import { Any, AnyAmino } from "../../../google/protobuf/any"; import { SignMode } from "../signing/v1beta1/signing"; import { CompactBitArray, CompactBitArrayAmino } from "../../crypto/multisig/v1beta1/multisig"; import { Coin, CoinAmino } from "../../base/v1beta1/coin"; import { BinaryReader, BinaryWriter } from "../../../binary"; import { DeepPartial } from "../../../helpers"; /** * Tx is the standard type used for broadcasting transactions. * @name Tx * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Tx */ export interface Tx { /** * body is the processable content of the transaction */ body?: TxBody; /** * auth_info is the authorization related content of the transaction, * specifically signers, signer modes and fee */ authInfo?: AuthInfo; /** * signatures is a list of signatures that matches the length and order of * AuthInfo's signer_infos to allow connecting signature meta information like * public key and signing mode by position. */ signatures: Uint8Array[]; } export interface TxProtoMsg { typeUrl: "/cosmos.tx.v1beta1.Tx"; value: Uint8Array; } /** * Tx is the standard type used for broadcasting transactions. * @name TxAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Tx */ export interface TxAmino { /** * body is the processable content of the transaction */ body?: TxBodyAmino; /** * auth_info is the authorization related content of the transaction, * specifically signers, signer modes and fee */ auth_info?: AuthInfoAmino; /** * signatures is a list of signatures that matches the length and order of * AuthInfo's signer_infos to allow connecting signature meta information like * public key and signing mode by position. */ signatures: string[]; } export interface TxAminoMsg { type: "cosmos-sdk/Tx"; value: TxAmino; } /** * TxRaw is a variant of Tx that pins the signer's exact binary representation * of body and auth_info. This is used for signing, broadcasting and * verification. The binary `serialize(tx: TxRaw)` is stored in Tendermint and * the hash `sha256(serialize(tx: TxRaw))` becomes the "txhash", commonly used * as the transaction ID. * @name TxRaw * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.TxRaw */ export interface TxRaw { /** * body_bytes is a protobuf serialization of a TxBody that matches the * representation in SignDoc. */ bodyBytes: Uint8Array; /** * auth_info_bytes is a protobuf serialization of an AuthInfo that matches the * representation in SignDoc. */ authInfoBytes: Uint8Array; /** * signatures is a list of signatures that matches the length and order of * AuthInfo's signer_infos to allow connecting signature meta information like * public key and signing mode by position. */ signatures: Uint8Array[]; } export interface TxRawProtoMsg { typeUrl: "/cosmos.tx.v1beta1.TxRaw"; value: Uint8Array; } /** * TxRaw is a variant of Tx that pins the signer's exact binary representation * of body and auth_info. This is used for signing, broadcasting and * verification. The binary `serialize(tx: TxRaw)` is stored in Tendermint and * the hash `sha256(serialize(tx: TxRaw))` becomes the "txhash", commonly used * as the transaction ID. * @name TxRawAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.TxRaw */ export interface TxRawAmino { /** * body_bytes is a protobuf serialization of a TxBody that matches the * representation in SignDoc. */ body_bytes: string; /** * auth_info_bytes is a protobuf serialization of an AuthInfo that matches the * representation in SignDoc. */ auth_info_bytes: string; /** * signatures is a list of signatures that matches the length and order of * AuthInfo's signer_infos to allow connecting signature meta information like * public key and signing mode by position. */ signatures: string[]; } export interface TxRawAminoMsg { type: "cosmos-sdk/TxRaw"; value: TxRawAmino; } /** * SignDoc is the type used for generating sign bytes for SIGN_MODE_DIRECT. * @name SignDoc * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignDoc */ export interface SignDoc { /** * body_bytes is protobuf serialization of a TxBody that matches the * representation in TxRaw. */ bodyBytes: Uint8Array; /** * auth_info_bytes is a protobuf serialization of an AuthInfo that matches the * representation in TxRaw. */ authInfoBytes: Uint8Array; /** * chain_id is the unique identifier of the chain this transaction targets. * It prevents signed transactions from being used on another chain by an * attacker */ chainId: string; /** * account_number is the account number of the account in state */ accountNumber: bigint; } export interface SignDocProtoMsg { typeUrl: "/cosmos.tx.v1beta1.SignDoc"; value: Uint8Array; } /** * SignDoc is the type used for generating sign bytes for SIGN_MODE_DIRECT. * @name SignDocAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignDoc */ export interface SignDocAmino { /** * body_bytes is protobuf serialization of a TxBody that matches the * representation in TxRaw. */ body_bytes: string; /** * auth_info_bytes is a protobuf serialization of an AuthInfo that matches the * representation in TxRaw. */ auth_info_bytes: string; /** * chain_id is the unique identifier of the chain this transaction targets. * It prevents signed transactions from being used on another chain by an * attacker */ chain_id: string; /** * account_number is the account number of the account in state */ account_number: string; } export interface SignDocAminoMsg { type: "cosmos-sdk/SignDoc"; value: SignDocAmino; } /** * SignDocDirectAux is the type used for generating sign bytes for * SIGN_MODE_DIRECT_AUX. * @name SignDocDirectAux * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignDocDirectAux */ export interface SignDocDirectAux { /** * body_bytes is protobuf serialization of a TxBody that matches the * representation in TxRaw. */ bodyBytes: Uint8Array; /** * public_key is the public key of the signing account. */ publicKey?: Any; /** * chain_id is the identifier of the chain this transaction targets. * It prevents signed transactions from being used on another chain by an * attacker. */ chainId: string; /** * account_number is the account number of the account in state. */ accountNumber: bigint; /** * sequence is the sequence number of the signing account. */ sequence: bigint; /** * tips have been depreacted and should not be used * @deprecated */ tip?: Tip; } export interface SignDocDirectAuxProtoMsg { typeUrl: "/cosmos.tx.v1beta1.SignDocDirectAux"; value: Uint8Array; } /** * SignDocDirectAux is the type used for generating sign bytes for * SIGN_MODE_DIRECT_AUX. * @name SignDocDirectAuxAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignDocDirectAux */ export interface SignDocDirectAuxAmino { /** * body_bytes is protobuf serialization of a TxBody that matches the * representation in TxRaw. */ body_bytes: string; /** * public_key is the public key of the signing account. */ public_key?: AnyAmino; /** * chain_id is the identifier of the chain this transaction targets. * It prevents signed transactions from being used on another chain by an * attacker. */ chain_id: string; /** * account_number is the account number of the account in state. */ account_number: string; /** * sequence is the sequence number of the signing account. */ sequence: string; /** * tips have been depreacted and should not be used * @deprecated */ tip?: TipAmino; } export interface SignDocDirectAuxAminoMsg { type: "cosmos-sdk/SignDocDirectAux"; value: SignDocDirectAuxAmino; } /** * TxBody is the body of a transaction that all signers sign over. * @name TxBody * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.TxBody */ export interface TxBody { /** * messages is a list of messages to be executed. The required signers of * those messages define the number and order of elements in AuthInfo's * signer_infos and Tx's signatures. Each required signer address is added to * the list only the first time it occurs. * By convention, the first required signer (usually from the first message) * is referred to as the primary signer and pays the fee for the whole * transaction. */ messages: Any[]; /** * memo is any arbitrary note/comment to be added to the transaction. * WARNING: in clients, any publicly exposed text should not be called memo, * but should be called `note` instead (see * https://github.com/cosmos/cosmos-sdk/issues/9122). */ memo: string; /** * timeout_height is the block height after which this transaction will not * be processed by the chain. */ timeoutHeight: bigint; /** * unordered, when set to true, indicates that the transaction signer(s) * intend for the transaction to be evaluated and executed in an un-ordered * fashion. Specifically, the account's nonce will NOT be checked or * incremented, which allows for fire-and-forget as well as concurrent * transaction execution. * * Note, when set to true, the existing 'timeout_timestamp' value must * be set and will be used to correspond to a timestamp in which the transaction is deemed * valid. * * When true, the sequence value MUST be 0, and any transaction with