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refactor(ngcc): separate `(Async/Sync)Locker` and `LockFile` (#35861) 

The previous implementation mixed up the management
of locking a piece of code (both sync and async) with the
management of writing and removing the lockFile that is
used as the flag for which process has locked the code.

This change splits these two concepts up. Apart from
avoiding the awkward base class it allows the `LockFile`
implementation to be replaced cleanly.

PR Close #35861
This commit is contained in:
Pete Bacon Darwin 2020-03-04 12:35:52 +00:00 committed by Matias Niemelä
parent bdaab4184d
commit 94fa140888
9 changed files with 379 additions and 372 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

4
packages/compiler-cli/ngcc/src/execution/cluster/executor.ts
View File

@ -13,7 +13,7 @@ import * as cluster from 'cluster';
import {Logger} from '../../logging/logger';
import {PackageJsonUpdater} from '../../writing/package_json_updater';
import {AnalyzeEntryPointsFn, CreateCompileFn, Executor} from '../api';
import {LockFileAsync} from '../lock_file';
import {AsyncLocker} from '../lock_file';
import {ClusterMaster} from './master';
import {ClusterWorker} from './worker';
@ -26,7 +26,7 @@ import {ClusterWorker} from './worker';
export class ClusterExecutor implements Executor {
constructor(
private workerCount: number, private logger: Logger,
private pkgJsonUpdater: PackageJsonUpdater, private lockFile: LockFileAsync) {}
private pkgJsonUpdater: PackageJsonUpdater, private lockFile: AsyncLocker) {}
async execute(analyzeEntryPoints: AnalyzeEntryPointsFn, createCompileFn: CreateCompileFn):
Promise<void> {

