616 lines
15 KiB
TypeScript
616 lines
15 KiB
TypeScript
import * as bufferutils from './bufferutils';
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import { reverseBuffer } from './bufferutils';
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import * as bcrypto from './crypto';
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import * as bscript from './script';
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import { OPS as opcodes } from './script';
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import * as types from './types';
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const typeforce = require('typeforce');
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const varuint = require('varuint-bitcoin');
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function varSliceSize(someScript: Buffer): number {
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const length = someScript.length;
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return varuint.encodingLength(length) + length;
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}
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function vectorSize(someVector: Buffer[]): number {
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const length = someVector.length;
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return (
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varuint.encodingLength(length) +
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someVector.reduce((sum, witness) => {
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return sum + varSliceSize(witness);
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}, 0)
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);
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}
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const EMPTY_SCRIPT: Buffer = Buffer.allocUnsafe(0);
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const EMPTY_WITNESS: Buffer[] = [];
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const ZERO: Buffer = Buffer.from(
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'0000000000000000000000000000000000000000000000000000000000000000',
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'hex',
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);
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const ONE: Buffer = Buffer.from(
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'0000000000000000000000000000000000000000000000000000000000000001',
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'hex',
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);
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const VALUE_UINT64_MAX: Buffer = Buffer.from('ffffffffffffffff', 'hex');
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const BLANK_OUTPUT = {
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script: EMPTY_SCRIPT,
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valueBuffer: VALUE_UINT64_MAX,
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};
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function isOutput(out: Output): boolean {
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return out.value !== undefined;
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}
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export interface Output {
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script: Buffer;
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value: number;
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}
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export interface Input {
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hash: Buffer;
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index: number;
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script: Buffer;
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sequence: number;
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witness: Buffer[];
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}
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export class Transaction {
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static readonly DEFAULT_SEQUENCE = 0xffffffff;
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static readonly SIGHASH_ALL = 0x01;
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static readonly SIGHASH_NONE = 0x02;
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static readonly SIGHASH_SINGLE = 0x03;
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static readonly SIGHASH_ANYONECANPAY = 0x80;
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static readonly ADVANCED_TRANSACTION_MARKER = 0x00;
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static readonly ADVANCED_TRANSACTION_FLAG = 0x01;
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static fromBuffer(buffer: Buffer, _NO_STRICT?: boolean): Transaction {
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let offset: number = 0;
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function readSlice(n: number): Buffer {
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offset += n;
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return buffer.slice(offset - n, offset);
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}
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function readUInt32(): number {
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const i = buffer.readUInt32LE(offset);
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offset += 4;
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return i;
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}
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function readInt32(): number {
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const i = buffer.readInt32LE(offset);
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offset += 4;
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return i;
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}
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function readUInt64(): number {
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const i = bufferutils.readUInt64LE(buffer, offset);
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offset += 8;
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return i;
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}
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function readVarInt(): number {
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const vi = varuint.decode(buffer, offset);
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offset += varuint.decode.bytes;
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return vi;
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}
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function readVarSlice(): Buffer {
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return readSlice(readVarInt());
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}
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function readVector(): Buffer[] {
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const count = readVarInt();
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const vector: Buffer[] = [];
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for (let i = 0; i < count; i++) vector.push(readVarSlice());
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return vector;
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}
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const tx = new Transaction();
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tx.version = readInt32();
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const marker = buffer.readUInt8(offset);
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const flag = buffer.readUInt8(offset + 1);
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let hasWitnesses = false;
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if (
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marker === Transaction.ADVANCED_TRANSACTION_MARKER &&
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flag === Transaction.ADVANCED_TRANSACTION_FLAG
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) {
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offset += 2;
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hasWitnesses = true;
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}
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const vinLen = readVarInt();
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for (let i = 0; i < vinLen; ++i) {
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tx.ins.push({
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hash: readSlice(32),
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index: readUInt32(),
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script: readVarSlice(),
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sequence: readUInt32(),
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witness: EMPTY_WITNESS,
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});
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}
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const voutLen = readVarInt();
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for (let i = 0; i < voutLen; ++i) {
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tx.outs.push({
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value: readUInt64(),
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script: readVarSlice(),
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});
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}
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if (hasWitnesses) {
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for (let i = 0; i < vinLen; ++i) {
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tx.ins[i].witness = readVector();
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}
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// was this pointless?