unordered=true and a non-zero sequence value will * be rejected. * External services that make assumptions about sequence values may need to be updated because of this. */ unordered: boolean; /** * timeout_timestamp is the block time after which this transaction will not * be processed by the chain. * * Note, if unordered=true this value MUST be set * and will act as a short-lived TTL in which the transaction is deemed valid * and kept in memory to prevent duplicates. */ timeoutTimestamp?: Date; /** * extension_options are arbitrary options that can be added by chains * when the default options are not sufficient. If any of these are present * and can't be handled, the transaction will be rejected */ extensionOptions: Any[]; /** * extension_options are arbitrary options that can be added by chains * when the default options are not sufficient. If any of these are present * and can't be handled, they will be ignored */ nonCriticalExtensionOptions: Any[]; } export interface TxBodyProtoMsg { typeUrl: "/cosmos.tx.v1beta1.TxBody"; value: Uint8Array; } /** * TxBody is the body of a transaction that all signers sign over. * @name TxBodyAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.TxBody */ export interface TxBodyAmino { /** * messages is a list of messages to be executed. The required signers of * those messages define the number and order of elements in AuthInfo's * signer_infos and Tx's signatures. Each required signer address is added to * the list only the first time it occurs. * By convention, the first required signer (usually from the first message) * is referred to as the primary signer and pays the fee for the whole * transaction. */ messages: AnyAmino[]; /** * memo is any arbitrary note/comment to be added to the transaction. * WARNING: in clients, any publicly exposed text should not be called memo, * but should be called `note` instead (see * https://github.com/cosmos/cosmos-sdk/issues/9122). */ memo: string; /** * timeout_height is the block height after which this transaction will not * be processed by the chain. */ timeout_height: string; /** * unordered, when set to true, indicates that the transaction signer(s) * intend for the transaction to be evaluated and executed in an un-ordered * fashion. Specifically, the account's nonce will NOT be checked or * incremented, which allows for fire-and-forget as well as concurrent * transaction execution. * * Note, when set to true, the existing 'timeout_timestamp' value must * be set and will be used to correspond to a timestamp in which the transaction is deemed * valid. * * When true, the sequence value MUST be 0, and any transaction with unordered=true and a non-zero sequence value will * be rejected. * External services that make assumptions about sequence values may need to be updated because of this. */ unordered: boolean; /** * timeout_timestamp is the block time after which this transaction will not * be processed by the chain. * * Note, if unordered=true this value MUST be set * and will act as a short-lived TTL in which the transaction is deemed valid * and kept in memory to prevent duplicates. */ timeout_timestamp?: string; /** * extension_options are arbitrary options that can be added by chains * when the default options are not sufficient. If any of these are present * and can't be handled, the transaction will be rejected */ extension_options: AnyAmino[]; /** * extension_options are arbitrary options that can be added by chains * when the default options are not sufficient. If any of these are present * and can't be handled, they will be ignored */ non_critical_extension_options: AnyAmino[]; } export interface TxBodyAminoMsg { type: "cosmos-sdk/TxBody"; value: TxBodyAmino; } /** * AuthInfo describes the fee and signer modes that are used to sign a * transaction. * @name AuthInfo * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.AuthInfo */ export interface AuthInfo { /** * signer_infos defines the signing modes for the required signers. The number * and order of elements must match the required signers from TxBody's * messages. The first element is the primary signer and the one which pays * the fee. */ signerInfos: SignerInfo[]; /** * Fee is the fee and gas limit for the transaction. The first signer is the * primary signer and the one which pays the fee. The fee can be calculated * based on the cost of evaluating the body and doing signature verification * of the signers. This can be estimated via simulation. */ fee?: Fee; /** * Tip