103
packages/compiler-cli/ngcc/src/execution/lock_file.ts
View File

@ -7,59 +7,80 @@
*/
import * as process from 'process';
import {CachedFileSystem, FileSystem} from '../../../src/ngtsc/file_system';
import {AbsoluteFsPath, CachedFileSystem, FileSystem} from '../../../src/ngtsc/file_system';
import {Logger} from '../logging/logger';
export abstract class LockFileBase {
lockFilePath =
this.fs.resolve(require.resolve('@angular/compiler-cli/ngcc'), '../__ngcc_lock_file__');
let _lockFilePath: AbsoluteFsPath;
export function getLockFilePath(fs: FileSystem) {
if (!_lockFilePath) {
_lockFilePath =
fs.resolve(require.resolve('@angular/compiler-cli/ngcc'), '../__ngcc_lock_file__');
}
return _lockFilePath;
}
export interface LockFile {
path: AbsoluteFsPath;
/**
* Write a lock file to disk containing the PID of the current process.
*/
write(): void;
/**
* Read the PID, of the process holding the lock, from the lockFile.
*
* It is feasible that the lockFile was removed between the call to `write()` that effectively
* checks for existence and this attempt to read the file. If so then this method should just
* gracefully return `"{unknown}"`.
*/
read(): string;
/**
* Remove the lock file from disk, whether or not it exists.
*/
remove(): void;
}
export class LockFileWithSignalHandlers implements LockFile {
constructor(protected fs: FileSystem) {}
protected writeLockFile(): void {
path = getLockFilePath(this.fs);
write(): void {
try {
this.addSignalHandlers();
// To avoid race conditions, we check for existence of the lockfile
// by actually trying to create it exclusively.
return this.fs.writeFile(this.lockFilePath, process.pid.toString(), /* exclusive */ true);
// To avoid race conditions, we check for existence of the lockFile by actually trying to
// create it exclusively.
return this.fs.writeFile(this.path, process.pid.toString(), /* exclusive */ true);
} catch (e) {
this.removeSignalHandlers();
throw e;
}
}
/**
* Read the pid from the lockfile.
*
* It is feasible that the lockfile was removed between the previous check for existence
* and this file-read. If so then we still error but as gracefully as possible.
*/
protected readLockFile(): string {
read(): string {
try {
if (this.fs instanceof CachedFileSystem) {
// This file is "volatile", it might be changed by an external process,
// so we cannot rely upon the cached value when reading it.
this.fs.invalidateCaches(this.lockFilePath);
this.fs.invalidateCaches(this.path);
}
return this.fs.readFile(this.lockFilePath);
return this.fs.readFile(this.path);
} catch {
return '{unknown}';
}
}
/**
* Remove the lock file from disk.
*/
protected remove() {
remove() {
this.removeSignalHandlers();
if (this.fs.exists(this.lockFilePath)) {
this.fs.removeFile(this.lockFilePath);
if (this.fs.exists(this.path)) {
this.fs.removeFile(this.path);
}
}
/**
* Capture CTRL-C and terminal closing events.
* When these occur we remove the lockfile and exit.
* When these occur we remove the lockFile and exit.
*/
protected addSignalHandlers() {
process.addListener('SIGINT', this.signalHandler);
@ -94,14 +115,16 @@ export abstract class LockFileBase {
}
/**
* LockFileSync is used to prevent more than one instance of ngcc executing at the same time,
* SyncLocker is used to prevent more than one instance of ngcc executing at the same time,
* when being called in a synchronous context.
*
* * When ngcc starts executing, it creates a file in the `compiler-cli/ngcc` folder.
* * If it finds one is already there then it fails with a suitable error message.
