@bandprotocol/bandchain.js

import { Channel, ChannelAmino, ChannelSDKType, Packet, PacketAmino, PacketSDKType } from "./channel"; import { Height, HeightAmino, HeightSDKType } from "../../client/v1/client"; import { BinaryReader, BinaryWriter } from "../../../../binary"; /** * MsgChannelOpenInit defines an sdk.Msg to initialize a channel handshake. It * is called by a relayer on Chain A. */ export interface MsgChannelOpenInit { portId: string; channel: Channel; signer: string; } export interface MsgChannelOpenInitProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelOpenInit"; value: Uint8Array; } /** * MsgChannelOpenInit defines an sdk.Msg to initialize a channel handshake. It * is called by a relayer on Chain A. */ export interface MsgChannelOpenInitAmino { port_id?: string; channel?: ChannelAmino; signer?: string; } export interface MsgChannelOpenInitAminoMsg { type: "cosmos-sdk/MsgChannelOpenInit"; value: MsgChannelOpenInitAmino; } /** * MsgChannelOpenInit defines an sdk.Msg to initialize a channel handshake. It * is called by a relayer on Chain A. */ export interface MsgChannelOpenInitSDKType { port_id: string; channel: ChannelSDKType; signer: string; } /** MsgChannelOpenInitResponse defines the Msg/ChannelOpenInit response type. */ export interface MsgChannelOpenInitResponse { } export interface MsgChannelOpenInitResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelOpenInitResponse"; value: Uint8Array; } /** MsgChannelOpenInitResponse defines the Msg/ChannelOpenInit response type. */ export interface MsgChannelOpenInitResponseAmino { } export interface MsgChannelOpenInitResponseAminoMsg { type: "cosmos-sdk/MsgChannelOpenInitResponse"; value: MsgChannelOpenInitResponseAmino; } /** MsgChannelOpenInitResponse defines the Msg/ChannelOpenInit response type. */ export interface MsgChannelOpenInitResponseSDKType { } /** * MsgChannelOpenInit defines a msg sent by a Relayer to try to open a channel * on Chain B. */ export interface MsgChannelOpenTry { portId: string; /** * in the case of crossing hello's, when both chains call OpenInit, we need * the channel identifier of the previous channel in state INIT */ previousChannelId: string; channel: Channel; counterpartyVersion: string; proofInit: Uint8Array; proofHeight: Height; signer: string; } export interface MsgChannelOpenTryProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelOpenTry"; value: Uint8Array; } /** * MsgChannelOpenInit defines a msg sent by a Relayer to try to open a channel * on Chain B. */ export interface MsgChannelOpenTryAmino { port_id?: string; /** * in the case of crossing hello's, when both chains call OpenInit, we need * the channel identifier of the previous channel in state INIT */ previous_channel_id?: string; channel?: ChannelAmino; counterparty_version?: string; proof_init?: string; proof_height?: HeightAmino; signer?: string; } export interface MsgChannelOpenTryAminoMsg { type: "cosmos-sdk/MsgChannelOpenTry"; value: MsgChannelOpenTryAmino; } /** * MsgChannelOpenInit defines a msg sent by a Relayer to try to open a channel * on Chain B. */ export interface MsgChannelOpenTrySDKType { port_id: string; previous_channel_id: string; channel: ChannelSDKType; counterparty_version: string; proof_init: Uint8Array; proof_height: HeightSDKType; signer: string; } /** MsgChannelOpenTryResponse defines the Msg/ChannelOpenTry response type. */ export interface MsgChannelOpenTryResponse { } export interface MsgChannelOpenTryResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelOpenTryResponse"; value: Uint8Array; } /** MsgChannelOpenTryResponse defines the Msg/ChannelOpenTry response type. */ export interface MsgChannelOpenTryResponseAmino { } export interface MsgChannelOpenTryResponseAminoMsg { type: "cosmos-sdk/MsgChannelOpenTryResponse"; value: MsgChannelOpenTryResponseAmino; } /** MsgChannelOpenTryResponse defines the Msg/ChannelOpenTry response type. */ export interface MsgChannelOpenTryResponseSDKType { } /** * MsgChannelOpenAck defines