452 lines
13 KiB
TypeScript
452 lines
13 KiB
TypeScript
"use strict";
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import { Logger } from "@ethersproject/logger";
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import { version } from "./_version";
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const logger = new Logger(version);
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///////////////////////////////
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// Exported Types
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export type Bytes = ArrayLike<number>;
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export type BytesLike = Bytes | string;
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export type DataOptions = {
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allowMissingPrefix?: boolean;
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hexPad?: "left" | "right" | null;
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};
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export interface Hexable {
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toHexString(): string;
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}
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/*
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export interface HexString {
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length: number;
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substring: (start: number, end?: number) => string;
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[index: number]: string;
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}
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*/
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export type SignatureLike = {
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r: string;
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s?: string;
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_vs?: string,
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recoveryParam?: number;
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v?: number;
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} | BytesLike;
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export interface Signature {
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r: string;
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s: string;
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_vs: string,
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recoveryParam: number;
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v: number;
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}
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///////////////////////////////
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function isHexable(value: any): value is Hexable {
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return !!(value.toHexString);
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}
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function addSlice(array: Uint8Array): Uint8Array {
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if (array.slice) { return array; }
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array.slice = function() {
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const args = Array.prototype.slice.call(arguments);
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return addSlice(new Uint8Array(Array.prototype.slice.apply(array, args)));
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}
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return array;
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}
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export function isBytesLike(value: any): value is BytesLike {
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return ((isHexString(value) && !(value.length % 2)) || isBytes(value));
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}
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export function isBytes(value: any): value is Bytes {
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if (value == null) { return false; }
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if (value.constructor === Uint8Array) { return true; }
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if (typeof(value) === "string") { return false; }
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if (value.length == null) { return false; }
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for (let i = 0; i < value.length; i++) {
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const v = value[i];
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if (v < 0 || v >= 256 || (v % 1)) {
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return false;
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}
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}
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return true;
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}
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export function arrayify(value: BytesLike | Hexable | number, options?: DataOptions): Uint8Array {
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if (!options) { options = { }; }
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if (typeof(value) === "number") {
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logger.checkSafeUint53(value, "invalid arrayify value");
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const result = [];
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while (value) {
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result.unshift(value & 0xff);
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value = parseInt(String(value / 256));
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}
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if (result.length === 0) { result.push(0); }
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return addSlice(new Uint8Array(result));
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}
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if (options.allowMissingPrefix && typeof(value) === "string" && value.substring(0, 2) !== "0x") {
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value = "0x" + value;
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}
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if (isHexable(value)) { value = value.toHexString(); }
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if (isHexString(value)) {
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let hex = (<string>value).substring(2);
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if (hex.length % 2) {
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if (options.hexPad === "left") {
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hex = "0x0" + hex.substring(2);
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} else if (options.hexPad === "right") {
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hex += "0";
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} else {
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logger.throwArgumentError("hex data is odd-length", "value", value);
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}
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}
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const result = [];
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for (let i = 0; i < hex.length; i += 2) {
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result.push(parseInt(hex.substring(i, i + 2), 16));
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}
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return addSlice(new Uint8Array(result));
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}
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if (isBytes(value)) {
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return addSlice(new Uint8Array(value));
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}
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return logger.throwArgumentError("invalid arrayify value", "value", value);
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}
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export function concat(items: Array<BytesLike>): Uint8Array {
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const objects = items.map(item => arrayify(item));
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const length = objects.reduce((accum, item) => (accum + item.length), 0);
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const result = new Uint8Array(length);
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objects.reduce((offset, object) => {
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result.set(object, offset);
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return offset + object.length;
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}, 0);
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return addSlice(result);
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}
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export function stripZeros(value: BytesLike): Uint8Array {
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let result: Uint8Array = arrayify(value);
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if (result.length === 0) { return result; }
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// Find the first non-zero entry
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let start = 0;
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while (start < result.length && result[start] === 0) { start++ }
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// If we started with zeros, strip them
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if (start) {