* * When ngcc completes executing, it removes the file so that future ngcc executions can start.
*/
export class LockFileSync extends LockFileBase {
export class SyncLocker {
constructor(private lockFile: LockFile) {}
/**
* Run the given function guarded by the lock file.
*
@ -113,7 +136,7 @@ export class LockFileSync extends LockFileBase {
try {
return fn();
} finally {
this.remove();
this.lockFile.remove();
}
}
@ -122,7 +145,7 @@ export class LockFileSync extends LockFileBase {
*/
protected create(): void {
try {
this.writeLockFile();
this.lockFile.write();
} catch (e) {
if (e.code !== 'EEXIST') {
throw e;
@ -132,20 +155,20 @@ export class LockFileSync extends LockFileBase {
}
/**
* The lockfile already exists so raise a helpful error.
* The lockFile already exists so raise a helpful error.
*/
protected handleExistingLockFile(): void {
const pid = this.readLockFile();
const pid = this.lockFile.read();
throw new Error(
`ngcc is already running at process with id ${pid}.\n` +
`If you are running multiple builds in parallel then you should pre-process your node_modules via the command line ngcc tool before starting the builds;\n` +
`See https://v9.angular.io/guide/ivy#speeding-up-ngcc-compilation.\n` +
`(If you are sure no ngcc process is running then you should delete the lockfile at ${this.lockFilePath}.)`);
`(If you are sure no ngcc process is running then you should delete the lockFile at ${this.lockFile.path}.)`);
}
}
/**
* LockFileAsync is used to prevent more than one instance of ngcc executing at the same time,
* AsyncLocker is used to prevent more than one instance of ngcc executing at the same time,
* when being called in an asynchronous context.
*
* * When ngcc starts executing, it creates a file in the `compiler-cli/ngcc` folder.
@ -155,12 +178,10 @@ export class LockFileSync extends LockFileBase {
* * If the process locking the file changes, then we restart the timeout.
* * When ngcc completes executing, it removes the file so that future ngcc executions can start.
*/
export class LockFileAsync extends LockFileBase {
export class AsyncLocker {
constructor(
fs: FileSystem, protected logger: Logger, private retryDelay: number,
private retryAttempts: number) {
super(fs);
}
private lockFile: LockFile, protected logger: Logger, private retryDelay: number,
private retryAttempts: number) {}
/**
* Run a function guarded by the lock file.
@ -169,19 +190,19 @@ export class LockFileAsync extends LockFileBase {
*/
async lock<T>(fn: () => Promise<T>): Promise<T> {
await this.create();
return fn().finally(() => this.remove());
return fn().finally(() => this.lockFile.remove());
}
protected async create() {
let pid: string = '';
for (let attempts = 0; attempts < this.retryAttempts; attempts++) {
try {
return this.writeLockFile();
return this.lockFile.write();
} catch (e) {
if (e.code !== 'EEXIST') {
throw e;
}
const newPid = this.readLockFile();
const newPid = this.lockFile.read();
if (newPid !== pid) {
// The process locking the file has changed, so restart the timeout
attempts = 0;
@ -199,6 +220,6 @@ export class LockFileAsync extends LockFileBase {
// If we fall out of the loop then we ran out of rety attempts
throw new Error(
`Timed out waiting ${this.retryAttempts * this.retryDelay/1000}s for another ngcc process, with id ${pid}, to complete.\n` +
`(If you are sure no ngcc process is running then you should delete the lockfile at ${this.lockFilePath}.)`);
`(If you are sure no ngcc process is running then you should delete the lockFile at ${this.lockFile.path}.)`);
}
}

