'use strict';
Object.defineProperty(exports, '__esModule', { value: true });
exports.BufferReader = exports.BufferWriter = exports.cloneBuffer = exports.reverseBuffer = exports.writeUInt64LE = exports.readUInt64LE = exports.varuint = void 0;
const types = require('./types');
const { typeforce } = types;
const varuint = require('varuint-bitcoin');
exports.varuint = varuint;
// https://github.com/feross/buffer/blob/master/index.js#L1127
function verifuint(value, max) {
if (typeof value !== 'number')
throw new Error('cannot write a non-number as a number');
if (value < 0)
throw new Error('specified a negative value for writing an unsigned value');
if (value > max) throw new Error('RangeError: value out of range');
if (Math.floor(value) !== value)
throw new Error('value has a fractional component');
}
function readUInt64LE(buffer, offset) {
const a = buffer.readUInt32LE(offset);
let b = buffer.readUInt32LE(offset + 4);
b *= 0x100000000;
verifuint(b + a, 0x001fffffffffffff);
return b + a;
}
exports.readUInt64LE = readUInt64LE;
function writeUInt64LE(buffer, value, offset) {
verifuint(value, 0x001fffffffffffff);
buffer.writeInt32LE(value & -1, offset);
buffer.writeUInt32LE(Math.floor(value / 0x100000000), offset + 4);
return offset + 8;
}
exports.writeUInt64LE = writeUInt64LE;
function reverseBuffer(buffer) {
if (buffer.length < 1) return buffer;
let j = buffer.length - 1;
let tmp = 0;
for (let i = 0; i < buffer.length / 2; i++) {
tmp = buffer[i];
buffer[i] = buffer[j];
buffer[j] = tmp;
j--;
}
return buffer;
}
exports.reverseBuffer = reverseBuffer;
function cloneBuffer(buffer) {
const clone = Buffer.allocUnsafe(buffer.length);
buffer.copy(clone);
return clone;
}
exports.cloneBuffer = cloneBuffer;
/**
* Helper class for serialization of bitcoin data types into a pre-allocated buffer.
*/
class BufferWriter {
constructor(buffer, offset = 0) {
this.buffer = buffer;
this.offset = offset;
typeforce(types.tuple(types.Buffer, types.UInt32), [buffer, offset]);
}
writeUInt8(i) {
this.offset = this.buffer.writeUInt8(i, this.offset);
}
writeInt32(i) {
this.offset = this.buffer.writeInt32LE(i, this.offset);
}
writeUInt32(i) {
this.offset = this.buffer.writeUInt32LE(i, this.offset);
}
writeUInt64(i) {
this.offset = writeUInt64LE(this.buffer, i, this.offset);
}
writeVarInt(i) {
varuint.encode(i, this.buffer, this.offset);
this.offset += varuint.encode.bytes;
}
writeSlice(slice) {
if (this.buffer.length < this.offset + slice.length) {
throw new Error('Cannot write slice out of bounds');
}
this.offset += slice.copy(this.buffer, this.offset);
}
writeVarSlice(slice) {
this.writeVarInt(slice.length);
this.writeSlice(slice);
}
writeVector(vector) {
this.writeVarInt(vector.length);
vector.forEach(buf => this.writeVarSlice(buf));
}
}
exports.BufferWriter = BufferWriter;
/**
* Helper class for reading of bitcoin data types from a buffer.
*/
class BufferReader {
constructor(buffer, offset = 0) {
this.buffer = buffer;
this.offset = offset;
typeforce(types.tuple(types.Buffer, types.UInt32), [buffer, offset]);
}
readUInt8() {
const result = this.buffer.readUInt8(this.offset);
this.offset++;
return result;
}
readInt32() {
const result = this.buffer.readInt32LE(this.offset);
this.offset += 4;
return result;
}
readUInt32() {
const result = this.buffer.readUInt32LE(this.offset);
this.offset += 4;
return result;
}
readUInt64() {
const result = readUInt64LE(this.buffer, this.offset);
this.offset += 8;
return result;
}
readVarInt() {
const vi = varuint.decode(this.buffer, this.offset);
this.offset += varuint.decode.bytes;
return vi;
}
readSlice(n) {
if (this.buffer.length < this.offset + n) {
throw new Error('Cannot read slice out of bounds');
}
const result = this.buffer.slice(this.offset, this.offset + n);
this.offset += n;
return result;
}
readVarSlice() {
return this.readSlice(this.readVarInt());
}
readVector() {
const count = this.readVarInt();
const vector = [];
for (let i = 0; i < count; i++) vector.push(this.readVarSlice());
return vector;
}
}
exports.BufferReader = BufferReader;