502 lines
20 KiB
JavaScript
502 lines
20 KiB
JavaScript
"use strict";
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/**
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* ENS is a service which allows easy-to-remember names to map to
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* network addresses.
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*
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* @_section: api/providers/ens-resolver:ENS Resolver [about-ens-rsolver]
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*/
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Object.defineProperty(exports, "__esModule", { value: true });
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exports.EnsResolver = exports.BasicMulticoinProviderPlugin = exports.MulticoinProviderPlugin = void 0;
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const index_js_1 = require("../address/index.js");
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const index_js_2 = require("../constants/index.js");
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const index_js_3 = require("../contract/index.js");
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const index_js_4 = require("../hash/index.js");
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const index_js_5 = require("../utils/index.js");
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// @TODO: This should use the fetch-data:ipfs gateway
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// Trim off the ipfs:// prefix and return the default gateway URL
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function getIpfsLink(link) {
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if (link.match(/^ipfs:\/\/ipfs\//i)) {
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link = link.substring(12);
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}
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else if (link.match(/^ipfs:\/\//i)) {
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link = link.substring(7);
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}
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else {
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(0, index_js_5.assertArgument)(false, "unsupported IPFS format", "link", link);
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}
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return `https:/\/gateway.ipfs.io/ipfs/${link}`;
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}
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;
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;
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/**
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* A provider plugin super-class for processing multicoin address types.
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*/
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class MulticoinProviderPlugin {
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/**
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* The name.
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*/
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name;
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/**
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* Creates a new **MulticoinProviderPluing** for %%name%%.
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*/
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constructor(name) {
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(0, index_js_5.defineProperties)(this, { name });
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}
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connect(proivder) {
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return this;
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}
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/**
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* Returns ``true`` if %%coinType%% is supported by this plugin.
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*/
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supportsCoinType(coinType) {
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return false;
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}
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/**
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* Resovles to the encoded %%address%% for %%coinType%%.
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*/
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async encodeAddress(coinType, address) {
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throw new Error("unsupported coin");
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}
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/**
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* Resovles to the decoded %%data%% for %%coinType%%.
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*/
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async decodeAddress(coinType, data) {
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throw new Error("unsupported coin");
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}
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}
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exports.MulticoinProviderPlugin = MulticoinProviderPlugin;
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const BasicMulticoinPluginId = "org.ethers.plugins.provider.BasicMulticoin";
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/**
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* A **BasicMulticoinProviderPlugin** provides service for common
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* coin types, which do not require additional libraries to encode or
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* decode.
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*/
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class BasicMulticoinProviderPlugin extends MulticoinProviderPlugin {
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/**
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* Creates a new **BasicMulticoinProviderPlugin**.
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*/
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constructor() {
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super(BasicMulticoinPluginId);
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}
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}
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exports.BasicMulticoinProviderPlugin = BasicMulticoinProviderPlugin;
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const matcherIpfs = new RegExp("^(ipfs):/\/(.*)$", "i");
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const matchers = [
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new RegExp("^(https):/\/(.*)$", "i"),
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new RegExp("^(data):(.*)$", "i"),
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matcherIpfs,
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new RegExp("^eip155:[0-9]+/(erc[0-9]+):(.*)$", "i"),
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];
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/**
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* A connected object to a resolved ENS name resolver, which can be
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* used to query additional details.
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*/
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class EnsResolver {
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/**
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* The connected provider.
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*/
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provider;
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/**
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* The address of the resolver.
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*/
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address;
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/**
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* The name this resolver was resolved against.
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*/
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name;
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// For EIP-2544 names, the ancestor that provided the resolver
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#supports2544;
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#resolver;
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constructor(provider, address, name) {
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(0, index_js_5.defineProperties)(this, { provider, address, name });
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this.#supports2544 = null;
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this.#resolver = new index_js_3.Contract(address, [
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"function supportsInterface(bytes4) view returns (bool)",
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"function resolve(bytes, bytes) view returns (bytes)",
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"function addr(bytes32) view returns (address)",
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"function addr(bytes32, uint) view returns (bytes)",
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"function text(bytes32, string) view returns (string)",
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"function contenthash(bytes32) view returns (bytes)",
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], provider);
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}
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/**
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* Resolves to true if the resolver supports wildcard resolution.