10
packages/compiler-cli/ngcc/src/execution/single_process_executor.ts
View File

@ -10,7 +10,7 @@ import {Logger} from '../logging/logger';
import {PackageJsonUpdater} from '../writing/package_json_updater';
import {AnalyzeEntryPointsFn, CreateCompileFn, Executor} from './api';
import {LockFileAsync, LockFileSync} from './lock_file';
import {AsyncLocker, SyncLocker} from './lock_file';
import {onTaskCompleted} from './utils';
export abstract class SingleProcessorExecutorBase {
@ -43,11 +43,11 @@ export abstract class SingleProcessorExecutorBase {
* An `Executor` that processes all tasks serially and completes synchronously.
*/
export class SingleProcessExecutorSync extends SingleProcessorExecutorBase implements Executor {
constructor(logger: Logger, pkgJsonUpdater: PackageJsonUpdater, private lockfile: LockFileSync) {
constructor(logger: Logger, pkgJsonUpdater: PackageJsonUpdater, private lockFile: SyncLocker) {
super(logger, pkgJsonUpdater);
}
execute(analyzeEntryPoints: AnalyzeEntryPointsFn, createCompileFn: CreateCompileFn): void {
this.lockfile.lock(() => this.doExecute(analyzeEntryPoints, createCompileFn));
this.lockFile.lock(() => this.doExecute(analyzeEntryPoints, createCompileFn));
}
}
@ -55,11 +55,11 @@ export class SingleProcessExecutorSync extends SingleProcessorExecutorBase imple
* An `Executor` that processes all tasks serially, but still completes asynchronously.
*/
export class SingleProcessExecutorAsync extends SingleProcessorExecutorBase implements Executor {
constructor(logger: Logger, pkgJsonUpdater: PackageJsonUpdater, private lockfile: LockFileAsync) {
constructor(logger: Logger, pkgJsonUpdater: PackageJsonUpdater, private lockFile: AsyncLocker) {
super(logger, pkgJsonUpdater);
}
async execute(analyzeEntryPoints: AnalyzeEntryPointsFn, createCompileFn: CreateCompileFn):
Promise<void> {
await this.lockfile.lock(async() => this.doExecute(analyzeEntryPoints, createCompileFn));
await this.lockFile.lock(async() => this.doExecute(analyzeEntryPoints, createCompileFn));
}
}

11
packages/compiler-cli/ngcc/src/main.ts
View File

@ -27,7 +27,7 @@ import {TargetedEntryPointFinder} from './entry_point_finder/targeted_entry_poin
import {AnalyzeEntryPointsFn, CreateCompileFn, Executor, PartiallyOrderedTasks, Task, TaskProcessingOutcome, TaskQueue} from './execution/api';
import {ClusterExecutor} from './execution/cluster/executor';
import {ClusterPackageJsonUpdater} from './execution/cluster/package_json_updater';
import {LockFileAsync, LockFileSync} from './execution/lock_file';
import {AsyncLocker, LockFileWithSignalHandlers, SyncLocker} from './execution/lock_file';
import {SingleProcessExecutorAsync, SingleProcessExecutorSync} from './execution/single_process_executor';
import {ParallelTaskQueue} from './execution/task_selection/parallel_task_queue';
import {SerialTaskQueue} from './execution/task_selection/serial_task_queue';
@ -336,20 +336,21 @@ function getTaskQueue(
function getExecutor(
async: boolean, inParallel: boolean, logger: Logger, pkgJsonUpdater: PackageJsonUpdater,
fileSystem: FileSystem): Executor {
const lockFile = new LockFileWithSignalHandlers(fileSystem);
if (async) {
// Execute asynchronously (either serially or in parallel)
const lockFile = new LockFileAsync(fileSystem, logger, 500, 50);
const locker = new AsyncLocker(lockFile, logger, 500, 50);
if (inParallel) {
// Execute in parallel. Use up to 8 CPU cores for workers, always reserving one for master.
const workerCount = Math.min(8, os.cpus().length - 1);
return new ClusterExecutor(workerCount, logger, pkgJsonUpdater, lockFile);
return new ClusterExecutor(workerCount, logger, pkgJsonUpdater, locker);
} else {
// Execute serially, on a single thread (async).
return new SingleProcessExecutorAsync(logger, pkgJsonUpdater, lockFile);
return new SingleProcessExecutorAsync(logger, pkgJsonUpdater, locker);
}
} else {
// Execute serially, on a single thread (sync).
return new SingleProcessExecutorSync(logger, pkgJsonUpdater, new LockFileSync(fileSystem));
return new SingleProcessExecutorSync(logger, pkgJsonUpdater, new SyncLocker(lockFile));
}
}