a msg sent by a Relayer to Chain A to acknowledge * the change of channel state to TRYOPEN on Chain B. */ export interface MsgChannelOpenAck { portId: string; channelId: string; counterpartyChannelId: string; counterpartyVersion: string; proofTry: Uint8Array; proofHeight: Height; signer: string; } export interface MsgChannelOpenAckProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelOpenAck"; value: Uint8Array; } /** * MsgChannelOpenAck defines a msg sent by a Relayer to Chain A to acknowledge * the change of channel state to TRYOPEN on Chain B. */ export interface MsgChannelOpenAckAmino { port_id?: string; channel_id?: string; counterparty_channel_id?: string; counterparty_version?: string; proof_try?: string; proof_height?: HeightAmino; signer?: string; } export interface MsgChannelOpenAckAminoMsg { type: "cosmos-sdk/MsgChannelOpenAck"; value: MsgChannelOpenAckAmino; } /** * MsgChannelOpenAck defines a msg sent by a Relayer to Chain A to acknowledge * the change of channel state to TRYOPEN on Chain B. */ export interface MsgChannelOpenAckSDKType { port_id: string; channel_id: string; counterparty_channel_id: string; counterparty_version: string; proof_try: Uint8Array; proof_height: HeightSDKType; signer: string; } /** MsgChannelOpenAckResponse defines the Msg/ChannelOpenAck response type. */ export interface MsgChannelOpenAckResponse { } export interface MsgChannelOpenAckResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelOpenAckResponse"; value: Uint8Array; } /** MsgChannelOpenAckResponse defines the Msg/ChannelOpenAck response type. */ export interface MsgChannelOpenAckResponseAmino { } export interface MsgChannelOpenAckResponseAminoMsg { type: "cosmos-sdk/MsgChannelOpenAckResponse"; value: MsgChannelOpenAckResponseAmino; } /** MsgChannelOpenAckResponse defines the Msg/ChannelOpenAck response type. */ export interface MsgChannelOpenAckResponseSDKType { } /** * MsgChannelOpenConfirm defines a msg sent by a Relayer to Chain B to * acknowledge the change of channel state to OPEN on Chain A. */ export interface MsgChannelOpenConfirm { portId: string; channelId: string; proofAck: Uint8Array; proofHeight: Height; signer: string; } export interface MsgChannelOpenConfirmProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelOpenConfirm"; value: Uint8Array; } /** * MsgChannelOpenConfirm defines a msg sent by a Relayer to Chain B to * acknowledge the change of channel state to OPEN on Chain A. */ export interface MsgChannelOpenConfirmAmino { port_id?: string; channel_id?: string; proof_ack?: string; proof_height?: HeightAmino; signer?: string; } export interface MsgChannelOpenConfirmAminoMsg { type: "cosmos-sdk/MsgChannelOpenConfirm"; value: MsgChannelOpenConfirmAmino; } /** * MsgChannelOpenConfirm defines a msg sent by a Relayer to Chain B to * acknowledge the change of channel state to OPEN on Chain A. */ export interface MsgChannelOpenConfirmSDKType { port_id: string; channel_id: string; proof_ack: Uint8Array; proof_height: HeightSDKType; signer: string; } /** * MsgChannelOpenConfirmResponse defines the Msg/ChannelOpenConfirm response * type. */ export interface MsgChannelOpenConfirmResponse { } export interface MsgChannelOpenConfirmResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelOpenConfirmResponse"; value: Uint8Array; } /** * MsgChannelOpenConfirmResponse defines the Msg/ChannelOpenConfirm response * type. */ export interface MsgChannelOpenConfirmResponseAmino { } export interface MsgChannelOpenConfirmResponseAminoMsg { type: "cosmos-sdk/MsgChannelOpenConfirmResponse"; value: MsgChannelOpenConfirmResponseAmino; } /** * MsgChannelOpenConfirmResponse defines the Msg/ChannelOpenConfirm response * type. */ export interface MsgChannelOpenConfirmResponseSDKType { } /** * MsgChannelCloseInit defines a msg sent by a Relayer to Chain A * to close a channel with Chain B. */ export interface MsgChannelCloseInit { portId: string; channelId: string; signer: string; } export interface MsgChannelCloseInitProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelCloseInit"; value: Uint8Array; } /** * MsgChannelCloseInit defines a msg sent by a Relayer to Chain A * to close a channel with Chain B. */ export interface MsgChannelCloseInitAmino { port_id?: string; channel_id?: string; signer?: string; } export interface MsgChannelCloseInitAminoMsg { type: "cosmos-sdk/MsgChannelCloseInit"; value: MsgChannelCloseInitAmino; } /** * MsgChannelCloseInit defines a msg sent by a Relayer to Chain A * to close a channel with Chain B. */ export interface MsgChannelCloseInitSDKType { port_id: string; channel_id: string; signer: string; } /** MsgChannelCloseInitResponse defines the Msg/ChannelCloseInit response type. */ export interface MsgChannelCloseInitResponse { } export interface MsgChannelCloseInitResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelCloseInitResponse"; value: Uint8Array; } /** MsgChannelCloseInitResponse defines the Msg/ChannelCloseInit response type. */ export interface MsgChannelCloseInitResponseAmino { } export interface MsgChannelCloseInitResponseAminoMsg { type: "cosmos-sdk/MsgChannelCloseInitResponse"; value: MsgChannelCloseInitResponseAmino; } /** MsgChannelCloseInitResponse defines the Msg/ChannelCloseInit response type. */ export interface MsgChannelCloseInitResponseSDKType { } /** * MsgChannelCloseConfirm defines a msg sent by a Relayer to Chain B * to acknowledge the change of channel state to CLOSED on Chain A. */ export interface MsgChannelCloseConfirm { portId: string; channelId: string; proofInit: Uint8Array; proofHeight: Height; signer: string; } export interface MsgChannelCloseConfirmProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelCloseConfirm"; value: Uint8Array; } /** * MsgChannelCloseConfirm defines a msg sent by a Relayer to Chain B * to acknowledge the change of channel state to CLOSED on Chain A. */ export interface MsgChannelCloseConfirmAmino { port_id?: string; channel_id?: string; proof_init?: string; proof_height?: HeightAmino; signer?: string; } export interface MsgChannelCloseConfirmAminoMsg { type: "cosmos-sdk/MsgChannelCloseConfirm"; value: MsgChannelCloseConfirmAmino; } /** * MsgChannelCloseConfirm defines a msg sent by a Relayer to Chain B * to acknowledge the change of channel state to CLOSED on Chain A. */ export interface MsgChannelCloseConfirmSDKType { port_id: string; channel_id: string; proof_init: Uint8Array; proof_height: HeightSDKType; signer: string; } /** * MsgChannelCloseConfirmResponse defines the Msg/ChannelCloseConfirm response * type. */ export interface MsgChannelCloseConfirmResponse { } export interface MsgChannelCloseConfirmResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgChannelCloseConfirmResponse"; value: Uint8Array; } /** * MsgChannelCloseConfirmResponse defines the Msg/ChannelCloseConfirm response * type. */ export interface MsgChannelCloseConfirmResponseAmino { } export interface MsgChannelCloseConfirmResponseAminoMsg { type: "cosmos-sdk/MsgChannelCloseConfirmResponse"; value: MsgChannelCloseConfirmResponseAmino; } /** * MsgChannelCloseConfirmResponse defines the Msg/ChannelCloseConfirm response * type. */ export interface MsgChannelCloseConfirmResponseSDKType { } /** MsgRecvPacket receives incoming IBC packet */ export interface MsgRecvPacket { packet: Packet; proofCommitment: Uint8Array; proofHeight: Height; signer: string; } export interface MsgRecvPacketProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgRecvPacket"; value: Uint8Array; } /** MsgRecvPacket receives incoming IBC packet */ export interface MsgRecvPacketAmino { packet?: PacketAmino; proof_commitment?: string; proof_height?: HeightAmino; signer?: string; } export interface MsgRecvPacketAminoMsg { type: "cosmos-sdk/MsgRecvPacket"; value: MsgRecvPacketAmino; } /** MsgRecvPacket receives incoming IBC packet */ export interface MsgRecvPacketSDKType { packet: PacketSDKType; proof_commitment: Uint8Array; proof_height: HeightSDKType; signer: string; } /** MsgRecvPacketResponse