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*/
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async supportsWildcard() {
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if (this.#supports2544 == null) {
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this.#supports2544 = (async () => {
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try {
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return await this.#resolver.supportsInterface("0x9061b923");
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}
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catch (error) {
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// Wildcard resolvers must understand supportsInterface
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// and return true.
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if ((0, index_js_5.isError)(error, "CALL_EXCEPTION")) {
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return false;
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}
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// Let future attempts try again...
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this.#supports2544 = null;
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throw error;
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}
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})();
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}
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return await this.#supports2544;
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}
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async #fetch(funcName, params) {
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params = (params || []).slice();
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const iface = this.#resolver.interface;
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// The first parameters is always the nodehash
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params.unshift((0, index_js_4.namehash)(this.name));
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let fragment = null;
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if (await this.supportsWildcard()) {
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fragment = iface.getFunction(funcName);
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(0, index_js_5.assert)(fragment, "missing fragment", "UNKNOWN_ERROR", {
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info: { funcName }
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});
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params = [
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(0, index_js_4.dnsEncode)(this.name),
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iface.encodeFunctionData(fragment, params)
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];
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funcName = "resolve(bytes,bytes)";
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}
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params.push({
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enableCcipRead: true
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});
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try {
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const result = await this.#resolver[funcName](...params);
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if (fragment) {
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return iface.decodeFunctionResult(fragment, result)[0];
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}
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return result;
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}
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catch (error) {
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if (!(0, index_js_5.isError)(error, "CALL_EXCEPTION")) {
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throw error;
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}
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}
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return null;
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}
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/**
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* Resolves to the address for %%coinType%% or null if the
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* provided %%coinType%% has not been configured.
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*/
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async getAddress(coinType) {
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if (coinType == null) {
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coinType = 60;
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}
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if (coinType === 60) {
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try {
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const result = await this.#fetch("addr(bytes32)");
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// No address
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if (result == null || result === index_js_2.ZeroAddress) {
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return null;
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}
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return result;
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}
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catch (error) {
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if ((0, index_js_5.isError)(error, "CALL_EXCEPTION")) {
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return null;
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}
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throw error;
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}
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}
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// Try decoding its EVM canonical chain as an EVM chain address first
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if (coinType >= 0 && coinType < 0x80000000) {
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let ethCoinType = coinType + 0x80000000;
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const data = await this.#fetch("addr(bytes32,uint)", [ethCoinType]);
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if ((0, index_js_5.isHexString)(data, 20)) {
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return (0, index_js_1.getAddress)(data);
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}
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}
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let coinPlugin = null;
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for (const plugin of this.provider.plugins) {
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if (!(plugin instanceof MulticoinProviderPlugin)) {
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continue;
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}
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if (plugin.supportsCoinType(coinType)) {
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coinPlugin = plugin;
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break;
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}
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}
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if (coinPlugin == null) {
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return null;
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}
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// keccak256("addr(bytes32,uint256")
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const data = await this.#fetch("addr(bytes32,uint)", [coinType]);
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// No address
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if (data == null || data === "0x") {
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return null;
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}
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// Compute the address
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const address = await coinPlugin.decodeAddress(coinType, data);
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if (address != null) {
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return address;
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}
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(0, index_js_5.assert)(false, `invalid coin data`, "UNSUPPORTED_OPERATION", {
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operation: `getAddress(${coinType})`,
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info: { coinType, data }
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});
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}
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/**
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* Resolves to the EIP-634 text record for %%key%%, or ``null``
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* if unconfigured.
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*/
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async getText(key) {
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const data = await this.#fetch("text(bytes32,string)", [key]);
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if (data == null || data === "0x") {
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return null;
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}
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return data;
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}
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/**
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* Rsolves to the content-hash or ``null`` if unconfigured.