52
packages/compiler-cli/ngcc/test/execution/cluster/executor_spec.ts
View File

@ -10,11 +10,13 @@
import * as cluster from 'cluster';
import {MockFileSystemNative} from '../../../../src/ngtsc/file_system/testing';
import {ClusterExecutor} from '../../../src/execution/cluster/executor';
import {ClusterMaster} from '../../../src/execution/cluster/master';
import {ClusterWorker} from '../../../src/execution/cluster/worker';
import {AsyncLocker} from '../../../src/execution/lock_file';
import {PackageJsonUpdater} from '../../../src/writing/package_json_updater';
import {MockLockFileAsync} from '../../helpers/mock_lock_file';
import {MockLockFile} from '../../helpers/mock_lock_file';
import {MockLogger} from '../../helpers/mock_logger';
import {mockProperty} from '../../helpers/spy_utils';
@ -24,7 +26,9 @@ describe('ClusterExecutor', () => {
let masterRunSpy: jasmine.Spy;
let workerRunSpy: jasmine.Spy;
let mockLogger: MockLogger;
let mockLockFile: MockLockFileAsync;
let lockFileLog: string[];
let mockLockFile: MockLockFile;
let locker: AsyncLocker;
let executor: ClusterExecutor;
beforeEach(() => {
@ -34,9 +38,10 @@ describe('ClusterExecutor', () => {
.and.returnValue(Promise.resolve('CusterWorker#run()'));
mockLogger = new MockLogger();
mockLockFile = new MockLockFileAsync();
executor =
new ClusterExecutor(42, mockLogger, null as unknown as PackageJsonUpdater, mockLockFile);
lockFileLog = [];
mockLockFile = new MockLockFile(new MockFileSystemNative(), lockFileLog);
locker = new AsyncLocker(mockLockFile, mockLogger, 200, 2);
executor = new ClusterExecutor(42, mockLogger, null as unknown as PackageJsonUpdater, locker);
});
describe('execute()', () => {
@ -66,14 +71,14 @@ describe('ClusterExecutor', () => {
expect(createCompilerFnSpy).not.toHaveBeenCalled();
});
it('should call LockFile.create() and LockFile.remove() if master runner completes successfully',
it('should call LockFile.write() and LockFile.remove() if master runner completes successfully',
async() => {
const anyFn: () => any = () => undefined;
await executor.execute(anyFn, anyFn);
expect(mockLockFile.log).toEqual(['create()', 'remove()']);
expect(lockFileLog).toEqual(['write()', 'remove()']);
});
it('should call LockFile.create() and LockFile.remove() if master runner fails', async() => {
it('should call LockFile.write() and LockFile.remove() if master runner fails', async() => {
const anyFn: () => any = () => undefined;
masterRunSpy.and.returnValue(Promise.reject(new Error('master runner error')));
let error = '';
@ -83,30 +88,37 @@ describe('ClusterExecutor', () => {
error = e.message;
}
expect(error).toEqual('master runner error');
expect(mockLockFile.log).toEqual(['create()', 'remove()']);
expect(lockFileLog).toEqual(['write()', 'remove()']);
});
it('should not call master runner if Lockfile.create() fails', async() => {
it('should not call master runner if LockFile.write() fails', async() => {
const anyFn: () => any = () => undefined;
const lockFile = new MockLockFileAsync({throwOnCreate: true});
spyOn(mockLockFile, 'write').and.callFake(() => {
lockFileLog.push('write()');
throw new Error('LockFile.write() error');
});
executor =
new ClusterExecutor(42, mockLogger, null as unknown as PackageJsonUpdater, lockFile);
new ClusterExecutor(42, mockLogger, null as unknown as PackageJsonUpdater, locker);
let error = '';
try {
await executor.execute(anyFn, anyFn);
} catch (e) {
error = e.message;
}
expect(error).toEqual('LockFile.create() error');
expect(lockFile.log).toEqual(['create()']);
expect(error).toEqual('LockFile.write() error');
expect(masterRunSpy).not.toHaveBeenCalled();
});
it('should fail if Lockfile.remove() fails', async() => {
it('should fail if LockFile.remove() fails', async() => {
const anyFn: () => any = () => undefined;
const lockFile = new MockLockFileAsync({throwOnRemove: true});
spyOn(mockLockFile, 'remove').and.callFake(() => {
lockFileLog.push('remove()');
throw new Error('LockFile.remove() error');
});
executor =
new ClusterExecutor(42, mockLogger, null as unknown as PackageJsonUpdater, lockFile);
new ClusterExecutor(42, mockLogger, null as unknown as PackageJsonUpdater, locker);
let error = '';
try {
await executor.execute(anyFn, anyFn);
@ -114,7 +126,7 @@ describe('ClusterExecutor', () => {
error = e.message;
}
expect(error).toEqual('LockFile.remove() error');
expect(lockFile.log).toEqual(['create()', 'remove()']);
expect(lockFileLog).toEqual(['write()', 'remove()']);
expect(masterRunSpy).toHaveBeenCalled();
});
});
@ -143,10 +155,10 @@ describe('ClusterExecutor', () => {
expect(createCompilerFnSpy).toHaveBeenCalledWith(jasmine.any(Function));
});
it('should not call LockFile.create() or LockFile.remove()', async() => {
it('should not call LockFile.write() or LockFile.remove()', async() => {
const anyFn: () => any = () => undefined;
await executor.execute(anyFn, anyFn);
expect(mockLockFile.log).toEqual([]);
expect(lockFileLog).toEqual([]);
});
});
});