defines the Msg/RecvPacket response type. */ export interface MsgRecvPacketResponse { } export interface MsgRecvPacketResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgRecvPacketResponse"; value: Uint8Array; } /** MsgRecvPacketResponse defines the Msg/RecvPacket response type. */ export interface MsgRecvPacketResponseAmino { } export interface MsgRecvPacketResponseAminoMsg { type: "cosmos-sdk/MsgRecvPacketResponse"; value: MsgRecvPacketResponseAmino; } /** MsgRecvPacketResponse defines the Msg/RecvPacket response type. */ export interface MsgRecvPacketResponseSDKType { } /** MsgTimeout receives timed-out packet */ export interface MsgTimeout { packet: Packet; proofUnreceived: Uint8Array; proofHeight: Height; nextSequenceRecv: bigint; signer: string; } export interface MsgTimeoutProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgTimeout"; value: Uint8Array; } /** MsgTimeout receives timed-out packet */ export interface MsgTimeoutAmino { packet?: PacketAmino; proof_unreceived?: string; proof_height?: HeightAmino; next_sequence_recv?: string; signer?: string; } export interface MsgTimeoutAminoMsg { type: "cosmos-sdk/MsgTimeout"; value: MsgTimeoutAmino; } /** MsgTimeout receives timed-out packet */ export interface MsgTimeoutSDKType { packet: PacketSDKType; proof_unreceived: Uint8Array; proof_height: HeightSDKType; next_sequence_recv: bigint; signer: string; } /** MsgTimeoutResponse defines the Msg/Timeout response type. */ export interface MsgTimeoutResponse { } export interface MsgTimeoutResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgTimeoutResponse"; value: Uint8Array; } /** MsgTimeoutResponse defines the Msg/Timeout response type. */ export interface MsgTimeoutResponseAmino { } export interface MsgTimeoutResponseAminoMsg { type: "cosmos-sdk/MsgTimeoutResponse"; value: MsgTimeoutResponseAmino; } /** MsgTimeoutResponse defines the Msg/Timeout response type. */ export interface MsgTimeoutResponseSDKType { } /** MsgTimeoutOnClose timed-out packet upon counterparty channel closure. */ export interface MsgTimeoutOnClose { packet: Packet; proofUnreceived: Uint8Array; proofClose: Uint8Array; proofHeight: Height; nextSequenceRecv: bigint; signer: string; } export interface MsgTimeoutOnCloseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgTimeoutOnClose"; value: Uint8Array; } /** MsgTimeoutOnClose timed-out packet upon counterparty channel closure. */ export interface MsgTimeoutOnCloseAmino { packet?: PacketAmino; proof_unreceived?: string; proof_close?: string; proof_height?: HeightAmino; next_sequence_recv?: string; signer?: string; } export interface MsgTimeoutOnCloseAminoMsg { type: "cosmos-sdk/MsgTimeoutOnClose"; value: MsgTimeoutOnCloseAmino; } /** MsgTimeoutOnClose timed-out packet upon counterparty channel closure. */ export interface MsgTimeoutOnCloseSDKType { packet: PacketSDKType; proof_unreceived: Uint8Array; proof_close: Uint8Array; proof_height: HeightSDKType; next_sequence_recv: bigint; signer: string; } /** MsgTimeoutOnCloseResponse defines the Msg/TimeoutOnClose response type. */ export interface MsgTimeoutOnCloseResponse { } export interface MsgTimeoutOnCloseResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgTimeoutOnCloseResponse"; value: Uint8Array; } /** MsgTimeoutOnCloseResponse defines the Msg/TimeoutOnClose response type. */ export interface MsgTimeoutOnCloseResponseAmino { } export interface MsgTimeoutOnCloseResponseAminoMsg { type: "cosmos-sdk/MsgTimeoutOnCloseResponse"; value: MsgTimeoutOnCloseResponseAmino; } /** MsgTimeoutOnCloseResponse defines the Msg/TimeoutOnClose response type. */ export interface MsgTimeoutOnCloseResponseSDKType { } /** MsgAcknowledgement receives incoming IBC acknowledgement */ export interface MsgAcknowledgement { packet: Packet; acknowledgement: Uint8Array; proofAcked: Uint8Array; proofHeight: Height; signer: string; } export interface MsgAcknowledgementProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgAcknowledgement"; value: Uint8Array; } /** MsgAcknowledgement receives incoming IBC acknowledgement */ export interface MsgAcknowledgementAmino { packet?: PacketAmino; acknowledgement?: string; proof_acked?: string; proof_height?: HeightAmino; signer?: string; } export interface MsgAcknowledgementAminoMsg { type: "cosmos-sdk/MsgAcknowledgement"; value: MsgAcknowledgementAmino; } /** MsgAcknowledgement receives incoming IBC acknowledgement */ export interface MsgAcknowledgementSDKType { packet: PacketSDKType; acknowledgement: Uint8Array; proof_acked: Uint8Array; proof_height: HeightSDKType; signer: string; } /** MsgAcknowledgementResponse defines the Msg/Acknowledgement response type. */ export interface MsgAcknowledgementResponse { } export interface MsgAcknowledgementResponseProtoMsg { typeUrl: "/ibc.core.channel.v1.MsgAcknowledgementResponse"; value: Uint8Array; } /** MsgAcknowledgementResponse defines the Msg/Acknowledgement response type. */ export interface MsgAcknowledgementResponseAmino { } export interface MsgAcknowledgementResponseAminoMsg { type: "cosmos-sdk/MsgAcknowledgementResponse"; value: MsgAcknowledgementResponseAmino; } /** MsgAcknowledgementResponse defines the Msg/Acknowledgement response type. */ export interface MsgAcknowledgementResponseSDKType { } export declare const MsgChannelOpenInit: { typeUrl: string; encode(message: MsgChannelOpenInit, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelOpenInit; fromPartial(object: Partial<MsgChannelOpenInit>): MsgChannelOpenInit; fromAmino(object: MsgChannelOpenInitAmino): MsgChannelOpenInit; toAmino(message: MsgChannelOpenInit): MsgChannelOpenInitAmino; fromAminoMsg(object: MsgChannelOpenInitAminoMsg): MsgChannelOpenInit; toAminoMsg(message: MsgChannelOpenInit): MsgChannelOpenInitAminoMsg; fromProtoMsg(message: MsgChannelOpenInitProtoMsg): MsgChannelOpenInit; toProto(message: MsgChannelOpenInit): Uint8Array; toProtoMsg(message: MsgChannelOpenInit): MsgChannelOpenInitProtoMsg; }; export declare const MsgChannelOpenInitResponse: { typeUrl: string; encode(_: MsgChannelOpenInitResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelOpenInitResponse; fromPartial(_: Partial<MsgChannelOpenInitResponse>): MsgChannelOpenInitResponse; fromAmino(_: MsgChannelOpenInitResponseAmino): MsgChannelOpenInitResponse; toAmino(_: MsgChannelOpenInitResponse): MsgChannelOpenInitResponseAmino; fromAminoMsg(object: MsgChannelOpenInitResponseAminoMsg): MsgChannelOpenInitResponse; toAminoMsg(message: MsgChannelOpenInitResponse): MsgChannelOpenInitResponseAminoMsg; fromProtoMsg(message: MsgChannelOpenInitResponseProtoMsg): MsgChannelOpenInitResponse; toProto(message: MsgChannelOpenInitResponse): Uint8Array; toProtoMsg(message: MsgChannelOpenInitResponse): MsgChannelOpenInitResponseProtoMsg; }; export declare const MsgChannelOpenTry: { typeUrl: string; encode(message: MsgChannelOpenTry, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelOpenTry; fromPartial(object: Partial<MsgChannelOpenTry>): MsgChannelOpenTry; fromAmino(object: MsgChannelOpenTryAmino): MsgChannelOpenTry; toAmino(message: MsgChannelOpenTry): MsgChannelOpenTryAmino; fromAminoMsg(object: MsgChannelOpenTryAminoMsg): MsgChannelOpenTry; toAminoMsg(message: MsgChannelOpenTry): MsgChannelOpenTryAminoMsg; fromProtoMsg(message: MsgChannelOpenTryProtoMsg): MsgChannelOpenTry; toProto(message: MsgChannelOpenTry): Uint8Array; toProtoMsg(message: MsgChannelOpenTry): MsgChannelOpenTryProtoMsg; }; export declare const MsgChannelOpenTryResponse: { typeUrl: string; encode(_: MsgChannelOpenTryResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelOpenTryResponse; fromPartial(_: Partial<MsgChannelOpenTryResponse>): MsgChannelOpenTryResponse; fromAmino(_: MsgChannelOpenTryResponseAmino): MsgChannelOpenTryResponse; toAmino(_: MsgChannelOpenTryResponse): MsgChannelOpenTryResponseAmino; fromAminoMsg(object: MsgChannelOpenTryResponseAminoMsg): MsgChannelOpenTryResponse; toAminoMsg(message: MsgChannelOpenTryResponse): MsgChannelOpenTryResponseAminoMsg; fromProtoMsg(message: MsgChannelOpenTryResponseProtoMsg): MsgChannelOpenTryResponse; toProto(message: MsgChannelOpenTryResponse): Uint8Array; toProtoMsg(message: MsgChannelOpenTryResponse): MsgChannelOpenTryResponseProtoMsg; }; export declare const MsgChannelOpenAck: { typeUrl: string; encode(message: MsgChannelOpenAck, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelOpenAck; fromPartial(object: Partial<MsgChannelOpenAck>): MsgChannelOpenAck; fromAmino(object: MsgChannelOpenAckAmino): MsgChannelOpenAck; toAmino(message: MsgChannelOpenAck): MsgChannelOpenAckAmino; fromAminoMsg(object: MsgChannelOpenAckAminoMsg): MsgChannelOpenAck; toAminoMsg(message: MsgChannelOpenAck): MsgChannelOpenAckAminoMsg; fromProtoMsg(message: MsgChannelOpenAckProtoMsg): MsgChannelOpenAck; toProto(message: MsgChannelOpenAck): Uint8Array; toProtoMsg(message: MsgChannelOpenAck): MsgChannelOpenAckProtoMsg; }; export declare const MsgChannelOpenAckResponse: { typeUrl: string; encode(_: MsgChannelOpenAckResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelOpenAckResponse; fromPartial(_: Partial<MsgChannelOpenAckResponse>): MsgChannelOpenAckResponse; fromAmino(_: MsgChannelOpenAckResponseAmino): MsgChannelOpenAckResponse; toAmino(_: MsgChannelOpenAckResponse): MsgChannelOpenAckResponseAmino; fromAminoMsg(object: MsgChannelOpenAckResponseAminoMsg): MsgChannelOpenAckResponse; toAminoMsg(message: MsgChannelOpenAckResponse): MsgChannelOpenAckResponseAminoMsg; fromProtoMsg(message: MsgChannelOpenAckResponseProtoMsg): MsgChannelOpenAckResponse; toProto(message: MsgChannelOpenAckResponse): Uint8Array; toProtoMsg(message: MsgChannelOpenAckResponse): MsgChannelOpenAckResponseProtoMsg; }; export declare const MsgChannelOpenConfirm: { typeUrl: string; encode(message: MsgChannelOpenConfirm, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelOpenConfirm; fromPartial(object: Partial<MsgChannelOpenConfirm>): MsgChannelOpenConfirm; fromAmino(object: MsgChannelOpenConfirmAmino): MsgChannelOpenConfirm; toAmino(message: MsgChannelOpenConfirm): MsgChannelOpenConfirmAmino; fromAminoMsg(object: MsgChannelOpenConfirmAminoMsg): MsgChannelOpenConfirm; toAminoMsg(message: MsgChannelOpenConfirm): MsgChannelOpenConfirmAminoMsg; fromProtoMsg(message: MsgChannelOpenConfirmProtoMsg): MsgChannelOpenConfirm; toProto(message: MsgChannelOpenConfirm): Uint8Array; toProtoMsg(message: MsgChannelOpenConfirm): MsgChannelOpenConfirmProtoMsg; }; export declare const MsgChannelOpenConfirmResponse: { typeUrl: string; encode(_: MsgChannelOpenConfirmResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelOpenConfirmResponse; fromPartial(_: Partial<MsgChannelOpenConfirmResponse>): MsgChannelOpenConfirmResponse; fromAmino(_: MsgChannelOpenConfirmResponseAmino): MsgChannelOpenConfirmResponse; toAmino(_: MsgChannelOpenConfirmResponse): MsgChannelOpenConfirmResponseAmino; fromAminoMsg(object: MsgChannelOpenConfirmResponseAminoMsg): MsgChannelOpenConfirmResponse; toAminoMsg(message: MsgChannelOpenConfirmResponse): MsgChannelOpenConfirmResponseAminoMsg; fromProtoMsg(message: MsgChannelOpenConfirmResponseProtoMsg): MsgChannelOpenConfirmResponse; toProto(message: MsgChannelOpenConfirmResponse): Uint8Array; toProtoMsg(message: MsgChannelOpenConfirmResponse): MsgChannelOpenConfirmResponseProtoMsg; }; export declare const MsgChannelCloseInit: { typeUrl: string; encode(message: MsgChannelCloseInit, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelCloseInit; fromPartial(object: Partial<MsgChannelCloseInit>): MsgChannelCloseInit; fromAmino(object: MsgChannelCloseInitAmino): MsgChannelCloseInit; toAmino(message: MsgChannelCloseInit): MsgChannelCloseInitAmino; fromAminoMsg(object: MsgChannelCloseInitAminoMsg): MsgChannelCloseInit; toAminoMsg(message: MsgChannelCloseInit): MsgChannelCloseInitAminoMsg; fromProtoMsg(message: MsgChannelCloseInitProtoMsg): MsgChannelCloseInit; toProto(message: MsgChannelCloseInit): Uint8Array; toProtoMsg(message: MsgChannelCloseInit): MsgChannelCloseInitProtoMsg; }; export