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result = result.slice(start);
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}
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return result;
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}
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export function zeroPad(value: BytesLike, length: number): Uint8Array {
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value = arrayify(value);
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if (value.length > length) {
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logger.throwArgumentError("value out of range", "value", arguments[0]);
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}
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const result = new Uint8Array(length);
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result.set(value, length - value.length);
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return addSlice(result);
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}
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export function isHexString(value: any, length?: number): boolean {
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if (typeof(value) !== "string" || !value.match(/^0x[0-9A-Fa-f]*$/)) {
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return false
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}
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if (length && value.length !== 2 + 2 * length) { return false; }
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return true;
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}
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const HexCharacters: string = "0123456789abcdef";
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export function hexlify(value: BytesLike | Hexable | number, options?: DataOptions): string {
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if (!options) { options = { }; }
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if (typeof(value) === "number") {
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logger.checkSafeUint53(value, "invalid hexlify value");
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let hex = "";
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while (value) {
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hex = HexCharacters[value & 0x0f] + hex;
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value = Math.floor(value / 16);
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}
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if (hex.length) {
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if (hex.length % 2) { hex = "0" + hex; }
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return "0x" + hex;
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}
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return "0x00";
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}
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if (options.allowMissingPrefix && typeof(value) === "string" && value.substring(0, 2) !== "0x") {
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value = "0x" + value;
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}
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if (isHexable(value)) { return value.toHexString(); }
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if (isHexString(value)) {
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if ((<string>value).length % 2) {
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if (options.hexPad === "left") {
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value = "0x0" + (<string>value).substring(2);
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} else if (options.hexPad === "right") {
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value += "0";
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} else {
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logger.throwArgumentError("hex data is odd-length", "value", value);
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}
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}
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return (<string>value).toLowerCase();
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}
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if (isBytes(value)) {
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let result = "0x";
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for (let i = 0; i < value.length; i++) {
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let v = value[i];
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result += HexCharacters[(v & 0xf0) >> 4] + HexCharacters[v & 0x0f];
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}
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return result;
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}
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return logger.throwArgumentError("invalid hexlify value", "value", value);
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}
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/*
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function unoddify(value: BytesLike | Hexable | number): BytesLike | Hexable | number {
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if (typeof(value) === "string" && value.length % 2 && value.substring(0, 2) === "0x") {
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return "0x0" + value.substring(2);
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}
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return value;
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}
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*/
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export function hexDataLength(data: BytesLike) {
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if (typeof(data) !== "string") {
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data = hexlify(data);
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} else if (!isHexString(data) || (data.length % 2)) {
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return null;
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}
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return (data.length - 2) / 2;
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}
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export function hexDataSlice(data: BytesLike, offset: number, endOffset?: number): string {
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if (typeof(data) !== "string") {
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data = hexlify(data);
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} else if (!isHexString(data) || (data.length % 2)) {
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logger.throwArgumentError("invalid hexData", "value", data );
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}
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offset = 2 + 2 * offset;
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if (endOffset != null) {
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return "0x" + data.substring(offset, 2 + 2 * endOffset);
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}
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return "0x" + data.substring(offset);
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}
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export function hexConcat(items: Array<BytesLike>): string {
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let result = "0x";
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items.forEach((item) => {
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result += hexlify(item).substring(2);
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});
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return result;
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}
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export function hexValue(value: BytesLike | Hexable | number): string {
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const trimmed = hexStripZeros(hexlify(value, { hexPad: "left" }));
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if (trimmed === "0x") { return "0x0"; }
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return trimmed;
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}
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export function hexStripZeros(value: BytesLike): string {
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if (typeof(value) !== "string") { value = hexlify(value); }
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if (!isHexString(value)) {
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logger.throwArgumentError("invalid hex string", "value", value);
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}
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value = value.substring(2);
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let offset = 0;
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while (offset < value.length && value[offset] === "0") { offset++; }
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return "0x" + value.substring(offset);
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}
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export function hexZeroPad(value: BytesLike, length: number): string {
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if (typeof(value) !== "string") {
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value = hexlify(value);
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} else if (!isHexString(value)) {
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logger.throwArgumentError("invalid hex string", "value", value);
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}