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*/
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async getContentHash() {
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// keccak256("contenthash()")
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const data = await this.#fetch("contenthash(bytes32)");
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// No contenthash
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if (data == null || data === "0x") {
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return null;
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}
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// IPFS (CID: 1, Type: 70=DAG-PB, 72=libp2p-key)
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const ipfs = data.match(/^0x(e3010170|e5010172)(([0-9a-f][0-9a-f])([0-9a-f][0-9a-f])([0-9a-f]*))$/);
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if (ipfs) {
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const scheme = (ipfs[1] === "e3010170") ? "ipfs" : "ipns";
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const length = parseInt(ipfs[4], 16);
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if (ipfs[5].length === length * 2) {
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return `${scheme}:/\/${(0, index_js_5.encodeBase58)("0x" + ipfs[2])}`;
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}
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}
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// Swarm (CID: 1, Type: swarm-manifest; hash/length hard-coded to keccak256/32)
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const swarm = data.match(/^0xe40101fa011b20([0-9a-f]*)$/);
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if (swarm && swarm[1].length === 64) {
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return `bzz:/\/${swarm[1]}`;
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}
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(0, index_js_5.assert)(false, `invalid or unsupported content hash data`, "UNSUPPORTED_OPERATION", {
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operation: "getContentHash()",
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info: { data }
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});
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}
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/**
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* Resolves to the avatar url or ``null`` if the avatar is either
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* unconfigured or incorrectly configured (e.g. references an NFT
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* not owned by the address).
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*
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* If diagnosing issues with configurations, the [[_getAvatar]]
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* method may be useful.
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*/
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async getAvatar() {
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const avatar = await this._getAvatar();
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return avatar.url;
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}
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/**
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* When resolving an avatar, there are many steps involved, such
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* fetching metadata and possibly validating ownership of an
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* NFT.
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*
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* This method can be used to examine each step and the value it
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* was working from.
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*/
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async _getAvatar() {
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const linkage = [{ type: "name", value: this.name }];
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try {
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// test data for ricmoo.eth
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//const avatar = "eip155:1/erc721:0x265385c7f4132228A0d54EB1A9e7460b91c0cC68/29233";
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const avatar = await this.getText("avatar");
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if (avatar == null) {
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linkage.push({ type: "!avatar", value: "" });
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return { url: null, linkage };
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}
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linkage.push({ type: "avatar", value: avatar });
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for (let i = 0; i < matchers.length; i++) {
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const match = avatar.match(matchers[i]);
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if (match == null) {
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continue;
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}
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const scheme = match[1].toLowerCase();
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switch (scheme) {
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case "https":
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case "data":
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linkage.push({ type: "url", value: avatar });
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return { linkage, url: avatar };
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case "ipfs": {
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const url = getIpfsLink(avatar);
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linkage.push({ type: "ipfs", value: avatar });
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linkage.push({ type: "url", value: url });
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return { linkage, url };
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}
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case "erc721":
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case "erc1155": {
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// Depending on the ERC type, use tokenURI(uint256) or url(uint256)
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const selector = (scheme === "erc721") ? "tokenURI(uint256)" : "uri(uint256)";
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linkage.push({ type: scheme, value: avatar });
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// The owner of this name
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const owner = await this.getAddress();
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if (owner == null) {
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linkage.push({ type: "!owner", value: "" });
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return { url: null, linkage };
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}
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const comps = (match[2] || "").split("/");
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if (comps.length !== 2) {
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linkage.push({ type: `!${scheme}caip`, value: (match[2] || "") });
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return { url: null, linkage };
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}
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const tokenId = comps[1];
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const contract = new index_js_3.Contract(comps[0], [
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// ERC-721
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"function tokenURI(uint) view returns (string)",
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"function ownerOf(uint) view returns (address)",
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// ERC-1155
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"function uri(uint) view returns (string)",
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"function balanceOf(address, uint256) view returns (uint)"
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], this.provider);
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// Check that this account owns the token
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if (scheme === "erc721") {
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const tokenOwner = await contract.ownerOf(tokenId);
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if (owner !== tokenOwner) {
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linkage.push({ type: "!owner", value: tokenOwner });
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return { url: null, linkage };
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}
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linkage.push({ type: "owner", value: tokenOwner });
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}
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else if (scheme === "erc1155") {
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const balance = await contract.balanceOf(owner, tokenId);
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if (!balance) {
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linkage.push({ type: "!balance", value: "0" });
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return { url: null, linkage };
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}
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linkage.push({ type: "balance", value: balance.toString() });
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}
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// Call the token contract for the metadata URL
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let metadataUrl = await contract[selector](tokenId);
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if (metadataUrl == null || metadataUrl === "0x") {
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linkage.push({ type: "!metadata-url", value: "" });
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return { url: null, linkage };
