n8n/packages/cli/test/unit/services/communityPackages.service.test.ts

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import { exec } from 'child_process';
import { access as fsAccess, mkdir as fsMkdir } from 'fs/promises';
import axios from 'axios';
import { mocked } from 'jest-mock';
import Container from 'typedi';
import type { PublicInstalledPackage } from 'n8n-workflow';
import {
NODE_PACKAGE_PREFIX,
NPM_COMMAND_TOKENS,
NPM_PACKAGE_STATUS_GOOD,
RESPONSE_ERROR_MESSAGES,
} from '@/constants';
import config from '@/config';
import { InstalledPackages } from '@db/entities/InstalledPackages';
import type { CommunityPackages } from '@/Interfaces';
import { CommunityPackagesService } from '@/services/communityPackages.service';
import { InstalledNodesRepository } from '@db/repositories/installedNodes.repository';
import { InstalledPackagesRepository } from '@db/repositories/installedPackages.repository';
import { InstalledNodes } from '@db/entities/InstalledNodes';
import { LoadNodesAndCredentials } from '@/LoadNodesAndCredentials';
import { mockInstance } from '../../shared/mocking';
import {
COMMUNITY_NODE_VERSION,
COMMUNITY_PACKAGE_VERSION,
} from '../../integration/shared/constants';
import { randomName } from '../../integration/shared/random';
import { mockPackageName, mockPackagePair } from '../../integration/shared/utils';
jest.mock('fs/promises');
jest.mock('child_process');
jest.mock('axios');
type ExecOptions = NonNullable<Parameters<typeof exec>[1]>;
type ExecCallback = NonNullable<Parameters<typeof exec>[2]>;
const execMock = ((...args) => {
const cb = args[args.length - 1] as ExecCallback;
cb(null, 'Done', '');
}) as typeof exec;
describe('CommunityPackagesService', () => {
const installedNodesRepository = mockInstance(InstalledNodesRepository);
installedNodesRepository.create.mockImplementation(() => {
const nodeName = randomName();
return Object.assign(new InstalledNodes(), {
name: nodeName,
type: nodeName,
latestVersion: COMMUNITY_NODE_VERSION.CURRENT.toString(),
packageName: 'test',
});
});
const installedPackageRepository = mockInstance(InstalledPackagesRepository);
installedPackageRepository.create.mockImplementation(() => {
return Object.assign(new InstalledPackages(), {
packageName: mockPackageName(),
installedVersion: COMMUNITY_PACKAGE_VERSION.CURRENT,
});
});
mockInstance(LoadNodesAndCredentials);
const communityPackagesService = Container.get(CommunityPackagesService);
beforeEach(() => {
config.load(config.default);
});
describe('parseNpmPackageName()', () => {
test('should fail with empty package name', () => {
expect(() => communityPackagesService.parseNpmPackageName('')).toThrowError();
});
test('should fail with invalid package prefix name', () => {
expect(() =>
communityPackagesService.parseNpmPackageName('INVALID_PREFIX@123'),
).toThrowError();
});
test('should parse valid package name', () => {
const name = mockPackageName();
const parsed = communityPackagesService.parseNpmPackageName(name);
expect(parsed.rawString).toBe(name);
expect(parsed.packageName).toBe(name);
expect(parsed.scope).toBeUndefined();
expect(parsed.version).toBeUndefined();
});
test('should parse valid package name and version', () => {
const name = mockPackageName();
const version = '0.1.1';
const fullPackageName = `${name}@${version}`;
const parsed = communityPackagesService.parseNpmPackageName(fullPackageName);
expect(parsed.rawString).toBe(fullPackageName);
expect(parsed.packageName).toBe(name);
expect(parsed.scope).toBeUndefined();
expect(parsed.version).toBe(version);
});
test('should parse valid package name, scope and version', () => {
const scope = '@n8n';
const name = mockPackageName();
const version = '0.1.1';
const fullPackageName = `${scope}/${name}@${version}`;
const parsed = communityPackagesService.parseNpmPackageName(fullPackageName);
expect(parsed.rawString).toBe(fullPackageName);
expect(parsed.packageName).toBe(`${scope}/${name}`);
expect(parsed.scope).toBe(scope);
expect(parsed.version).toBe(version);
});
});
describe('executeCommand()', () => {
beforeEach(() => {
mocked(fsAccess).mockReset();
mocked(fsMkdir).mockReset();
mocked(exec).mockReset();
});
test('should call command with valid options', async () => {
const execMock = ((...args) => {
const arg = args[1] as ExecOptions;
expect(arg.cwd).toBeDefined();
expect(arg.env).toBeDefined();
// PATH or NODE_PATH may be undefined depending on environment so we don't check for these keys.