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if (value.length > 2 * length + 2) {
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logger.throwArgumentError("value out of range", "value", arguments[1]);
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}
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while (value.length < 2 * length + 2) {
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value = "0x0" + value.substring(2);
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}
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return value;
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}
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export function splitSignature(signature: SignatureLike): Signature {
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const result = {
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r: "0x",
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s: "0x",
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_vs: "0x",
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recoveryParam: 0,
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v: 0
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};
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if (isBytesLike(signature)) {
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const bytes: Uint8Array = arrayify(signature);
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if (bytes.length !== 65) {
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logger.throwArgumentError("invalid signature string; must be 65 bytes", "signature", signature);
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}
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// Get the r, s and v
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result.r = hexlify(bytes.slice(0, 32));
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result.s = hexlify(bytes.slice(32, 64));
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result.v = bytes[64];
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// Allow a recid to be used as the v
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if (result.v < 27) {
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if (result.v === 0 || result.v === 1) {
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result.v += 27;
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} else {
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logger.throwArgumentError("signature invalid v byte", "signature", signature);
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}
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}
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// Compute recoveryParam from v
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result.recoveryParam = 1 - (result.v % 2);
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// Compute _vs from recoveryParam and s
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if (result.recoveryParam) { bytes[32] |= 0x80; }
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result._vs = hexlify(bytes.slice(32, 64))
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} else {
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result.r = signature.r;
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result.s = signature.s;
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result.v = signature.v;
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result.recoveryParam = signature.recoveryParam;
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result._vs = signature._vs;
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// If the _vs is available, use it to populate missing s, v and recoveryParam
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// and verify non-missing s, v and recoveryParam
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if (result._vs != null) {
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const vs = zeroPad(arrayify(result._vs), 32);
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result._vs = hexlify(vs);
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// Set or check the recid
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const recoveryParam = ((vs[0] >= 128) ? 1: 0);
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if (result.recoveryParam == null) {
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result.recoveryParam = recoveryParam;
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} else if (result.recoveryParam !== recoveryParam) {
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logger.throwArgumentError("signature recoveryParam mismatch _vs", "signature", signature);
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}
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// Set or check the s
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vs[0] &= 0x7f;
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const s = hexlify(vs);
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if (result.s == null) {
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result.s = s;
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} else if (result.s !== s) {
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logger.throwArgumentError("signature v mismatch _vs", "signature", signature);
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}
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}
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// Use recid and v to populate each other
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if (result.recoveryParam == null) {
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if (result.v == null) {
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logger.throwArgumentError("signature missing v and recoveryParam", "signature", signature);
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} else {
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result.recoveryParam = 1 - (result.v % 2);
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}
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} else {
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if (result.v == null) {
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result.v = 27 + result.recoveryParam;
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} else if (result.recoveryParam !== (1 - (result.v % 2))) {
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logger.throwArgumentError("signature recoveryParam mismatch v", "signature", signature);
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}
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}
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if (result.r == null || !isHexString(result.r)) {
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logger.throwArgumentError("signature missing or invalid r", "signature", signature);
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} else {
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result.r = hexZeroPad(result.r, 32);
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}
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if (result.s == null || !isHexString(result.s)) {
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logger.throwArgumentError("signature missing or invalid s", "signature", signature);
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} else {
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result.s = hexZeroPad(result.s, 32);
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}
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const vs = arrayify(result.s);
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if (vs[0] >= 128) {
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logger.throwArgumentError("signature s out of range", "signature", signature);
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}
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if (result.recoveryParam) { vs[0] |= 0x80; }
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const _vs = hexlify(vs);
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if (result._vs) {
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if (!isHexString(result._vs)) {
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logger.throwArgumentError("signature invalid _vs", "signature", signature);
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}
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result._vs = hexZeroPad(result._vs, 32);
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}
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// Set or check the _vs
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if (result._vs == null) {
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result._vs = _vs;
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} else if (result._vs !== _vs) {
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logger.throwArgumentError("signature _vs mismatch v and s", "signature", signature);
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}
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}
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return result;
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}
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export function joinSignature(signature: SignatureLike): string {
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signature = splitSignature(signature);
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return hexlify(concat([
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signature.r,
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signature.s,
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(signature.recoveryParam ? "0x1c": "0x1b")
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]));
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}
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