export interface BlankOutput { script: Buffer; valueBuffer: Buffer; } export interface Output { script: Buffer; value: number; } declare type OpenOutput = Output | BlankOutput; export interface Input { hash: Buffer; index: number; script: Buffer; sequence: number; witness: Buffer[]; } export declare class Transaction { static readonly DEFAULT_SEQUENCE = 4294967295; static readonly SIGHASH_ALL = 1; static readonly SIGHASH_NONE = 2; static readonly SIGHASH_SINGLE = 3; static readonly SIGHASH_ANYONECANPAY = 128; static readonly ADVANCED_TRANSACTION_MARKER = 0; static readonly ADVANCED_TRANSACTION_FLAG = 1; static fromBuffer(buffer: Buffer, _NO_STRICT?: boolean): Transaction; static fromHex(hex: string): Transaction; static isCoinbaseHash(buffer: Buffer): boolean; version: number; locktime: number; ins: Input[]; outs: OpenOutput[]; isCoinbase(): boolean; addInput(hash: Buffer, index: number, sequence?: number, scriptSig?: Buffer): number; addOutput(scriptPubKey: Buffer, value: number): number; hasWitnesses(): boolean; weight(): number; virtualSize(): number; byteLength(): number; clone(): Transaction; /** * Hash transaction for signing a specific input. * * Bitcoin uses a different hash for each signed transaction input. * This method copies the transaction, makes the necessary changes based on the * hashType, and then hashes the result. * This hash can then be used to sign the provided transaction input. */ hashForSignature(inIndex: number, prevOutScript: Buffer, hashType: number): Buffer; hashForWitnessV0(inIndex: number, prevOutScript: Buffer, value: number, hashType: number): Buffer; getHash(forWitness?: boolean): Buffer; getId(): string; toBuffer(buffer?: Buffer, initialOffset?: number): Buffer; toHex(): string; setInputScript(index: number, scriptSig: Buffer): void; setWitness(index: number, witness: Buffer[]): void; private __byteLength; private __toBuffer; } export {};