is the optional tip used for transactions fees paid in another denom. * * This field is ignored if the chain didn't enable tips, i.e. didn't add the * `TipDecorator` in its posthandler. * @deprecated */ tip?: Tip; } export interface AuthInfoProtoMsg { typeUrl: "/cosmos.tx.v1beta1.AuthInfo"; value: Uint8Array; } /** * AuthInfo describes the fee and signer modes that are used to sign a * transaction. * @name AuthInfoAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.AuthInfo */ export interface AuthInfoAmino { /** * signer_infos defines the signing modes for the required signers. The number * and order of elements must match the required signers from TxBody's * messages. The first element is the primary signer and the one which pays * the fee. */ signer_infos: SignerInfoAmino[]; /** * Fee is the fee and gas limit for the transaction. The first signer is the * primary signer and the one which pays the fee. The fee can be calculated * based on the cost of evaluating the body and doing signature verification * of the signers. This can be estimated via simulation. */ fee?: FeeAmino; /** * Tip is the optional tip used for transactions fees paid in another denom. * * This field is ignored if the chain didn't enable tips, i.e. didn't add the * `TipDecorator` in its posthandler. * @deprecated */ tip?: TipAmino; } export interface AuthInfoAminoMsg { type: "cosmos-sdk/AuthInfo"; value: AuthInfoAmino; } /** * SignerInfo describes the public key and signing mode of a single top-level * signer. * @name SignerInfo * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignerInfo */ export interface SignerInfo { /** * public_key is the public key of the signer. It is optional for accounts * that already exist in state. If unset, the verifier can use the required \ * signer address for this position and lookup the public key. */ publicKey?: Any; /** * mode_info describes the signing mode of the signer and is a nested * structure to support nested multisig pubkey's */ modeInfo?: ModeInfo; /** * sequence is the sequence of the account, which describes the * number of committed transactions signed by a given address. It is used to * prevent replay attacks. */ sequence: bigint; } export interface SignerInfoProtoMsg { typeUrl: "/cosmos.tx.v1beta1.SignerInfo"; value: Uint8Array; } /** * SignerInfo describes the public key and signing mode of a single top-level * signer. * @name SignerInfoAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignerInfo */ export interface SignerInfoAmino { /** * public_key is the public key of the signer. It is optional for accounts * that already exist in state. If unset, the verifier can use the required \ * signer address for this position and lookup the public key. */ public_key?: AnyAmino; /** * mode_info describes the signing mode of the signer and is a nested * structure to support nested multisig pubkey's */ mode_info?: ModeInfoAmino; /** * sequence is the sequence of the account, which describes the * number of committed transactions signed by a given address. It is used to * prevent replay attacks. */ sequence: string; } export interface SignerInfoAminoMsg { type: "cosmos-sdk/SignerInfo"; value: SignerInfoAmino; } /** * ModeInfo describes the signing mode of a single or nested multisig signer. * @name ModeInfo * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.ModeInfo */ export interface ModeInfo { /** * single represents a single signer */ single?: ModeInfo_Single; /** * multi represents a nested multisig signer */ multi?: ModeInfo_Multi; } export interface ModeInfoProtoMsg { typeUrl: "/cosmos.tx.v1beta1.ModeInfo"; value: Uint8Array; } /** * ModeInfo describes the signing mode of a single or nested multisig signer. * @name ModeInfoAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.ModeInfo */ export interface ModeInfoAmino { /** * single represents a single signer */ single?: ModeInfo_SingleAmino; /** * multi represents a nested multisig signer */ multi?: ModeInfo_MultiAmino; } export interface ModeInfoAminoMsg { type: "cosmos-sdk/ModeInfo"; value: ModeInfoAmino; } /** * Single is the mode info for a single signer. It is structured as a message * to allow for additional fields such as locale for SIGN_MODE_TEXTUAL in the * future * @name ModeInfo_Single * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Single */ export interface ModeInfo_Single { /** * mode is the signing mode of the single signer */ mode: SignMode; } export interface ModeInfo_SingleProtoMsg { typeUrl: "/cosmos.tx.v1beta1.Single"; value: Uint8Array; } /** * Single is the mode info for a single signer. It is structured as a message * to allow for additional fields such as locale for SIGN_MODE_TEXTUAL in the * future * @name ModeInfo_SingleAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.ModeInfo_Single */ export interface ModeInfo_SingleAmino { /** * mode is the signing mode of the single signer */ mode: SignMode; } export interface ModeInfo_SingleAminoMsg { type: "cosmos-sdk/Single"; value: ModeInfo_SingleAmino; } /** * Multi is the mode info for a multisig public key * @name ModeInfo_Multi * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Multi */ export interface ModeInfo_Multi { /** * bitarray specifies which keys within the multisig are signing */ bitarray?: CompactBitArray; /** * mode_infos is the corresponding modes of the signers of the multisig * which could include nested multisig public keys */ modeInfos: ModeInfo[]; } export interface ModeInfo_MultiProtoMsg { typeUrl: "/cosmos.tx.v1beta1.Multi"; value: Uint8Array; } /** * Multi is the mode info for a multisig public key * @name ModeInfo_MultiAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.ModeInfo_Multi */ export interface ModeInfo_MultiAmino { /** * bitarray specifies which keys within the multisig are signing */ bitarray?: CompactBitArrayAmino; /** * mode_infos is the corresponding modes of the signers of the multisig * which could include nested multisig public keys */ mode_infos: ModeInfoAmino[]; } export interface ModeInfo_MultiAminoMsg { type: "cosmos-sdk/Multi"; value: ModeInfo_MultiAmino; } /** * Fee includes the amount of coins paid in fees and the maximum * gas to be used by the transaction. The ratio yields an effective "gasprice", * which must be above some miminum to be accepted into the mempool. * @name Fee * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Fee */ export interface Fee { /** * amount is the amount of coins to be paid as a fee */ amount: Coin[]; /** * gas_limit is the maximum gas that can be used in transaction processing * before an out of gas error occurs */ gasLimit: bigint; /** * if unset, the first signer is responsible for paying the fees. If set, the * specified account must pay the fees. the payer must be a tx signer (and * thus have signed this field in AuthInfo). setting this field does *not* * change the ordering of required signers for the transaction. */ payer: string; /** * if set, the fee payer (either the first signer or the value of the payer * field) requests that a fee grant be used to pay fees instead of the fee * payer's own balance. If an appropriate fee grant does not exist or the * chain does not support fee grants, this will fail */ granter: string; } export interface FeeProtoMsg { typeUrl: "/cosmos.tx.v1beta1.Fee"; value: Uint8Array; } /** * Fee includes the amount of coins paid in fees and the maximum * gas to be used by the transaction. The ratio yields an effective "gasprice", * which must be above some miminum to be accepted into the mempool. * @name FeeAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Fee */ export interface FeeAmino { /** * amount is the amount of coins to be paid as a fee */ amount: CoinAmino[]; /** * gas_limit is the maximum gas that can be used in transaction processing * before an out of gas error occurs */ gas_limit: string; /** * if unset, the first signer is responsible for paying the fees. If set, the * specified account must pay the fees. the payer must be a tx signer (and * thus have signed this field in AuthInfo). setting this field does *not* * change the ordering of required signers for the transaction. */ payer: string; /** * if set, the fee payer (either the first signer or the value of the payer * field) requests that a fee grant be used to pay fees instead of the fee * payer's own balance. If an appropriate fee grant does not exist or the * chain does not support fee grants, this will fail */ granter: string; } export interface FeeAminoMsg { type: "cosmos-sdk/Fee"; value: FeeAmino; } /** * Tip is the tip used for meta-transactions. * @name Tip * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Tip * @deprecated */ export interface Tip { /** * amount is the amount of the tip */ amount: Coin[]; /** * tipper is the address of the account paying for the tip */ tipper: string; } export interface TipProtoMsg { typeUrl: "/cosmos.tx.v1beta1.Tip"; value: Uint8Array; } /** * Tip is the tip used for meta-transactions. * @name TipAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Tip * @deprecated */ export interface TipAmino { /** * amount is the amount of the tip */ amount: CoinAmino[]; /** * tipper is the address of the account paying for the tip */ tipper: string; } export interface TipAminoMsg { type: "cosmos-sdk/Tip"; value: TipAmino; } /** * AuxSignerData is the intermediary format that an auxiliary signer (e.g. a * tipper) builds and sends to the fee payer (who will build and broadcast the * actual tx). AuxSignerData is not a valid tx in itself, and will be rejected * by the node if sent directly as-is. * @name AuxSignerData * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.AuxSignerData */ export interface AuxSignerData { /** * address is the bech32-encoded address of the auxiliary signer. If using * AuxSignerData across different chains, the bech32 prefix of the target * chain (where the final transaction is broadcasted) should be used. */ address: string; /** * sign_doc is the SIGN_MODE_DIRECT_AUX sign doc that the auxiliary signer * signs. Note: we use the same sign doc even if we're signing with * LEGACY_AMINO_JSON. */ signDoc?: SignDocDirectAux; /** * mode is the signing mode of the single signer. */ mode: SignMode; /** * sig is the signature of the sign doc. */ sig: Uint8Array; } export interface AuxSignerDataProtoMsg { typeUrl: "/cosmos.tx.v1beta1.AuxSignerData"; value: Uint8Array; } /** * AuxSignerData is the intermediary format that an auxiliary signer (e.g. a * tipper) builds and sends to the fee payer (who will build and broadcast the * actual tx). AuxSignerData is not a valid tx in itself, and will be rejected * by the node if sent directly as-is. * @name AuxSignerDataAmino * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.AuxSignerData */ export interface AuxSignerDataAmino { /** * address is the bech32-encoded address of the auxiliary signer. If using * AuxSignerData across different chains, the bech32 prefix of the target * chain (where the final transaction is broadcasted) should be used. */ address: string; /** * sign_doc is the SIGN_MODE_DIRECT_AUX sign doc that the auxiliary signer * signs. Note: we use the same sign doc even if we're signing with * LEGACY_AMINO_JSON. */ sign_doc?: SignDocDirectAuxAmino; /** * mode is the signing mode of the single signer. */ mode: SignMode; /** * sig is the signature of the sign doc. */ sig: string; } export interface AuxSignerDataAminoMsg { type: "cosmos-sdk/AuxSignerData"; value: AuxSignerDataAmino; } /** * Tx is the standard type used for broadcasting transactions. * @name Tx * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Tx */ export declare const Tx: { typeUrl: string; aminoType: string; is(o: any): o is Tx; isAmino(o: any): o is TxAmino; encode(message: Tx, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): Tx; fromPartial(object: DeepPartial): Tx; fromAmino(object: TxAmino): Tx; toAmino(message: Tx): TxAmino; fromAminoMsg(object: TxAminoMsg): Tx; toAminoMsg(message: Tx): TxAminoMsg; fromProtoMsg(message: TxProtoMsg): Tx; toProto(message: Tx): Uint8Array; toProtoMsg(message: Tx): TxProtoMsg; registerTypeUrl(): void; }; /** * TxRaw is a variant of Tx that pins the signer's exact binary representation * of body and auth_info. This is used for signing, broadcasting and * verification. The binary `serialize(tx: TxRaw)` is stored in Tendermint and * the hash `sha256(serialize(tx: TxRaw))` becomes the "txhash", commonly used * as the transaction ID. * @name TxRaw * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.TxRaw */ export declare const TxRaw: { typeUrl: string; aminoType: string; is(o: any): o is TxRaw; isAmino(o: any): o is TxRawAmino; encode(message: TxRaw, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): TxRaw; fromPartial(object: DeepPartial): TxRaw; fromAmino(object: TxRawAmino): TxRaw; toAmino(message: TxRaw): TxRawAmino; fromAminoMsg(object: TxRawAminoMsg): TxRaw; toAminoMsg(message: TxRaw): TxRawAminoMsg; fromProtoMsg(message: TxRawProtoMsg): TxRaw; toProto(message: TxRaw): Uint8Array; toProtoMsg(message: TxRaw): TxRawProtoMsg; registerTypeUrl(): void; }; /** * SignDoc is the type used for generating sign bytes for SIGN_MODE_DIRECT. * @name SignDoc * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignDoc */ export declare const SignDoc: { typeUrl: string; aminoType: string; is(o: any): o is SignDoc; isAmino(o: any): o is SignDocAmino; encode(message: SignDoc, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): SignDoc; fromPartial(object: DeepPartial): SignDoc; fromAmino(object: SignDocAmino): SignDoc; toAmino(message: SignDoc): SignDocAmino; fromAminoMsg(object: SignDocAminoMsg): SignDoc; toAminoMsg(message: SignDoc): SignDocAminoMsg; fromProtoMsg(message: SignDocProtoMsg): SignDoc; toProto(message: SignDoc): Uint8Array; toProtoMsg(message: SignDoc): SignDocProtoMsg; registerTypeUrl(): void; }; /** * SignDocDirectAux is the type used for generating sign bytes for * SIGN_MODE_DIRECT_AUX. * @name SignDocDirectAux * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignDocDirectAux */ export declare const SignDocDirectAux: { typeUrl: string; aminoType: string; is(o: any): o is SignDocDirectAux; isAmino(o: any): o is SignDocDirectAuxAmino; encode(message: SignDocDirectAux, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): SignDocDirectAux; fromPartial(object: DeepPartial): SignDocDirectAux; fromAmino(object: SignDocDirectAuxAmino): SignDocDirectAux; toAmino(message: SignDocDirectAux): SignDocDirectAuxAmino; fromAminoMsg(object: SignDocDirectAuxAminoMsg): SignDocDirectAux; toAminoMsg(message: SignDocDirectAux): SignDocDirectAuxAminoMsg; fromProtoMsg(message: SignDocDirectAuxProtoMsg): SignDocDirectAux; toProto(message: SignDocDirectAux): Uint8Array; toProtoMsg(message: SignDocDirectAux): SignDocDirectAuxProtoMsg; registerTypeUrl(): void; }; /** * TxBody is the body of a transaction that all signers sign over. * @name TxBody * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.TxBody */ export declare const TxBody: { typeUrl: string; aminoType: string; is(o: any): o is TxBody; isAmino(o: any): o is TxBodyAmino; encode(message: TxBody, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): TxBody; fromPartial(object: DeepPartial): TxBody; fromAmino(object: TxBodyAmino): TxBody; toAmino(message: TxBody): TxBodyAmino; fromAminoMsg(object: TxBodyAminoMsg): TxBody; toAminoMsg(message: TxBody): TxBodyAminoMsg; fromProtoMsg(message: TxBodyProtoMsg): TxBody; toProto(message: TxBody): Uint8Array; toProtoMsg(message: TxBody): TxBodyProtoMsg; registerTypeUrl(): void; }; /** * AuthInfo describes the fee and signer modes that are used to sign a * transaction. * @name AuthInfo * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.AuthInfo */ export declare const AuthInfo: { typeUrl: string; aminoType: string; is(o: any): o is AuthInfo; isAmino(o: any): o is AuthInfoAmino; encode(message: AuthInfo, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): AuthInfo; fromPartial(object: DeepPartial): AuthInfo; fromAmino(object: AuthInfoAmino): AuthInfo; toAmino(message: AuthInfo): AuthInfoAmino; fromAminoMsg(object: AuthInfoAminoMsg): AuthInfo; toAminoMsg(message: AuthInfo): AuthInfoAminoMsg; fromProtoMsg(message: AuthInfoProtoMsg): AuthInfo; toProto(message: AuthInfo): Uint8Array; toProtoMsg(message: AuthInfo): AuthInfoProtoMsg; registerTypeUrl(): void; }; /** * SignerInfo describes the public key and signing mode of a single top-level * signer. * @name SignerInfo * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.SignerInfo */ export declare const SignerInfo: { typeUrl: string; aminoType: string; is(o: any): o is SignerInfo; isAmino(o: any): o is SignerInfoAmino; encode(message: SignerInfo, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): SignerInfo; fromPartial(object: DeepPartial): SignerInfo; fromAmino(object: SignerInfoAmino): SignerInfo; toAmino(message: SignerInfo): SignerInfoAmino; fromAminoMsg(object: SignerInfoAminoMsg): SignerInfo; toAminoMsg(message: SignerInfo): SignerInfoAminoMsg; fromProtoMsg(message: SignerInfoProtoMsg): SignerInfo; toProto(message: SignerInfo): Uint8Array; toProtoMsg(message: SignerInfo): SignerInfoProtoMsg; registerTypeUrl(): void; }; /** * ModeInfo describes the signing mode of a single or nested multisig signer. * @name ModeInfo * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.ModeInfo */ export declare const ModeInfo: { typeUrl: string; aminoType: string; is(o: any): o is ModeInfo; isAmino(o: any): o is ModeInfoAmino; encode(message: ModeInfo, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): ModeInfo; fromPartial(object: DeepPartial): ModeInfo; fromAmino(object: ModeInfoAmino): ModeInfo; toAmino(message: ModeInfo): ModeInfoAmino; fromAminoMsg(object: ModeInfoAminoMsg): ModeInfo; toAminoMsg(message: ModeInfo): ModeInfoAminoMsg; fromProtoMsg(message: ModeInfoProtoMsg): ModeInfo; toProto(message: ModeInfo): Uint8Array; toProtoMsg(message: ModeInfo): ModeInfoProtoMsg; registerTypeUrl(): void; }; /** * Single