439
packages/compiler-cli/ngcc/test/execution/lock_file_spec.ts
View File

@ -9,29 +9,41 @@ import * as process from 'process';
import {CachedFileSystem, FileSystem, getFileSystem} from '../../../src/ngtsc/file_system';
import {runInEachFileSystem} from '../../../src/ngtsc/file_system/testing';
import {LockFileAsync, LockFileBase, LockFileSync} from '../../src/execution/lock_file';
import {AsyncLocker, LockFileWithSignalHandlers, SyncLocker} from '../../src/execution/lock_file';
import {MockLockFile} from '../helpers/mock_lock_file';
import {MockLogger} from '../helpers/mock_logger';
runInEachFileSystem(() => {
describe('LockFileBase', () => {
describe('LockFileWithSignalHandlers', () => {
/**
* This class allows us to test the abstract class LockFileBase.
* This class allows us to test ordering of the calls, and to avoid actually attaching signal
* handlers and most importantly not actually exiting the process.
*/
class LockFileUnderTest extends LockFileBase {
class LockFileUnderTest extends LockFileWithSignalHandlers {
log: string[] = [];
constructor(fs: FileSystem, private handleSignals = false) {
super(fs);
fs.ensureDir(fs.dirname(this.lockFilePath));
fs.ensureDir(fs.dirname(this.path));
}
remove() {
this.log.push('remove()');
super.remove();
}
remove() { super.remove(); }
addSignalHandlers() {
this.log.push('addSignalHandlers()');
if (this.handleSignals) {
super.addSignalHandlers();
}
}
writeLockFile() { super.writeLockFile(); }
readLockFile() { return super.readLockFile(); }
write() {
this.log.push('write()');
super.write();
}
read() {
const contents = super.read();
this.log.push('read() => ' + contents);
return contents;
}
removeSignalHandlers() {
this.log.push('removeSignalHandlers()');
super.removeSignalHandlers();
@ -39,35 +51,81 @@ runInEachFileSystem(() => {
exit(code: number) { this.log.push(`exit(${code})`); }
}
describe('writeLockFile()', () => {
describe('write()', () => {
it('should call `addSignalHandlers()`', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
lockFile.writeLockFile();
expect(lockFile.log).toEqual(['addSignalHandlers()']);
lockFile.write();
expect(lockFile.log).toEqual(['write()', 'addSignalHandlers()']);
});
it('should call `removeSignalHandlers()` if there is an error', () => {
const fs = getFileSystem();
spyOn(fs, 'writeFile').and.throwError('WRITING ERROR');
const lockFile = new LockFileUnderTest(fs);
expect(() => lockFile.writeLockFile()).toThrowError('WRITING ERROR');
expect(lockFile.log).toEqual(['addSignalHandlers()', 'removeSignalHandlers()']);
expect(() => lockFile.write()).toThrowError('WRITING ERROR');
expect(lockFile.log).toEqual(['write()', 'addSignalHandlers()', 'removeSignalHandlers()']);
});
it('should remove the lockFile if CTRL-C is triggered', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs, /* handleSignals */ true);
lockFile.write();
expect(lockFile.log).toEqual(['write()', 'addSignalHandlers()']);
// Simulate the CTRL-C signal
lockFile.log.push('SIGINT');
process.emit('SIGINT', 'SIGINT');
expect(lockFile.log).toEqual([
'write()', 'addSignalHandlers()', 'SIGINT', 'remove()', 'removeSignalHandlers()',
'exit(1)'
]);
});
it('should remove the lockFile if terminal is closed', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs, /* handleSignals */ true);
lockFile.write();
expect(lockFile.log).toEqual(['write()', 'addSignalHandlers()']);
// Simulate the terminal being closed
lockFile.log.push('SIGHUP');
process.emit('SIGHUP', 'SIGHUP');
expect(lockFile.log).toEqual([
'write()', 'addSignalHandlers()', 'SIGHUP', 'remove()', 'removeSignalHandlers()',
'exit(1)'
]);
});
});
describe('readLockFile()', () => {
it('should return the contents of the lockfile', () => {
describe('read()', () => {
it('should return the contents of the lockFile', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
fs.writeFile(lockFile.lockFilePath, '188');
expect(lockFile.readLockFile()).toEqual('188');
fs.writeFile(lockFile.path, '188');
expect(lockFile.read()).toEqual('188');
});
it('should return `{unknown}` if the lockfile does not exist', () => {
it('should return `{unknown}` if the lockFile does not exist', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
expect(lockFile.readLockFile()).toEqual('{unknown}');
expect(lockFile.read()).toEqual('{unknown}');
});
it('should not read file from the cache, since the file may have been modified externally',
() => {
const rawFs = getFileSystem();
const fs = new CachedFileSystem(rawFs);
const lockFile = new LockFileUnderTest(fs);
rawFs.writeFile(lockFile.path, '188');
expect(lockFile.read()).toEqual('188');
// We need to write to the rawFs to ensure that we don't update the cache at this point