const cb = args[args.length - 1] as ExecCallback;
cb(null, 'Done', '');
}) as typeof exec;
mocked(exec).mockImplementation(execMock);
await communityPackagesService.executeNpmCommand('ls');
expect(fsAccess).toHaveBeenCalled();
expect(exec).toHaveBeenCalled();
expect(fsMkdir).toBeCalledTimes(0);
});
test('should make sure folder exists', async () => {
mocked(exec).mockImplementation(execMock);
await communityPackagesService.executeNpmCommand('ls');
expect(fsAccess).toHaveBeenCalled();
expect(exec).toHaveBeenCalled();
expect(fsMkdir).toBeCalledTimes(0);
});
test('should try to create folder if it does not exist', async () => {
mocked(exec).mockImplementation(execMock);
mocked(fsAccess).mockImplementation(() => {
throw new Error('Folder does not exist.');
});
await communityPackagesService.executeNpmCommand('ls');
expect(fsAccess).toHaveBeenCalled();
expect(exec).toHaveBeenCalled();
expect(fsMkdir).toHaveBeenCalled();
});
test('should throw especial error when package is not found', async () => {
const erroringExecMock = ((...args) => {
const cb = args[args.length - 1] as ExecCallback;
const msg = `Something went wrong - ${NPM_COMMAND_TOKENS.NPM_PACKAGE_NOT_FOUND_ERROR}. Aborting.`;
cb(new Error(msg), '', '');
}) as typeof exec;
mocked(exec).mockImplementation(erroringExecMock);
const call = async () => await communityPackagesService.executeNpmCommand('ls');
await expect(call).rejects.toThrowError(RESPONSE_ERROR_MESSAGES.PACKAGE_NOT_FOUND);
expect(fsAccess).toHaveBeenCalled();
expect(exec).toHaveBeenCalled();
expect(fsMkdir).toHaveBeenCalledTimes(0);
});
});
describe('crossInformationPackage()', () => {
test('should return same list if availableUpdates is undefined', () => {
const fakePkgs = mockPackagePair();
const crossedPkgs = communityPackagesService.matchPackagesWithUpdates(fakePkgs);
expect(crossedPkgs).toEqual(fakePkgs);
});
test('should correctly match update versions for packages', () => {
const [pkgA, pkgB] = mockPackagePair();
const updates: CommunityPackages.AvailableUpdates = {
[pkgA.packageName]: {
current: pkgA.installedVersion,
wanted: pkgA.installedVersion,
latest: '0.2.0',
location: pkgA.packageName,
},
[pkgB.packageName]: {
current: pkgA.installedVersion,
wanted: pkgA.installedVersion,
latest: '0.3.0',
location: pkgA.packageName,
},
};
const [crossedPkgA, crossedPkgB]: PublicInstalledPackage[] =
communityPackagesService.matchPackagesWithUpdates([pkgA, pkgB], updates);
expect(crossedPkgA.updateAvailable).toBe('0.2.0');
expect(crossedPkgB.updateAvailable).toBe('0.3.0');
});
test('should correctly match update versions for single package', () => {
const [pkgA, pkgB] = mockPackagePair();
const updates: CommunityPackages.AvailableUpdates = {
[pkgB.packageName]: {
current: pkgA.installedVersion,
wanted: pkgA.installedVersion,
latest: '0.3.0',
location: pkgA.packageName,
},
};
const [crossedPkgA, crossedPkgB]: PublicInstalledPackage[] =
communityPackagesService.matchPackagesWithUpdates([pkgA, pkgB], updates);
expect(crossedPkgA.updateAvailable).toBeUndefined();
expect(crossedPkgB.updateAvailable).toBe('0.3.0');
});
});
describe('matchMissingPackages()', () => {
test('should not match failed packages that do not exist', () => {
const fakePkgs = mockPackagePair();
setMissingPackages([
`${NODE_PACKAGE_PREFIX}very-long-name-that-should-never-be-generated@1.0.0`,
`${NODE_PACKAGE_PREFIX}another-very-long-name-that-never-is-seen`,
]);
const matchedPackages = communityPackagesService.matchMissingPackages(fakePkgs);
expect(matchedPackages).toEqual(fakePkgs);
const [first, second] = matchedPackages;