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if (!tx.hasWitnesses())
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throw new Error('Transaction has superfluous witness data');
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}
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tx.locktime = readUInt32();
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if (_NO_STRICT) return tx;
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if (offset !== buffer.length)
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throw new Error('Transaction has unexpected data');
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return tx;
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}
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static fromHex(hex: string): Transaction {
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return Transaction.fromBuffer(Buffer.from(hex, 'hex'), false);
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}
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static isCoinbaseHash(buffer: Buffer): boolean {
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typeforce(types.Hash256bit, buffer);
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for (let i = 0; i < 32; ++i) {
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if (buffer[i] !== 0) return false;
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}
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return true;
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}
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version: number = 1;
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locktime: number = 0;
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ins: Input[] = [];
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outs: Output[] = [];
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isCoinbase(): boolean {
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return (
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this.ins.length === 1 && Transaction.isCoinbaseHash(this.ins[0].hash)
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);
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}
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addInput(
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hash: Buffer,
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index: number,
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sequence?: number,
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scriptSig?: Buffer,
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): number {
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typeforce(
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types.tuple(
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types.Hash256bit,
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types.UInt32,
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types.maybe(types.UInt32),
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types.maybe(types.Buffer),
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),
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arguments,
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);
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if (types.Null(sequence)) {
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sequence = Transaction.DEFAULT_SEQUENCE;
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}
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// Add the input and return the input's index
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return (
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this.ins.push({
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hash,
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index,
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script: scriptSig || EMPTY_SCRIPT,
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sequence: sequence as number,
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witness: EMPTY_WITNESS,
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}) - 1
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);
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}
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addOutput(scriptPubKey: Buffer, value: number): number {
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typeforce(types.tuple(types.Buffer, types.Satoshi), arguments);
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// Add the output and return the output's index
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return (
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this.outs.push({
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script: scriptPubKey,
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value,
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}) - 1
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);
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}
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hasWitnesses(): boolean {
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return this.ins.some(x => {
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return x.witness.length !== 0;
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});
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}
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weight(): number {
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const base = this.__byteLength(false);
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const total = this.__byteLength(true);
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return base * 3 + total;
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}
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virtualSize(): number {
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return Math.ceil(this.weight() / 4);
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}
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byteLength(): number {
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return this.__byteLength(true);
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}
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clone(): Transaction {
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const newTx = new Transaction();
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newTx.version = this.version;
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newTx.locktime = this.locktime;
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newTx.ins = this.ins.map(txIn => {
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return {
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hash: txIn.hash,
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index: txIn.index,
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script: txIn.script,
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sequence: txIn.sequence,
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witness: txIn.witness,
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};
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});
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newTx.outs = this.outs.map(txOut => {
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return {
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script: txOut.script,
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value: txOut.value,
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};
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});
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return newTx;
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}
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/**
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* Hash transaction for signing a specific input.
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*
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* Bitcoin uses a different hash for each signed transaction input.
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* This method copies the transaction, makes the necessary changes based on the
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* hashType, and then hashes the result.
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* This hash can then be used to sign the provided transaction input.
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*/
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hashForSignature(
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inIndex: number,
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prevOutScript: Buffer,
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hashType: number,
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): Buffer {
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typeforce(
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types.tuple(types.UInt32, types.Buffer, /* types.UInt8 */ types.Number),
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arguments,
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);
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// https://github.com/bitcoin/bitcoin/blob/master/src/test/sighash_tests.cpp#L29
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if (inIndex >= this.ins.length) return ONE;
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// ignore OP_CODESEPARATOR
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const ourScript = bscript.compile(
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bscript.decompile(prevOutScript)!.filter(x => {
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return x !== opcodes.OP_CODESEPARATOR;
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}),
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);
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const txTmp = this.clone();
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// SIGHASH_NONE: ignore all outputs? (wildcard payee)
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if ((hashType & 0x1f) === Transaction.SIGHASH_NONE) {
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txTmp.outs = [];
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// ignore sequence numbers (except at inIndex)
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txTmp.ins.forEach((input, i) => {
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if (i === inIndex) return;
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input.sequence = 0;
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});
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// SIGHASH_SINGLE: ignore all outputs, except at the same index?
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} else if ((hashType & 0x1f) === Transaction.SIGHASH_SINGLE) {
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// https://github.com/bitcoin/bitcoin/blob/master/src/test/sighash_tests.cpp#L60
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if (inIndex >= this.outs.length) return ONE;
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// truncate outputs after
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txTmp.outs.length = inIndex + 1;
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// "blank" outputs before
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for (let i = 0; i < inIndex; i++) {
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(txTmp.outs as any)[i] = BLANK_OUTPUT;
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}
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// ignore sequence numbers (except at inIndex)
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txTmp.ins.forEach((input, y) => {
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if (y === inIndex) return;
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input.sequence = 0;
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});
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}
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// SIGHASH_ANYONECANPAY: ignore inputs entirely?