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}
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linkage.push({ type: "metadata-url-base", value: metadataUrl });
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// ERC-1155 allows a generic {id} in the URL
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if (scheme === "erc1155") {
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metadataUrl = metadataUrl.replace("{id}", (0, index_js_5.toBeHex)(tokenId, 32).substring(2));
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linkage.push({ type: "metadata-url-expanded", value: metadataUrl });
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}
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// Transform IPFS metadata links
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if (metadataUrl.match(/^ipfs:/i)) {
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metadataUrl = getIpfsLink(metadataUrl);
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}
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linkage.push({ type: "metadata-url", value: metadataUrl });
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// Get the token metadata
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let metadata = {};
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const response = await (new index_js_5.FetchRequest(metadataUrl)).send();
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response.assertOk();
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try {
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metadata = response.bodyJson;
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}
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catch (error) {
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try {
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linkage.push({ type: "!metadata", value: response.bodyText });
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}
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catch (error) {
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const bytes = response.body;
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if (bytes) {
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linkage.push({ type: "!metadata", value: (0, index_js_5.hexlify)(bytes) });
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}
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return { url: null, linkage };
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}
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return { url: null, linkage };
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}
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if (!metadata) {
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linkage.push({ type: "!metadata", value: "" });
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return { url: null, linkage };
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}
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linkage.push({ type: "metadata", value: JSON.stringify(metadata) });
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// Pull the image URL out
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let imageUrl = metadata.image;
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if (typeof (imageUrl) !== "string") {
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linkage.push({ type: "!imageUrl", value: "" });
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return { url: null, linkage };
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}
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if (imageUrl.match(/^(https:\/\/|data:)/i)) {
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// Allow
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}
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else {
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// Transform IPFS link to gateway
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const ipfs = imageUrl.match(matcherIpfs);
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if (ipfs == null) {
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linkage.push({ type: "!imageUrl-ipfs", value: imageUrl });
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return { url: null, linkage };
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}
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linkage.push({ type: "imageUrl-ipfs", value: imageUrl });
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imageUrl = getIpfsLink(imageUrl);
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}
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linkage.push({ type: "url", value: imageUrl });
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return { linkage, url: imageUrl };
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}
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}
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}
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}
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catch (error) { }
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return { linkage, url: null };
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}
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static async getEnsAddress(provider) {
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const network = await provider.getNetwork();
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const ensPlugin = network.getPlugin("org.ethers.plugins.network.Ens");
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// No ENS...
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(0, index_js_5.assert)(ensPlugin, "network does not support ENS", "UNSUPPORTED_OPERATION", {
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operation: "getEnsAddress", info: { network }
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});
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return ensPlugin.address;
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}
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static async #getResolver(provider, name) {
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const ensAddr = await EnsResolver.getEnsAddress(provider);
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try {
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const contract = new index_js_3.Contract(ensAddr, [
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"function resolver(bytes32) view returns (address)"
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], provider);
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const addr = await contract.resolver((0, index_js_4.namehash)(name), {
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enableCcipRead: true
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});
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if (addr === index_js_2.ZeroAddress) {
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return null;
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}
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return addr;
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}
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catch (error) {
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// ENS registry cannot throw errors on resolver(bytes32),
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// so probably a link error
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throw error;
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}
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return null;
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}
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/**
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* Resolve to the ENS resolver for %%name%% using %%provider%% or
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* ``null`` if unconfigured.
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*/
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static async fromName(provider, name) {
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let currentName = name;
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while (true) {
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if (currentName === "" || currentName === ".") {
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return null;
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}
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// Optimization since the eth node cannot change and does
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// not have a wildcard resolver
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if (name !== "eth" && currentName === "eth") {
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return null;
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}
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// Check the current node for a resolver
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const addr = await EnsResolver.#getResolver(provider, currentName);
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// Found a resolver!
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if (addr != null) {
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const resolver = new EnsResolver(provider, addr, name);
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// Legacy resolver found, using EIP-2544 so it isn't safe to use
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if (currentName !== name && !(await resolver.supportsWildcard())) {
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return null;
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}
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return resolver;
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}
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// Get the parent node
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currentName = currentName.split(".").slice(1).join(".");
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}
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}
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}
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exports.EnsResolver = EnsResolver;
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//# sourceMappingURL=ens-resolver.js.map
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