import { strict as assert } from 'assert'; import sinon from 'sinon'; import EnsController from '.'; const ZERO_ADDRESS = '0x0000000000000000000000000000000000000000'; const ZERO_X_ERROR_ADDRESS = '0x'; describe('EnsController', function () { let currentChainId; let getCurrentChainId; let onNetworkDidChange; beforeEach(function () { currentChainId = '0x3'; getCurrentChainId = () => currentChainId; onNetworkDidChange = sinon.spy(); }); afterEach(function () { sinon.restore(); }); describe('#constructor', function () { it('should construct the controller given a provider and a network', async function () { const ens = new EnsController({ provider: {}, getCurrentChainId, onNetworkDidChange, }); assert.ok(ens._ens); }); it('should construct the controller given an existing ENS instance', async function () { const ens = new EnsController({ ens: {}, getCurrentChainId, onNetworkDidChange, }); assert.ok(ens._ens); }); }); describe('#reverseResolveName', function () { it('should resolve to an ENS name', async function () { const address = '0x8e5d75d60224ea0c33d0041e75de68b1c3cb6dd5'; const ens = new EnsController({ ens: { reverse: sinon.stub().withArgs(address).returns('peaksignal.eth'), lookup: sinon.stub().withArgs('peaksignal.eth').returns(address), }, onNetworkDidChange, getCurrentChainId, }); const name = await ens.reverseResolveAddress(address); assert.equal(name, 'peaksignal.eth'); }); it('should only resolve an ENS name once', async function () { const address = '0x8e5d75d60224ea0c33d0041e75de68b1c3cb6dd5'; const reverse = sinon.stub().withArgs(address).returns('peaksignal.eth'); const lookup = sinon.stub().withArgs('peaksignal.eth').returns(address); const ens = new EnsController({ ens: { reverse, lookup, }, getCurrentChainId, onNetworkDidChange, }); assert.equal(await ens.reverseResolveAddress(address), 'peaksignal.eth'); assert.equal(await ens.reverseResolveAddress(address), 'peaksignal.eth'); assert.ok(lookup.calledOnce); assert.ok(reverse.calledOnce); }); it('should fail if the name is registered to a different address than the reverse-resolved', async function () { const address = '0x8e5d75d60224ea0c33d0041e75de68b1c3cb6dd5'; const ens = new EnsController({ ens: { reverse: sinon.stub().withArgs(address).returns('peaksignal.eth'), lookup: sinon.stub().withArgs('peaksignal.eth').returns('0x00'), }, onNetworkDidChange, getCurrentChainId, }); const name = await ens.reverseResolveAddress(address); assert.strictEqual(name, undefined); }); it('should throw an error when the lookup resolves to the zero address', async function () { const address = '0x8e5d75d60224ea0c33d0041e75de68b1c3cb6dd5'; const ens = new EnsController({ ens: { reverse: sinon.stub().withArgs(address).returns('peaksignal.eth'), lookup: sinon.stub().withArgs('peaksignal.eth').returns(ZERO_ADDRESS), }, getCurrentChainId, onNetworkDidChange, }); try { await ens.reverseResolveAddress(address); assert.fail('#reverseResolveAddress did not throw'); } catch (e) { assert.ok(e); } }); it('should throw an error the lookup resolves to the zero x address', async function () { const address = '0x8e5d75d60224ea0c33d0041e75de68b1c3cb6dd5'; const ens = new EnsController({ ens: { reverse: sinon.stub().withArgs(address).returns('peaksignal.eth'), lookup: sinon .stub() .withArgs('peaksignal.eth') .returns(ZERO_X_ERROR_ADDRESS), }, onNetworkDidChange, getCurrentChainId, }); try { await ens.reverseResolveAddress(address); assert.fail('#reverseResolveAddress did not throw'); } catch (e) { assert.ok(e); } }); }); });