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if (hashType & Transaction.SIGHASH_ANYONECANPAY) {
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txTmp.ins = [txTmp.ins[inIndex]];
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txTmp.ins[0].script = ourScript;
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// SIGHASH_ALL: only ignore input scripts
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} else {
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// "blank" others input scripts
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txTmp.ins.forEach(input => {
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input.script = EMPTY_SCRIPT;
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});
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txTmp.ins[inIndex].script = ourScript;
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}
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// serialize and hash
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const buffer: Buffer = Buffer.allocUnsafe(txTmp.__byteLength(false) + 4);
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buffer.writeInt32LE(hashType, buffer.length - 4);
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txTmp.__toBuffer(buffer, 0, false);
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return bcrypto.hash256(buffer);
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}
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hashForWitnessV0(
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inIndex: number,
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prevOutScript: Buffer,
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value: number,
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hashType: number,
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): Buffer {
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typeforce(
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types.tuple(types.UInt32, types.Buffer, types.Satoshi, types.UInt32),
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arguments,
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);
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let tbuffer: Buffer = Buffer.from([]);
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let toffset: number = 0;
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function writeSlice(slice: Buffer): void {
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toffset += slice.copy(tbuffer, toffset);
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}
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function writeUInt32(i: number): void {
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toffset = tbuffer.writeUInt32LE(i, toffset);
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}
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function writeUInt64(i: number): void {
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toffset = bufferutils.writeUInt64LE(tbuffer, i, toffset);
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}
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function writeVarInt(i: number): void {
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varuint.encode(i, tbuffer, toffset);
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toffset += varuint.encode.bytes;
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}
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function writeVarSlice(slice: Buffer): void {
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writeVarInt(slice.length);
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writeSlice(slice);
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}
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let hashOutputs = ZERO;
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let hashPrevouts = ZERO;
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let hashSequence = ZERO;
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if (!(hashType & Transaction.SIGHASH_ANYONECANPAY)) {
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tbuffer = Buffer.allocUnsafe(36 * this.ins.length);
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toffset = 0;
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this.ins.forEach(txIn => {
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writeSlice(txIn.hash);
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writeUInt32(txIn.index);
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});
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hashPrevouts = bcrypto.hash256(tbuffer);
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}
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if (
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!(hashType & Transaction.SIGHASH_ANYONECANPAY) &&
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(hashType & 0x1f) !== Transaction.SIGHASH_SINGLE &&
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(hashType & 0x1f) !== Transaction.SIGHASH_NONE
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) {
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tbuffer = Buffer.allocUnsafe(4 * this.ins.length);
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toffset = 0;
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this.ins.forEach(txIn => {
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writeUInt32(txIn.sequence);
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});
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hashSequence = bcrypto.hash256(tbuffer);
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}
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if (
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(hashType & 0x1f) !== Transaction.SIGHASH_SINGLE &&
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(hashType & 0x1f) !== Transaction.SIGHASH_NONE
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) {
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const txOutsSize = this.outs.reduce((sum, output) => {
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return sum + 8 + varSliceSize(output.script);
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}, 0);
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tbuffer = Buffer.allocUnsafe(txOutsSize);
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toffset = 0;
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this.outs.forEach(out => {
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writeUInt64(out.value);
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writeVarSlice(out.script);
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});
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hashOutputs = bcrypto.hash256(tbuffer);
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} else if (
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(hashType & 0x1f) === Transaction.SIGHASH_SINGLE &&
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inIndex < this.outs.length
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) {
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const output = this.outs[inIndex];
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tbuffer = Buffer.allocUnsafe(8 + varSliceSize(output.script));
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toffset = 0;
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writeUInt64(output.value);
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writeVarSlice(output.script);
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hashOutputs = bcrypto.hash256(tbuffer);
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}
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tbuffer = Buffer.allocUnsafe(156 + varSliceSize(prevOutScript));
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toffset = 0;
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const input = this.ins[inIndex];
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writeUInt32(this.version);
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writeSlice(hashPrevouts);
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writeSlice(hashSequence);
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writeSlice(input.hash);