expect(first.failedLoading).toBeUndefined();
expect(second.failedLoading).toBeUndefined();
});
test('should match failed packages that should be present', () => {
const [pkgA, pkgB] = mockPackagePair();
setMissingPackages([
`${NODE_PACKAGE_PREFIX}very-long-name-that-should-never-be-generated@1.0.0`,
`${pkgA.packageName}@${pkgA.installedVersion}`,
]);
const [matchedPkgA, matchedPkgB] = communityPackagesService.matchMissingPackages([
pkgA,
pkgB,
]);
expect(matchedPkgA.failedLoading).toBe(true);
expect(matchedPkgB.failedLoading).toBeUndefined();
});
test('should match failed packages even if version is wrong', () => {
const [pkgA, pkgB] = mockPackagePair();
setMissingPackages([
`${NODE_PACKAGE_PREFIX}very-long-name-that-should-never-be-generated@1.0.0`,
`${pkgA.packageName}@123.456.789`,
]);
const [matchedPkgA, matchedPkgB] = communityPackagesService.matchMissingPackages([
pkgA,
pkgB,
]);
expect(matchedPkgA.failedLoading).toBe(true);
expect(matchedPkgB.failedLoading).toBeUndefined();
});
});
describe('checkNpmPackageStatus()', () => {
test('should call axios.post', async () => {
await communityPackagesService.checkNpmPackageStatus(mockPackageName());
expect(axios.post).toHaveBeenCalled();
});
test('should not fail if request fails', async () => {
mocked(axios.post).mockImplementation(() => {
throw new Error('Something went wrong');
});
const result = await communityPackagesService.checkNpmPackageStatus(mockPackageName());
expect(result.status).toBe(NPM_PACKAGE_STATUS_GOOD);
});
test('should warn if package is banned', async () => {
mocked(axios.post).mockResolvedValue({ data: { status: 'Banned', reason: 'Not good' } });
const result = (await communityPackagesService.checkNpmPackageStatus(
mockPackageName(),
)) as CommunityPackages.PackageStatusCheck;
expect(result.status).toBe('Banned');
expect(result.reason).toBe('Not good');
});
});
describe('hasPackageLoadedSuccessfully()', () => {
test('should return true when failed package list does not exist', () => {
setMissingPackages([]);
expect(communityPackagesService.hasPackageLoaded('package')).toBe(true);
});
test('should return true when package is not in the list of missing packages', () => {
setMissingPackages(['packageA@0.1.0', 'packageB@0.1.0']);
expect(communityPackagesService.hasPackageLoaded('packageC')).toBe(true);
});
test('should return false when package is in the list of missing packages', () => {
setMissingPackages(['packageA@0.1.0', 'packageB@0.1.0']);
expect(communityPackagesService.hasPackageLoaded('packageA')).toBe(false);
});
});
describe('removePackageFromMissingList()', () => {
test('should do nothing if key does not exist', () => {
setMissingPackages([]);
communityPackagesService.removePackageFromMissingList('packageA');
expect(communityPackagesService.missingPackages).toBeEmptyArray();
});
test('should remove only correct package from list', () => {
setMissingPackages(['packageA@0.1.0', 'packageB@0.2.0', 'packageC@0.2.0']);
communityPackagesService.removePackageFromMissingList('packageB');
expect(communityPackagesService.missingPackages).toEqual([
'packageA@0.1.0',
'packageC@0.2.0',
]);
});
test('should not remove if package is not in the list', () => {
const failedToLoadList = ['packageA@0.1.0', 'packageB@0.2.0', 'packageB@0.2.0'];
setMissingPackages(failedToLoadList);
communityPackagesService.removePackageFromMissingList('packageC');
expect(communityPackagesService.missingPackages).toEqual(failedToLoadList);
});
});
const setMissingPackages = (missingPackages: string[]) => {
Object.assign(communityPackagesService, { missingPackages });
};
});