine/v3/solomachine.proto * git: https://github.com/thesayyn/protoc-gen-ts */ import * as dependency_1 from "./../../../../gogoproto/gogo"; import * as dependency_2 from "./../../../../google/protobuf/any"; import * as pb_1 from "google-protobuf"; export namespace ibc.lightclients.solomachine.v3 { export class ClientState extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { sequence?: number; is_frozen?: boolean; consensus_state?: ConsensusState; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("sequence" in data && data.sequence != undefined) { this.sequence = data.sequence; } if ("is_frozen" in data && data.is_frozen != undefined) { this.is_frozen = data.is_frozen; } if ("consensus_state" in data && data.consensus_state != undefined) { this.consensus_state = data.consensus_state; } } } get sequence() { return pb_1.Message.getFieldWithDefault(this, 1, 0) as number; } set sequence(value: number) { pb_1.Message.setField(this, 1, value); } get is_frozen() { return pb_1.Message.getFieldWithDefault(this, 2, false) as boolean; } set is_frozen(value: boolean) { pb_1.Message.setField(this, 2, value); } get consensus_state() { return pb_1.Message.getWrapperField(this, ConsensusState, 3) as ConsensusState; } set consensus_state(value: ConsensusState) { pb_1.Message.setWrapperField(this, 3, value); } get has_consensus_state() { return pb_1.Message.getField(this, 3) != null; } static fromObject(data: { sequence?: number; is_frozen?: boolean; consensus_state?: ReturnType<typeof ConsensusState.prototype.toObject>; }): ClientState { const message = new ClientState({}); if (data.sequence != null) { message.sequence = data.sequence; } if (data.is_frozen != null) { message.is_frozen = data.is_frozen; } if (data.consensus_state != null) { message.consensus_state = ConsensusState.fromObject(data.consensus_state); } return message; } toObject() { const data: { sequence?: number; is_frozen?: boolean; consensus_state?: ReturnType<typeof ConsensusState.prototype.toObject>; } = {}; if (this.sequence != null) { data.sequence = this.sequence; } if (this.is_frozen != null) { data.is_frozen = this.is_frozen; } if (this.consensus_state != null) { data.consensus_state = this.consensus_state.toObject(); } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.sequence != 0) writer.writeUint64(1, this.sequence); if (this.is_frozen != false) writer.writeBool(2, this.is_frozen); if (this.has_consensus_state) writer.writeMessage(3, this.consensus_state, () => this.consensus_state.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): ClientState { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new ClientState(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.sequence = reader.readUint64(); break; case 2: message.is_frozen = reader.readBool(); break; case 3: reader.readMessage(message.consensus_state, () => message.consensus_state = ConsensusState.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): ClientState { return ClientState.deserialize(bytes); } } export class ConsensusState extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { public_key?: dependency_2.google.protobuf.Any; diversifier?: string; timestamp?: number; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("public_key" in data && data.public_key != undefined) { this.public_key = data.public_key; } if ("diversifier" in data && data.diversifier != undefined) { this.diversifier = data.diversifier; } if ("timestamp" in data && data.timestamp != undefined) { this.timestamp = data.timestamp; } } } get public_key() { return pb_1.Message.getWrapperField(this, dependency_2.google.protobuf.Any, 1) as dependency_2.google.protobuf.Any; } set public_key(value: dependency_2.google.protobuf.Any) { pb_1.Message.setWrapperField(this, 1, value); } get has_public_key() { return pb_1.Message.getField(this, 1) != null; } get diversifier() { return pb_1.Message.getFieldWithDefault(this, 2, "") as string; } set diversifier(value: string) { pb_1.Message.setField(this, 2, value); } get timestamp() { return pb_1.Message.getFieldWithDefault(this, 3, 0) as number; } set timestamp(value: number) { pb_1.Message.setField(this, 3, value); } static fromObject(data: { public_key?: ReturnType<typeof dependency_2.google.protobuf.Any.prototype.toObject>; diversifier?: string; timestamp?: number; }): ConsensusState { const message = new ConsensusState({}); if (data.public_key != null) { message.public_key = dependency_2.google.protobuf.Any.fromObject(data.public_key); } if (data.diversifier != null) { message.diversifier = data.diversifier; } if (data.timestamp != null) { message.timestamp = data.timestamp; } return message; } toObject() { const data: { public_key?: ReturnType<typeof dependency_2.google.protobuf.Any.prototype.toObject>; diversifier?: string; timestamp?: number; } = {}; if (this.public_key != null) { data.public_key = this.public_key.toObject(); } if (this.diversifier != null) { data.diversifier = this.diversifier; } if (this.timestamp != null) { data.timestamp = this.timestamp; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.has_public_key) writer.writeMessage(1, this.public_key, () => this.public_key.serialize(writer)); if (this.diversifier.length) writer.writeString(2, this.diversifier); if (this.timestamp != 0) writer.writeUint64(3, this.timestamp); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): ConsensusState { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new ConsensusState(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: reader.readMessage(message.public_key, () => message.public_key = dependency_2.google.protobuf.Any.deserialize(reader)); break; case 2: message.diversifier = reader.readString(); break; case 3: message.timestamp = reader.readUint64(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): ConsensusState { return ConsensusState.deserialize(bytes); } } export class Header extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { timestamp?: number; signature?: Uint8Array; new_public_key?: dependency_2.google.protobuf.Any; new_diversifier?: string; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("timestamp" in data && data.timestamp != undefined) { this.timestamp = data.timestamp; } if ("signature" in data && data.signature != undefined) { this.signature = data.signature; } if ("new_public_key" in data && data.new_public_key != undefined) { this.new_public_key = data.new_public_key; } if ("new_diversifier" in data && data.new_diversifier != undefined) { this.new_diversifier = data.new_diversifier; } } } get timestamp() { return pb_1.Message.getFieldWithDefault(this, 1, 0) as number; } set timestamp(value: number) { pb_1.Message.setField(this, 1, value); } get signature() { return pb_1.Message.getFieldWithDefault(this, 2, new Uint8Array(0)) as Uint8Array; } set signature(value: Uint8Array) { pb_1.Message.setField(this, 2, value); } get new_public_key() { return pb_1.Message.getWrapperField(this, dependency_2.google.protobuf.Any, 3) as dependency_2.google.protobuf.Any; } set new_public_key(value: dependency_2.google.protobuf.Any) { pb_1.Message.setWrapperField(this, 3, value); } get has_new_public_key() { return pb_1.Message.getField(this, 3) != null; } get new_diversifier() { return pb_1.Message.getFieldWithDefault(this, 4, "") as string; } set new_diversifier(value: string) { pb_1.Message.setField(this, 4, value); } static fromObject(data: { timestamp?: number; signature?: Uint8Array; new_public_key?: ReturnType<typeof dependency_2.google.protobuf.Any.prototype.toObject>; new_diversifier?: string; }): Header { const message = new Header({}); if (data.timestamp != null) { message.timestamp = data.timestamp; } if (data.signature != null) { message.signature = data.signature; } if (data.new_public_key != null) { message.new_public_key = dependency_2.google.protobuf.Any.fromObject(data.new_public_key); } if (data.new_diversifier != null) { message.new_diversifier = data.new_diversifier; } return message; } toObject() { const data: { timestamp?: number; signature?: Uint8Array; new_public_key?: ReturnType<typeof dependency_2.google.protobuf.Any.prototype.toObject>; new_diversifier?: string; } = {}; if (this.timestamp != null) { data.timestamp = this.timestamp; } if (this.signature != null) { data.signature = this.signature; } if (this.new_public_key != null) { data.new_public_key = this.new_public_key.toObject(); } if (this.new_diversifier != null) { data.new_diversifier = this.new_diversifier; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.timestamp != 0) writer.writeUint64(1, this.timestamp); if (this.signature.length) writer.writeBytes(2, this.signature); if (this.has_new_public_key) writer.writeMessage(3, this.new_public_key, () => this.new_public_key.serialize(writer)); if (this.new_diversifier.length) writer.writeString(4, this.new_diversifier); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): Header { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new Header(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.timestamp = reader.readUint64(); break; case 2: message.signature = reader.readBytes(); break; case 3: reader.readMessage(message.new_public_key, () => message.new_public_key = dependency_2.google.protobuf.Any.deserialize(reader)); break; case 4: message.new_diversifier = reader.readString(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): Header { return