rawFs.writeFile(lockFile.path, '444');
expect(lockFile.read()).toEqual('444');
});
});
@ -75,9 +133,9 @@ runInEachFileSystem(() => {
it('should remove the lock file from the file-system', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
fs.writeFile(lockFile.lockFilePath, '188');
fs.writeFile(lockFile.path, '188');
lockFile.remove();
expect(fs.exists(lockFile.lockFilePath)).toBe(false);
expect(fs.exists(lockFile.path)).toBe(false);
});
it('should not error if the lock file does not exist', () => {
@ -89,268 +147,169 @@ runInEachFileSystem(() => {
it('should call removeSignalHandlers()', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
fs.writeFile(lockFile.lockFilePath, '188');
fs.writeFile(lockFile.path, '188');
lockFile.remove();
expect(lockFile.log).toEqual(['removeSignalHandlers()']);
expect(lockFile.log).toEqual(['remove()', 'removeSignalHandlers()']);
});
});
});
describe('LockFileSync', () => {
/**
* This class allows us to test the protected methods of LockFileSync directly,
* which are normally hidden as "protected".
*
* We also add logging in here to track what is being called and in what order.
*
* Finally this class stubs out the `exit()` method to prevent unit tests from exiting the
* process.
*/
class LockFileUnderTest extends LockFileSync {
log: string[] = [];
constructor(fs: FileSystem, private handleSignals = false) {
super(fs);
fs.ensureDir(fs.dirname(this.lockFilePath));
}
create() {
this.log.push('create()');
super.create();
}
remove() {
this.log.push('remove()');
super.remove();
}
addSignalHandlers() {
if (this.handleSignals) {
super.addSignalHandlers();
}
}
removeSignalHandlers() { super.removeSignalHandlers(); }
exit(code: number) { this.log.push(`exit(${code})`); }
}
describe('SyncLocker', () => {
describe('lock()', () => {
it('should guard the `fn()` with calls to `create()` and `remove()`', () => {
it('should guard the `fn()` with calls to `write()` and `remove()`', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
const log: string[] = [];
const lockFile = new MockLockFile(fs, log);
const locker = new SyncLocker(lockFile);
lockFile.lock(() => lockFile.log.push('fn()'));
expect(lockFile.log).toEqual(['create()', 'fn()', 'remove()']);
locker.lock(() => log.push('fn()'));
expect(log).toEqual(['write()', 'fn()', 'remove()']);
});
it('should guard the `fn()` with calls to `create()` and `remove()`, even if it throws',
it('should guard the `fn()` with calls to `write()` and `remove()`, even if it throws',
() => {
let error: string = '';
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
const log: string[] = [];
const lockFile = new MockLockFile(fs, log);
const locker = new SyncLocker(lockFile);
try {
lockFile.lock(() => {
lockFile.log.push('fn()');
locker.lock(() => {
log.push('fn()');
throw new Error('ERROR');
});
} catch (e) {
error = e.message;
}
expect(error).toEqual('ERROR');
expect(lockFile.log).toEqual(['create()', 'fn()', 'remove()']);
});
it('should remove the lockfile if CTRL-C is triggered', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs, /* handleSignals */ true);
lockFile.lock(() => {
lockFile.log.push('SIGINT');
process.emit('SIGINT', 'SIGINT');
});
// Since the test does not actually exit process, the `remove()` is called one more time.
expect(lockFile.log).toEqual(['create()', 'SIGINT', 'remove()', 'exit(1)', 'remove()']);
// Clean up the signal handlers. In practice this is not needed since the process would have
// been terminated already.
lockFile.removeSignalHandlers();
});
it('should remove the lockfile if terminal is closed', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs, /* handleSignals */ true);
lockFile.lock(() => {
lockFile.log.push('SIGHUP');
process.emit('SIGHUP', 'SIGHUP');
});
// Since this does not actually exit process, the `remove()` is called one more time.
expect(lockFile.log).toEqual(['create()', 'SIGHUP', 'remove()', 'exit(1)', 'remove()']);
// Clean up the signal handlers. In practice this is not needed since the process would have
// been terminated already.
lockFile.removeSignalHandlers();
});
});
describe('create()', () => {
it('should write a lock file to the file-system', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
expect(fs.exists(lockFile.lockFilePath)).toBe(false);
lockFile.create();
expect(fs.exists(lockFile.lockFilePath)).toBe(true);
expect(log).toEqual(['write()', 'fn()', 'remove()']);
});
it('should error if a lock file already exists', () => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
fs.writeFile(lockFile.lockFilePath, '188');
expect(() => lockFile.create())
const log: string[] = [];
const lockFile = new MockLockFile(fs, log);