declare const MsgChannelCloseInitResponse: { typeUrl: string; encode(_: MsgChannelCloseInitResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelCloseInitResponse; fromPartial(_: Partial<MsgChannelCloseInitResponse>): MsgChannelCloseInitResponse; fromAmino(_: MsgChannelCloseInitResponseAmino): MsgChannelCloseInitResponse; toAmino(_: MsgChannelCloseInitResponse): MsgChannelCloseInitResponseAmino; fromAminoMsg(object: MsgChannelCloseInitResponseAminoMsg): MsgChannelCloseInitResponse; toAminoMsg(message: MsgChannelCloseInitResponse): MsgChannelCloseInitResponseAminoMsg; fromProtoMsg(message: MsgChannelCloseInitResponseProtoMsg): MsgChannelCloseInitResponse; toProto(message: MsgChannelCloseInitResponse): Uint8Array; toProtoMsg(message: MsgChannelCloseInitResponse): MsgChannelCloseInitResponseProtoMsg; }; export declare const MsgChannelCloseConfirm: { typeUrl: string; encode(message: MsgChannelCloseConfirm, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelCloseConfirm; fromPartial(object: Partial<MsgChannelCloseConfirm>): MsgChannelCloseConfirm; fromAmino(object: MsgChannelCloseConfirmAmino): MsgChannelCloseConfirm; toAmino(message: MsgChannelCloseConfirm): MsgChannelCloseConfirmAmino; fromAminoMsg(object: MsgChannelCloseConfirmAminoMsg): MsgChannelCloseConfirm; toAminoMsg(message: MsgChannelCloseConfirm): MsgChannelCloseConfirmAminoMsg; fromProtoMsg(message: MsgChannelCloseConfirmProtoMsg): MsgChannelCloseConfirm; toProto(message: MsgChannelCloseConfirm): Uint8Array; toProtoMsg(message: MsgChannelCloseConfirm): MsgChannelCloseConfirmProtoMsg; }; export declare const MsgChannelCloseConfirmResponse: { typeUrl: string; encode(_: MsgChannelCloseConfirmResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgChannelCloseConfirmResponse; fromPartial(_: Partial<MsgChannelCloseConfirmResponse>): MsgChannelCloseConfirmResponse; fromAmino(_: MsgChannelCloseConfirmResponseAmino): MsgChannelCloseConfirmResponse; toAmino(_: MsgChannelCloseConfirmResponse): MsgChannelCloseConfirmResponseAmino; fromAminoMsg(object: MsgChannelCloseConfirmResponseAminoMsg): MsgChannelCloseConfirmResponse; toAminoMsg(message: MsgChannelCloseConfirmResponse): MsgChannelCloseConfirmResponseAminoMsg; fromProtoMsg(message: MsgChannelCloseConfirmResponseProtoMsg): MsgChannelCloseConfirmResponse; toProto(message: MsgChannelCloseConfirmResponse): Uint8Array; toProtoMsg(message: MsgChannelCloseConfirmResponse): MsgChannelCloseConfirmResponseProtoMsg; }; export declare const MsgRecvPacket: { typeUrl: string; encode(message: MsgRecvPacket, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgRecvPacket; fromPartial(object: Partial<MsgRecvPacket>): MsgRecvPacket; fromAmino(object: MsgRecvPacketAmino): MsgRecvPacket; toAmino(message: MsgRecvPacket): MsgRecvPacketAmino; fromAminoMsg(object: MsgRecvPacketAminoMsg): MsgRecvPacket; toAminoMsg(message: MsgRecvPacket): MsgRecvPacketAminoMsg; fromProtoMsg(message: MsgRecvPacketProtoMsg): MsgRecvPacket; toProto(message: MsgRecvPacket): Uint8Array; toProtoMsg(message: MsgRecvPacket): MsgRecvPacketProtoMsg; }; export declare const MsgRecvPacketResponse: { typeUrl: string; encode(_: MsgRecvPacketResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgRecvPacketResponse; fromPartial(_: Partial<MsgRecvPacketResponse>): MsgRecvPacketResponse; fromAmino(_: MsgRecvPacketResponseAmino): MsgRecvPacketResponse; toAmino(_: MsgRecvPacketResponse): MsgRecvPacketResponseAmino; fromAminoMsg(object: MsgRecvPacketResponseAminoMsg): MsgRecvPacketResponse; toAminoMsg(message: MsgRecvPacketResponse): MsgRecvPacketResponseAminoMsg; fromProtoMsg(message: MsgRecvPacketResponseProtoMsg): MsgRecvPacketResponse; toProto(message: MsgRecvPacketResponse): Uint8Array; toProtoMsg(message: MsgRecvPacketResponse): MsgRecvPacketResponseProtoMsg; }; export declare const MsgTimeout: { typeUrl: string; encode(message: MsgTimeout, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgTimeout; fromPartial(object: Partial<MsgTimeout>): MsgTimeout; fromAmino(object: MsgTimeoutAmino): MsgTimeout; toAmino(message: MsgTimeout): MsgTimeoutAmino; fromAminoMsg(object: MsgTimeoutAminoMsg): MsgTimeout; toAminoMsg(message: MsgTimeout): MsgTimeoutAminoMsg; fromProtoMsg(message: MsgTimeoutProtoMsg): MsgTimeout; toProto(message: MsgTimeout): Uint8Array; toProtoMsg(message: MsgTimeout): MsgTimeoutProtoMsg; }; export declare const MsgTimeoutResponse: { typeUrl: string; encode(_: MsgTimeoutResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgTimeoutResponse; fromPartial(_: Partial<MsgTimeoutResponse>): MsgTimeoutResponse; fromAmino(_: MsgTimeoutResponseAmino): MsgTimeoutResponse; toAmino(_: MsgTimeoutResponse): MsgTimeoutResponseAmino; fromAminoMsg(object: MsgTimeoutResponseAminoMsg): MsgTimeoutResponse; toAminoMsg(message: MsgTimeoutResponse): MsgTimeoutResponseAminoMsg; fromProtoMsg(message: MsgTimeoutResponseProtoMsg): MsgTimeoutResponse; toProto(message: MsgTimeoutResponse): Uint8Array; toProtoMsg(message: MsgTimeoutResponse): MsgTimeoutResponseProtoMsg; }; export declare const MsgTimeoutOnClose: { typeUrl: string; encode(message: MsgTimeoutOnClose, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgTimeoutOnClose; fromPartial(object: Partial<MsgTimeoutOnClose>): MsgTimeoutOnClose; fromAmino(object: MsgTimeoutOnCloseAmino): MsgTimeoutOnClose; toAmino(message: MsgTimeoutOnClose): MsgTimeoutOnCloseAmino; fromAminoMsg(object: MsgTimeoutOnCloseAminoMsg): MsgTimeoutOnClose; toAminoMsg(message: MsgTimeoutOnClose): MsgTimeoutOnCloseAminoMsg; fromProtoMsg(message: MsgTimeoutOnCloseProtoMsg): MsgTimeoutOnClose; toProto(message: MsgTimeoutOnClose): Uint8Array; toProtoMsg(message: MsgTimeoutOnClose): MsgTimeoutOnCloseProtoMsg; }; export declare const MsgTimeoutOnCloseResponse: { typeUrl: string; encode(_: MsgTimeoutOnCloseResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgTimeoutOnCloseResponse; fromPartial(_: Partial<MsgTimeoutOnCloseResponse>): MsgTimeoutOnCloseResponse; fromAmino(_: MsgTimeoutOnCloseResponseAmino): MsgTimeoutOnCloseResponse; toAmino(_: MsgTimeoutOnCloseResponse): MsgTimeoutOnCloseResponseAmino; fromAminoMsg(object: MsgTimeoutOnCloseResponseAminoMsg): MsgTimeoutOnCloseResponse; toAminoMsg(message: MsgTimeoutOnCloseResponse): MsgTimeoutOnCloseResponseAminoMsg; fromProtoMsg(message: MsgTimeoutOnCloseResponseProtoMsg): MsgTimeoutOnCloseResponse; toProto(message: MsgTimeoutOnCloseResponse): Uint8Array; toProtoMsg(message: MsgTimeoutOnCloseResponse): MsgTimeoutOnCloseResponseProtoMsg; }; export declare const MsgAcknowledgement: { typeUrl: string; encode(message: MsgAcknowledgement, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgAcknowledgement; fromPartial(object: Partial<MsgAcknowledgement>): MsgAcknowledgement; fromAmino(object: MsgAcknowledgementAmino): MsgAcknowledgement; toAmino(message: MsgAcknowledgement): MsgAcknowledgementAmino; fromAminoMsg(object: MsgAcknowledgementAminoMsg): MsgAcknowledgement; toAminoMsg(message: MsgAcknowledgement): MsgAcknowledgementAminoMsg; fromProtoMsg(message: MsgAcknowledgementProtoMsg): MsgAcknowledgement; toProto(message: MsgAcknowledgement): Uint8Array; toProtoMsg(message: MsgAcknowledgement): MsgAcknowledgementProtoMsg; }; export declare const MsgAcknowledgementResponse: { typeUrl: string; encode(_: MsgAcknowledgementResponse, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): MsgAcknowledgementResponse; fromPartial(_: Partial<MsgAcknowledgementResponse>): MsgAcknowledgementResponse; fromAmino(_: MsgAcknowledgementResponseAmino): MsgAcknowledgementResponse; toAmino(_: MsgAcknowledgementResponse): MsgAcknowledgementResponseAmino; fromAminoMsg(object: MsgAcknowledgementResponseAminoMsg): MsgAcknowledgementResponse; toAminoMsg(message: MsgAcknowledgementResponse): MsgAcknowledgementResponseAminoMsg; fromProtoMsg(message: MsgAcknowledgementResponseProtoMsg): MsgAcknowledgementResponse; toProto(message: MsgAcknowledgementResponse): Uint8Array; toProtoMsg(message: MsgAcknowledgementResponse): MsgAcknowledgementResponseProtoMsg; };