Header.deserialize(bytes); } } export class Misbehaviour extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { sequence?: number; signature_one?: SignatureAndData; signature_two?: SignatureAndData; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("sequence" in data && data.sequence != undefined) { this.sequence = data.sequence; } if ("signature_one" in data && data.signature_one != undefined) { this.signature_one = data.signature_one; } if ("signature_two" in data && data.signature_two != undefined) { this.signature_two = data.signature_two; } } } get sequence() { return pb_1.Message.getFieldWithDefault(this, 1, 0) as number; } set sequence(value: number) { pb_1.Message.setField(this, 1, value); } get signature_one() { return pb_1.Message.getWrapperField(this, SignatureAndData, 2) as SignatureAndData; } set signature_one(value: SignatureAndData) { pb_1.Message.setWrapperField(this, 2, value); } get has_signature_one() { return pb_1.Message.getField(this, 2) != null; } get signature_two() { return pb_1.Message.getWrapperField(this, SignatureAndData, 3) as SignatureAndData; } set signature_two(value: SignatureAndData) { pb_1.Message.setWrapperField(this, 3, value); } get has_signature_two() { return pb_1.Message.getField(this, 3) != null; } static fromObject(data: { sequence?: number; signature_one?: ReturnType<typeof SignatureAndData.prototype.toObject>; signature_two?: ReturnType<typeof SignatureAndData.prototype.toObject>; }): Misbehaviour { const message = new Misbehaviour({}); if (data.sequence != null) { message.sequence = data.sequence; } if (data.signature_one != null) { message.signature_one = SignatureAndData.fromObject(data.signature_one); } if (data.signature_two != null) { message.signature_two = SignatureAndData.fromObject(data.signature_two); } return message; } toObject() { const data: { sequence?: number; signature_one?: ReturnType<typeof SignatureAndData.prototype.toObject>; signature_two?: ReturnType<typeof SignatureAndData.prototype.toObject>; } = {}; if (this.sequence != null) { data.sequence = this.sequence; } if (this.signature_one != null) { data.signature_one = this.signature_one.toObject(); } if (this.signature_two != null) { data.signature_two = this.signature_two.toObject(); } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.sequence != 0) writer.writeUint64(1, this.sequence); if (this.has_signature_one) writer.writeMessage(2, this.signature_one, () => this.signature_one.serialize(writer)); if (this.has_signature_two) writer.writeMessage(3, this.signature_two, () => this.signature_two.serialize(writer)); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): Misbehaviour { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new Misbehaviour(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.sequence = reader.readUint64(); break; case 2: reader.readMessage(message.signature_one, () => message.signature_one = SignatureAndData.deserialize(reader)); break; case 3: reader.readMessage(message.signature_two, () => message.signature_two = SignatureAndData.deserialize(reader)); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): Misbehaviour { return Misbehaviour.deserialize(bytes); } } export class SignatureAndData extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { signature?: Uint8Array; path?: Uint8Array; data?: Uint8Array; timestamp?: number; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("signature" in data && data.signature != undefined) { this.signature = data.signature; } if ("path" in data && data.path != undefined) { this.path = data.path; } if ("data" in data && data.data != undefined) { this.data = data.data; } if ("timestamp" in data && data.timestamp != undefined) { this.timestamp = data.timestamp; } } } get signature() { return pb_1.Message.getFieldWithDefault(this, 1, new Uint8Array(0)) as Uint8Array; } set signature(value: Uint8Array) { pb_1.Message.setField(this, 1, value); } get path() { return pb_1.Message.getFieldWithDefault(this, 2, new Uint8Array(0)) as Uint8Array; } set path(value: Uint8Array) { pb_1.Message.setField(this, 2, value); } get data() { return pb_1.Message.getFieldWithDefault(this, 3, new Uint8Array(0)) as Uint8Array; } set data(value: Uint8Array) { pb_1.Message.setField(this, 3, value); } get timestamp() { return pb_1.Message.getFieldWithDefault(this, 4, 0) as number; } set timestamp(value: number) { pb_1.Message.setField(this, 4, value); } static fromObject(data: { signature?: Uint8Array; path?: Uint8Array; data?: Uint8Array; timestamp?: number; }): SignatureAndData { const message = new SignatureAndData({}); if (data.signature != null) { message.signature = data.signature; } if (data.path != null) { message.path = data.path; } if (data.data != null) { message.data = data.data; } if (data.timestamp != null) { message.timestamp = data.timestamp; } return message; } toObject() { const data: { signature?: Uint8Array; path?: Uint8Array; data?: Uint8Array; timestamp?: number; } = {}; if (this.signature != null) { data.signature = this.signature; } if (this.path != null) { data.path = this.path; } if (this.data != null) { data.data = this.data; } if (this.timestamp != null) { data.timestamp = this.timestamp; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.signature.length) writer.writeBytes(1, this.signature); if (this.path.length) writer.writeBytes(2, this.path); if (this.data.length) writer.writeBytes(3, this.data); if (this.timestamp != 0) writer.writeUint64(4, this.timestamp); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): SignatureAndData { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new SignatureAndData(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.signature = reader.readBytes(); break; case 2: message.path = reader.readBytes(); break; case 3: message.data = reader.readBytes(); break; case 4: message.timestamp = reader.readUint64(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): SignatureAndData { return SignatureAndData.deserialize(bytes); } } export class TimestampedSignatureData extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { signature_data?: Uint8Array; timestamp?: number; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("signature_data" in data && data.signature_data != undefined) { this.signature_data = data.signature_data; } if ("timestamp" in data && data.timestamp != undefined) { this.timestamp = data.timestamp; } } } get signature_data() { return pb_1.Message.getFieldWithDefault(this, 1, new Uint8Array(0)) as Uint8Array; } set signature_data(value: Uint8Array) { pb_1.Message.setField(this, 1, value); } get timestamp() { return pb_1.Message.getFieldWithDefault(this, 2, 0) as number; } set timestamp(value: number) { pb_1.Message.setField(this, 2, value); } static fromObject(data: { signature_data?: Uint8Array; timestamp?: number; }): TimestampedSignatureData { const message = new TimestampedSignatureData({}); if (data.signature_data != null) { message.signature_data = data.signature_data; } if (data.timestamp != null) { message.timestamp = data.timestamp; } return message; } toObject() { const data: { signature_data?: Uint8Array; timestamp?: number; } = {}; if (this.signature_data != null) { data.signature_data = this.signature_data; } if (this.timestamp != null) { data.timestamp = this.timestamp; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.signature_data.length) writer.writeBytes(1, this.signature_data); if (this.timestamp != 0) writer.writeUint64(2, this.timestamp); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): TimestampedSignatureData { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new TimestampedSignatureData(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.signature_data = reader.readBytes(); break; case 2: message.timestamp = reader.readUint64(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): TimestampedSignatureData { return TimestampedSignatureData.deserialize(bytes); } } export class SignBytes extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { sequence?: number; timestamp?: number; diversifier?: string; path?: Uint8Array; data?: Uint8Array; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("sequence" in data && data.sequence != undefined) { this.sequence = data.sequence; } if ("timestamp" in data && data.timestamp != undefined) { this.timestamp = data.timestamp; } if ("diversifier" in data && data.diversifier != undefined) { this.diversifier = data.diversifier; } if ("path" in data && data.path != undefined) { this.path = data.path; } if ("data" in data && data.data != undefined) { this.data = data.data; } } } get sequence() { return pb_1.Message.getFieldWithDefault(this, 1, 0) as number; } set sequence(value: number) { pb_1.Message.setField(this, 1, value); } get timestamp() { return pb_1.Message.getFieldWithDefault(this, 2, 0) as number; } set timestamp(value: number) { pb_1.Message.setField(this, 2, value); } get diversifier() { return pb_1.Message.getFieldWithDefault(this, 3, "") as string; } set diversifier(value: string) { pb_1.Message.setField(this, 3, value); } get path() { return pb_1.Message.getFieldWithDefault(this, 4, new Uint8Array(0)) as Uint8Array; } set path(value: Uint8Array) { pb_1.Message.setField(this, 4, value); } get data() { return pb_1.Message.getFieldWithDefault(this, 5, new Uint8Array(0)) as Uint8Array; } set data(value: Uint8Array) { pb_1.Message.setField(this, 