is the mode info for a single signer. It is structured as a message * to allow for additional fields such as locale for SIGN_MODE_TEXTUAL in the * future * @name ModeInfo_Single * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Single */ export declare const ModeInfo_Single: { typeUrl: string; aminoType: string; is(o: any): o is ModeInfo_Single; isAmino(o: any): o is ModeInfo_SingleAmino; encode(message: ModeInfo_Single, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): ModeInfo_Single; fromPartial(object: DeepPartial): ModeInfo_Single; fromAmino(object: ModeInfo_SingleAmino): ModeInfo_Single; toAmino(message: ModeInfo_Single): ModeInfo_SingleAmino; fromAminoMsg(object: ModeInfo_SingleAminoMsg): ModeInfo_Single; toAminoMsg(message: ModeInfo_Single): ModeInfo_SingleAminoMsg; fromProtoMsg(message: ModeInfo_SingleProtoMsg): ModeInfo_Single; toProto(message: ModeInfo_Single): Uint8Array; toProtoMsg(message: ModeInfo_Single): ModeInfo_SingleProtoMsg; registerTypeUrl(): void; }; /** * Multi is the mode info for a multisig public key * @name ModeInfo_Multi * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Multi */ export declare const ModeInfo_Multi: { typeUrl: string; aminoType: string; is(o: any): o is ModeInfo_Multi; isAmino(o: any): o is ModeInfo_MultiAmino; encode(message: ModeInfo_Multi, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): ModeInfo_Multi; fromPartial(object: DeepPartial): ModeInfo_Multi; fromAmino(object: ModeInfo_MultiAmino): ModeInfo_Multi; toAmino(message: ModeInfo_Multi): ModeInfo_MultiAmino; fromAminoMsg(object: ModeInfo_MultiAminoMsg): ModeInfo_Multi; toAminoMsg(message: ModeInfo_Multi): ModeInfo_MultiAminoMsg; fromProtoMsg(message: ModeInfo_MultiProtoMsg): ModeInfo_Multi; toProto(message: ModeInfo_Multi): Uint8Array; toProtoMsg(message: ModeInfo_Multi): ModeInfo_MultiProtoMsg; registerTypeUrl(): void; }; /** * Fee includes the amount of coins paid in fees and the maximum * gas to be used by the transaction. The ratio yields an effective "gasprice", * which must be above some miminum to be accepted into the mempool. * @name Fee * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Fee */ export declare const Fee: { typeUrl: string; aminoType: string; is(o: any): o is Fee; isAmino(o: any): o is FeeAmino; encode(message: Fee, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): Fee; fromPartial(object: DeepPartial): Fee; fromAmino(object: FeeAmino): Fee; toAmino(message: Fee): FeeAmino; fromAminoMsg(object: FeeAminoMsg): Fee; toAminoMsg(message: Fee): FeeAminoMsg; fromProtoMsg(message: FeeProtoMsg): Fee; toProto(message: Fee): Uint8Array; toProtoMsg(message: Fee): FeeProtoMsg; registerTypeUrl(): void; }; /** * Tip is the tip used for meta-transactions. * @name Tip * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.Tip * @deprecated */ export declare const Tip: { typeUrl: string; aminoType: string; is(o: any): o is Tip; isAmino(o: any): o is TipAmino; encode(message: Tip, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): Tip; fromPartial(object: DeepPartial): Tip; fromAmino(object: TipAmino): Tip; toAmino(message: Tip): TipAmino; fromAminoMsg(object: TipAminoMsg): Tip; toAminoMsg(message: Tip): TipAminoMsg; fromProtoMsg(message: TipProtoMsg): Tip; toProto(message: Tip): Uint8Array; toProtoMsg(message: Tip): TipProtoMsg; registerTypeUrl(): void; }; /** * AuxSignerData is the intermediary format that an auxiliary signer (e.g. a * tipper) builds and sends to the fee payer (who will build and broadcast the * actual tx). AuxSignerData is not a valid tx in itself, and will be rejected * by the node if sent directly as-is. * @name AuxSignerData * @package cosmos.tx.v1beta1 * @see proto type: cosmos.tx.v1beta1.AuxSignerData */ export declare const AuxSignerData: { typeUrl: string; aminoType: string; is(o: any): o is AuxSignerData; isAmino(o: any): o is AuxSignerDataAmino; encode(message: AuxSignerData, writer?: BinaryWriter): BinaryWriter; decode(input: BinaryReader | Uint8Array, length?: number): AuxSignerData; fromPartial(object: DeepPartial): AuxSignerData; fromAmino(object: AuxSignerDataAmino): AuxSignerData; toAmino(message: AuxSignerData): AuxSignerDataAmino; fromAminoMsg(object: AuxSignerDataAminoMsg): AuxSignerData; toAminoMsg(message: AuxSignerData): AuxSignerDataAminoMsg; fromProtoMsg(message: AuxSignerDataProtoMsg): AuxSignerData; toProto(message: AuxSignerData): Uint8Array; toProtoMsg(message: AuxSignerData): AuxSignerDataProtoMsg; registerTypeUrl(): void; };