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https://github.com/balena-os/balena-supervisor.git
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c1e6dadeb4
This sets up the new `test/unit` and `test/integration` folders and starts classification of some of the test files. Note that unit tests include, `fs-utils` and `system-info` tests. While these tests interact with the filesystem, the implementation of these modules is simple enough, and the tests are fast enough to allow these tests to fall under the `unit` test category (according to test/README) Change-type: patch
217 lines
6.2 KiB
TypeScript
217 lines
6.2 KiB
TypeScript
import { assert, expect } from 'chai';
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import * as sinon from 'sinon';
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import { StatusError } from '~/lib/errors';
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import { withBackoff, OnFailureInfo } from '~/lib/backoff';
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const DEFAULT_OPTIONS = {
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maxRetries: 5,
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maxDelay: 900000, // 15 minutes
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minDelay: 10000, // 10 seconds
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};
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describe('lib/backoff', async () => {
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let clock: sinon.SinonFakeTimers;
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beforeEach(() => {
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clock = sinon.useFakeTimers();
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});
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afterEach(() => {
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clock.restore();
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});
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it('resolves after 3 retries', async () => {
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// Create a function that will fail 3 times so it succeeds on the 4th
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const failer = new Failer(3);
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// Wrap function withBackoff
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const fnWithBackoff = withBackoff(async () => {
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return failer.willResolve('fails 3 times then resolves on 4th');
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}, DEFAULT_OPTIONS);
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// Call function and allow clock to trigger all events
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clock.runAllAsync();
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await expect(fnWithBackoff()).to.eventually.equal(
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'fails 3 times then resolves on 4th',
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);
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// Check that function was called 4 times (failed 3 times, succeeds on 4th)
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expect(failer.callCount).to.equal(4);
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});
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it('should not call the function before minDelay', async () => {
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const failer = new Failer(3);
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const minDelay = Math.floor(Math.random() * 1000);
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const myBackoffFunc = withBackoff(
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async () => {
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return failer.willResolve('ok');
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},
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{
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minDelay,
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},
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);
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// Function should have been called 0 times to start
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expect(failer.callCount).to.equal(0);
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// Call function
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myBackoffFunc();
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// Check that function was run at least once
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expect(failer.callCount).to.equal(1);
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// Elapse some time but not enough to be minDelay
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await clock.tickAsync(minDelay - 1);
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// Check that the function still has only been called 1 time
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expect(failer.callCount).to.equal(1);
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// Elapse exactly minDelay so function is called once more
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await clock.tickAsync(minDelay + 1);
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// Check that function was called twice
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expect(failer.callCount).to.equal(2);
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});
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it('backs off with exponential delay', async () => {
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const failer = new Failer(3);
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const minDelay = Math.floor(Math.random() * 1000);
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const myBackoffFunc = withBackoff(
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async () => {
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return failer.willResolve('ok');
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},
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{
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minDelay,
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maxDelay: 5000000,
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},
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);
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expect(failer.callCount).to.equal(0);
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// Call function
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const p = myBackoffFunc();
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// Function is called immediately
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expect(failer.callCount).to.equal(1);
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// First delay is equal to minDelay
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await clock.tickAsync(minDelay);
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// Should have been called again
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expect(failer.callCount).to.equal(2);
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// Tick exponential time
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await clock.tickAsync(minDelay * 2);
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// Should have been called again
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expect(failer.callCount).to.equal(3);
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// Tick exponential time
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await clock.tickAsync(minDelay * 2 * 2);
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// Function should be fulfilled by now
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await expect(p).to.be.fulfilled;
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expect(failer.callCount).to.equal(4);
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});
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it('never exceeds maxRetries', async () => {
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// Make the failer fail 100 times (more then maxRetries)
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const failer = new Failer(100);
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const fnWithBackoff = withBackoff(async () => {
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return failer.willResolve('ok');
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}, DEFAULT_OPTIONS);
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clock.runAllAsync();
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// Call the function
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await expect(fnWithBackoff()).to.eventually.be.rejectedWith(
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`Reached max number of retries: ${DEFAULT_OPTIONS.maxRetries}`,
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);
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});
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it('provides correct info within onFailure callback', async () => {
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// Create a function that will fail 3 times so it succeeds on the 4th
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const failer = new Failer(3);
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const minDelay = Math.floor(Math.random() * 1000);
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let counter = 0;
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// Wrap function withBackoff
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const fnWithBackoff = withBackoff(
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async () => {
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return failer.willResolve('ok');
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},
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{
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minDelay,
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onFailure: (data: OnFailureInfo) => {
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counter++;
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expect(data).to.deep.equal({
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failures: counter,
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delay:
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counter === 1 ? minDelay : exponentialize(minDelay, counter - 1),
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error: 'Not ready!',
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});
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},
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},
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);
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// Call function and allow clock to trigger all events
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clock.runAllAsync();
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await fnWithBackoff();
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});
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it('uses RetryAfter from exception thrown', async () => {
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const retryAfter = 50000;
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const minDelay = 1000;
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const failer = new Failer(
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1,
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new StatusError(503, 'Service Unavailable', retryAfter),
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);
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const fnWithBackoff = withBackoff(
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async () => {
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return failer.willResolve('ok');
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},
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{
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minDelay,
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},
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);
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assert(retryAfter > minDelay, 'retryAfter must be greater than minDelay');
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expect(failer.callCount).to.equal(0);
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// Start calling function that fails with retryAfter
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const p = fnWithBackoff();
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// Check that function was only called once (it runs right away)
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expect(failer.callCount).to.equal(1);
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// Tick clock by minDelay
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// This will not be enough to call the function because retryAfter was in the
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// exception thrown and it is greater then minDelay
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await clock.tickAsync(minDelay);
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// Check that function wasn't called yet
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expect(failer.callCount).to.equal(1);
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// Tick clock again just before retryAfter
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await clock.tickAsync(retryAfter - minDelay - 1);
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// Check that call count is still only 1 since retryAfter time has not elapsed
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expect(failer.callCount).to.equal(1);
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// Elapse enough time to trigger function call
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await clock.tickAsync(1);
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// Check that function has now been called once more
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expect(failer.callCount).to.equal(2);
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// Failure was set to only fail once so function should be fulfilled after 2 executions
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await expect(p).to.be.fulfilled;
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});
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});
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function exponentialize(n: number, timesToExpo: number): number {
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let product = 0;
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let exponentialized = 0;
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function expo(): number {
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if (exponentialized >= timesToExpo) {
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return product;
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}
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exponentialized++;
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product = product + n * 2;
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return expo();
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}
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return expo();
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}
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class Failer {
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public maxFails: number;
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public callCount: number;
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public customError?: Error;
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public constructor(maxFails: number, error?: Error) {
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this.maxFails = maxFails;
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this.callCount = 0;
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this.customError = error;
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}
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public async willResolve(resolvesWith: string): Promise<string> {
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return new Promise((resolve, reject) => {
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if (++this.callCount <= this.maxFails) {
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if (this.customError) {
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return reject(this.customError);
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}
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return reject('Not ready!');
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}
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return resolve(resolvesWith);
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});
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}
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}
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