5, value); } static fromObject(data: { sequence?: number; timestamp?: number; diversifier?: string; path?: Uint8Array; data?: Uint8Array; }): SignBytes { const message = new SignBytes({}); if (data.sequence != null) { message.sequence = data.sequence; } if (data.timestamp != null) { message.timestamp = data.timestamp; } if (data.diversifier != null) { message.diversifier = data.diversifier; } if (data.path != null) { message.path = data.path; } if (data.data != null) { message.data = data.data; } return message; } toObject() { const data: { sequence?: number; timestamp?: number; diversifier?: string; path?: Uint8Array; data?: Uint8Array; } = {}; if (this.sequence != null) { data.sequence = this.sequence; } if (this.timestamp != null) { data.timestamp = this.timestamp; } if (this.diversifier != null) { data.diversifier = this.diversifier; } if (this.path != null) { data.path = this.path; } if (this.data != null) { data.data = this.data; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.sequence != 0) writer.writeUint64(1, this.sequence); if (this.timestamp != 0) writer.writeUint64(2, this.timestamp); if (this.diversifier.length) writer.writeString(3, this.diversifier); if (this.path.length) writer.writeBytes(4, this.path); if (this.data.length) writer.writeBytes(5, this.data); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): SignBytes { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new SignBytes(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: message.sequence = reader.readUint64(); break; case 2: message.timestamp = reader.readUint64(); break; case 3: message.diversifier = reader.readString(); break; case 4: message.path = reader.readBytes(); break; case 5: message.data = reader.readBytes(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): SignBytes { return SignBytes.deserialize(bytes); } } export class HeaderData extends pb_1.Message { #one_of_decls: number[][] = []; constructor(data?: any[] | { new_pub_key?: dependency_2.google.protobuf.Any; new_diversifier?: string; }) { super(); pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls); if (!Array.isArray(data) && typeof data == "object") { if ("new_pub_key" in data && data.new_pub_key != undefined) { this.new_pub_key = data.new_pub_key; } if ("new_diversifier" in data && data.new_diversifier != undefined) { this.new_diversifier = data.new_diversifier; } } } get new_pub_key() { return pb_1.Message.getWrapperField(this, dependency_2.google.protobuf.Any, 1) as dependency_2.google.protobuf.Any; } set new_pub_key(value: dependency_2.google.protobuf.Any) { pb_1.Message.setWrapperField(this, 1, value); } get has_new_pub_key() { return pb_1.Message.getField(this, 1) != null; } get new_diversifier() { return pb_1.Message.getFieldWithDefault(this, 2, "") as string; } set new_diversifier(value: string) { pb_1.Message.setField(this, 2, value); } static fromObject(data: { new_pub_key?: ReturnType<typeof dependency_2.google.protobuf.Any.prototype.toObject>; new_diversifier?: string; }): HeaderData { const message = new HeaderData({}); if (data.new_pub_key != null) { message.new_pub_key = dependency_2.google.protobuf.Any.fromObject(data.new_pub_key); } if (data.new_diversifier != null) { message.new_diversifier = data.new_diversifier; } return message; } toObject() { const data: { new_pub_key?: ReturnType<typeof dependency_2.google.protobuf.Any.prototype.toObject>; new_diversifier?: string; } = {}; if (this.new_pub_key != null) { data.new_pub_key = this.new_pub_key.toObject(); } if (this.new_diversifier != null) { data.new_diversifier = this.new_diversifier; } return data; } serialize(): Uint8Array; serialize(w: pb_1.BinaryWriter): void; serialize(w?: pb_1.BinaryWriter): Uint8Array | void { const writer = w || new pb_1.BinaryWriter(); if (this.has_new_pub_key) writer.writeMessage(1, this.new_pub_key, () => this.new_pub_key.serialize(writer)); if (this.new_diversifier.length) writer.writeString(2, this.new_diversifier); if (!w) return writer.getResultBuffer(); } static deserialize(bytes: Uint8Array | pb_1.BinaryReader): HeaderData { const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new HeaderData(); while (reader.nextField()) { if (reader.isEndGroup()) break; switch (reader.getFieldNumber()) { case 1: reader.readMessage(message.new_pub_key, () => message.new_pub_key = dependency_2.google.protobuf.Any.deserialize(reader)); break; case 2: message.new_diversifier = reader.readString(); break; default: reader.skipField(); } } return message; } serializeBinary(): Uint8Array { return this.serialize(); } static deserializeBinary(bytes: Uint8Array): HeaderData { return HeaderData.deserialize(bytes); } } }