/// import { Psbt as PsbtBase } from 'bip174'; import { KeyValue, PsbtGlobalUpdate, PsbtInput, PsbtInputUpdate, PsbtOutput, PsbtOutputUpdate, TransactionInput, TransactionOutput } from 'bip174/src/lib/interfaces'; import { Signer, SignerAsync } from './ecpair'; import { Network } from './networks'; import { Transaction } from './transaction'; /** * Psbt class can parse and generate a PSBT binary based off of the BIP174. * There are 6 roles that this class fulfills. (Explained in BIP174) * * Creator: This can be done with `new Psbt()` * Updater: This can be done with `psbt.addInput(input)`, `psbt.addInputs(inputs)`, * `psbt.addOutput(output)`, `psbt.addOutputs(outputs)` when you are looking to * add new inputs and outputs to the PSBT, and `psbt.updateGlobal(itemObject)`, * `psbt.updateInput(itemObject)`, `psbt.updateOutput(itemObject)` * addInput requires hash: Buffer | string; and index: number; as attributes * and can also include any attributes that are used in updateInput method. * addOutput requires script: Buffer; and value: number; and likewise can include * data for updateOutput. * For a list of what attributes should be what types. Check the bip174 library. * Also, check the integration tests for some examples of usage. * Signer: There are a few methods. signAllInputs and signAllInputsAsync, which will search all input * information for your pubkey or pubkeyhash, and only sign inputs where it finds * your info. Or you can explicitly sign a specific input with signInput and * signInputAsync. For the async methods you can create a SignerAsync object * and use something like a hardware wallet to sign with. (You must implement this) * Combiner: psbts can be combined easily with `psbt.combine(psbt2, psbt3, psbt4 ...)` * the psbt calling combine will always have precedence when a conflict occurs. * Combine checks if the internal bitcoin transaction is the same, so be sure that * all sequences, version, locktime, etc. are the same before combining. * Input Finalizer: This role is fairly important. Not only does it need to construct * the input scriptSigs and witnesses, but it SHOULD verify the signatures etc. * Before running `psbt.finalizeAllInputs()` please run `psbt.validateSignaturesOfAllInputs()` * Running any finalize method will delete any data in the input(s) that are no longer * needed due to the finalized scripts containing the information. * Transaction Extractor: This role will perform some checks before returning a * Transaction object. Such as fee rate not being larger than maximumFeeRate etc. */ export declare class Psbt { readonly data: PsbtBase; static fromBase64(data: string, opts?: PsbtOptsOptional): Psbt; static fromHex(data: string, opts?: PsbtOptsOptional): Psbt; static fromBuffer(buffer: Buffer, opts?: PsbtOptsOptional): Psbt; private __CACHE; private opts; constructor(opts?: PsbtOptsOptional, data?: PsbtBase); readonly inputCount: number; combine(...those: Psbt[]): this; clone(): Psbt; setMaximumFeeRate(satoshiPerByte: number): void; setVersion(version: number): this; setLocktime(locktime: number): this; setInputSequence(inputIndex: number, sequence: number): this; addInputs(inputDatas: PsbtInputExtended[]): this; addInput(inputData: PsbtInputExtended): this; addOutputs(outputDatas: PsbtOutputExtended[]): this; addOutput(outputData: PsbtOutputExtended): this; extractTransaction(disableFeeCheck?: boolean): Transaction; getFeeRate(): number; finalizeAllInputs(): this; finalizeInput(inputIndex: number): this; validateSignaturesOfAllInputs(): boolean; validateSignaturesOfInput(inputIndex: number, pubkey?: Buffer): boolean; signAllInputsHD(hdKeyPair: HDSigner, sighashTypes?: number[]): this; signAllInputsHDAsync(hdKeyPair: HDSigner | HDSignerAsync, sighashTypes?: number[]): Promise; signInputHD(inputIndex: number, hdKeyPair: HDSigner, sighashTypes?: number[]): this; signInputHDAsync(inputIndex: number, hdKeyPair: HDSigner | HDSignerAsync, sighashTypes?: number[]): Promise; signAllInputs(keyPair: Signer, sighashTypes?: number[]): this; signAllInputsAsync(keyPair: Signer | SignerAsync, sighashTypes?: number[]): Promise; signInput(inputIndex: number, keyPair: Signer, sighashTypes?: number[]): this; signInputAsync(inputIndex: number, keyPair: Signer | SignerAsync, sighashTypes?: number[]): Promise; toBuffer(): Buffer; toHex(): string; toBase64(): string; updateGlobal(updateData: PsbtGlobalUpdate): this; updateInput(inputIndex: number, updateData: PsbtInputUpdate): this; updateOutput(outputIndex: number, updateData: PsbtOutputUpdate): this; addUnknownKeyValToGlobal(keyVal: KeyValue): this; addUnknownKeyValToInput(inputIndex: number, keyVal: KeyValue): this; addUnknownKeyValToOutput(outputIndex: number, keyVal: KeyValue): this; clearFinalizedInput(inputIndex: number): this; } interface PsbtOptsOptional { network?: Network; maximumFeeRate?: number; } interface PsbtInputExtended extends PsbtInput, TransactionInput { } interface PsbtOutputExtended extends PsbtOutput, TransactionOutput { } interface HDSignerBase { /** * DER format compressed publicKey buffer */ publicKey: Buffer; /** * The first 4 bytes of the sha256-ripemd160 of the publicKey */ fingerprint: Buffer; } interface HDSigner extends HDSignerBase { /** * The path string must match /^m(\/\d+'?)+$/ * ex. m/44'/0'/0'/1/23 levels with ' must be hard derivations */ derivePath(path: string): HDSigner; /** * Input hash (the "message digest") for the signature algorithm * Return a 64 byte signature (32 byte r and 32 byte s in that order) */ sign(hash: Buffer): Buffer; } /** * Same as above but with async sign method */ interface HDSignerAsync extends HDSignerBase { derivePath(path: string): HDSignerAsync; sign(hash: Buffer): Promise; } export {};