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writeUInt32(input.index);
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writeVarSlice(prevOutScript);
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writeUInt64(value);
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writeUInt32(input.sequence);
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writeSlice(hashOutputs);
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writeUInt32(this.locktime);
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writeUInt32(hashType);
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return bcrypto.hash256(tbuffer);
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}
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getHash(forWitness?: boolean): Buffer {
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// wtxid for coinbase is always 32 bytes of 0x00
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if (forWitness && this.isCoinbase()) return Buffer.alloc(32, 0);
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return bcrypto.hash256(this.__toBuffer(undefined, undefined, forWitness));
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}
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getId(): string {
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// transaction hash's are displayed in reverse order
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return reverseBuffer(this.getHash(false)).toString('hex');
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}
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toBuffer(buffer?: Buffer, initialOffset?: number): Buffer {
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return this.__toBuffer(buffer, initialOffset, true);
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}
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toHex(): string {
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return this.toBuffer(undefined, undefined).toString('hex');
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}
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setInputScript(index: number, scriptSig: Buffer): void {
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typeforce(types.tuple(types.Number, types.Buffer), arguments);
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this.ins[index].script = scriptSig;
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}
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setWitness(index: number, witness: Buffer[]): void {
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typeforce(types.tuple(types.Number, [types.Buffer]), arguments);
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this.ins[index].witness = witness;
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}
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private __byteLength(_ALLOW_WITNESS: boolean): number {
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const hasWitnesses = _ALLOW_WITNESS && this.hasWitnesses();
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return (
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(hasWitnesses ? 10 : 8) +
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varuint.encodingLength(this.ins.length) +
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varuint.encodingLength(this.outs.length) +
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this.ins.reduce((sum, input) => {
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return sum + 40 + varSliceSize(input.script);
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}, 0) +
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this.outs.reduce((sum, output) => {
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return sum + 8 + varSliceSize(output.script);
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}, 0) +
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(hasWitnesses
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? this.ins.reduce((sum, input) => {
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return sum + vectorSize(input.witness);
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}, 0)
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: 0)
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);
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}
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private __toBuffer(
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buffer?: Buffer,
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initialOffset?: number,
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_ALLOW_WITNESS?: boolean,
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): Buffer {
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if (!buffer)
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buffer = Buffer.allocUnsafe(this.__byteLength(_ALLOW_WITNESS!)) as Buffer;
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let offset = initialOffset || 0;
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function writeSlice(slice: Buffer): void {
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offset += slice.copy(buffer!, offset);
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}
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function writeUInt8(i: number): void {
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offset = buffer!.writeUInt8(i, offset);
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}
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function writeUInt32(i: number): void {
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offset = buffer!.writeUInt32LE(i, offset);
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}
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function writeInt32(i: number): void {
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offset = buffer!.writeInt32LE(i, offset);
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}
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function writeUInt64(i: number): void {
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offset = bufferutils.writeUInt64LE(buffer!, i, offset);
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}
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function writeVarInt(i: number): void {
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varuint.encode(i, buffer, offset);
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offset += varuint.encode.bytes;
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}
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function writeVarSlice(slice: Buffer): void {
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writeVarInt(slice.length);
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writeSlice(slice);
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}
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function writeVector(vector: Buffer[]): void {
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writeVarInt(vector.length);
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vector.forEach(writeVarSlice);
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}
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writeInt32(this.version);
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const hasWitnesses = _ALLOW_WITNESS && this.hasWitnesses();
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if (hasWitnesses) {
|
|
writeUInt8(Transaction.ADVANCED_TRANSACTION_MARKER);
|
|
writeUInt8(Transaction.ADVANCED_TRANSACTION_FLAG);
|
|
}
|
|
|
|
writeVarInt(this.ins.length);
|
|
|
|
this.ins.forEach(txIn => {
|
|
writeSlice(txIn.hash);
|
|
writeUInt32(txIn.index);
|
|
writeVarSlice(txIn.script);
|
|
writeUInt32(txIn.sequence);
|
|
});
|
|
|
|
writeVarInt(this.outs.length);
|
|
this.outs.forEach(txOut => {
|
|
if (isOutput(txOut)) {
|
|
writeUInt64(txOut.value);
|
|
} else {
|
|
writeSlice((txOut as any).valueBuffer);
|
|
}
|
|
|
|
writeVarSlice(txOut.script);
|
|
});
|
|
|
|
if (hasWitnesses) {
|
|
this.ins.forEach(input => {
|
|
writeVector(input.witness);
|
|
});
|
|
}
|
|
|
|
writeUInt32(this.locktime);
|
|
|
|
// avoid slicing unless necessary
|
|
if (initialOffset !== undefined) return buffer.slice(initialOffset, offset);
|
|
return buffer;
|
|
}
|
|
}
|