const locker = new SyncLocker(lockFile);
spyOn(lockFile, 'write').and.callFake(() => { throw {code: 'EEXIST'}; });
spyOn(lockFile, 'read').and.returnValue('188');
expect(() => locker.lock(() => {}))
.toThrowError(
`ngcc is already running at process with id 188.\n` +
`If you are running multiple builds in parallel then you should pre-process your node_modules via the command line ngcc tool before starting the builds;\n` +
`See https://v9.angular.io/guide/ivy#speeding-up-ngcc-compilation.\n` +
`(If you are sure no ngcc process is running then you should delete the lockfile at ${lockFile.lockFilePath}.)`);
`(If you are sure no ngcc process is running then you should delete the lockFile at ${lockFile.path}.)`);
});
});
});
describe('LockFileAsync', () => {
/**
* This class allows us to test the protected methods of LockFileAsync directly,
* which are normally hidden as "protected".
*
* We also add logging in here to track what is being called and in what order.
*
* Finally this class stubs out the `exit()` method to prevent unit tests from exiting the
* process.
*/
class LockFileUnderTest extends LockFileAsync {
log: string[] = [];
constructor(
fs: FileSystem, retryDelay = 100, retryAttempts = 10, private handleSignals = false) {
super(fs, new MockLogger(), retryDelay, retryAttempts);
fs.ensureDir(fs.dirname(this.lockFilePath));
}
async create() {
this.log.push('create()');
await super.create();
}
remove() {
this.log.push('remove()');
super.remove();
}
addSignalHandlers() {
if (this.handleSignals) {
super.addSignalHandlers();
}
}
removeSignalHandlers() { super.removeSignalHandlers(); }
exit(code: number) { this.log.push(`exit(${code})`); }
getLogger() { return this.logger as MockLogger; }
}
describe('AsyncLocker', () => {
describe('lock()', () => {
it('should guard the `fn()` with calls to `create()` and `remove()`', async() => {
it('should guard the `fn()` with calls to `write()` and `remove()`', async() => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
const log: string[] = [];
const lockFile = new MockLockFile(fs, log);
const locker = new AsyncLocker(lockFile, new MockLogger(), 100, 10);
await lockFile.lock(async() => {
lockFile.log.push('fn() - before');
await locker.lock(async() => {
log.push('fn() - before');
// This promise forces node to do a tick in this function, ensuring that we are truly
// testing an async scenario.
await Promise.resolve();
lockFile.log.push('fn() - after');
log.push('fn() - after');
return Promise.resolve();
});
expect(lockFile.log).toEqual(['create()', 'fn() - before', 'fn() - after', 'remove()']);
expect(log).toEqual(['write()', 'fn() - before', 'fn() - after', 'remove()']);
});
it('should guard the `fn()` with calls to `create()` and `remove()`, even if it throws',
it('should guard the `fn()` with calls to `write()` and `remove()`, even if it throws',
async() => {
let error: string = '';
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
const log: string[] = [];
const lockFile = new MockLockFile(fs, log);
const locker = new AsyncLocker(lockFile, new MockLogger(), 100, 10);
try {
await lockFile.lock(async() => {
lockFile.log.push('fn()');
await locker.lock(async() => {
log.push('fn()');
throw new Error('ERROR');
});
} catch (e) {
error = e.message;
}
expect(error).toEqual('ERROR');
expect(lockFile.log).toEqual(['create()', 'fn()', 'remove()']);
});
it('should remove the lockfile if CTRL-C is triggered', async() => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs, 100, 3, /* handleSignals */ true);
await lockFile.lock(async() => {
lockFile.log.push('SIGINT');
process.emit('SIGINT', 'SIGINT');
});
// Since the test does not actually exit process, the `remove()` is called one more time.
expect(lockFile.log).toEqual(['create()', 'SIGINT', 'remove()', 'exit(1)', 'remove()']);
// Clean up the signal handlers. In practice this is not needed since the process would have
// been terminated already.
lockFile.removeSignalHandlers();
});
it('should remove the lockfile if terminal is closed', async() => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs, 100, 3, /* handleSignals */ true);
await lockFile.lock(async() => {
lockFile.log.push('SIGHUP');
process.emit('SIGHUP', 'SIGHUP');
});
// Since this does not actually exit process, the `remove()` is called one more time.
expect(lockFile.log).toEqual(['create()', 'SIGHUP', 'remove()', 'exit(1)', 'remove()']);
// Clean up the signal handlers. In practice this is not needed since the process would have
// been terminated already.
lockFile.removeSignalHandlers();
});
});
describe('create()', () => {
it('should write a lock file to the file-system', async() => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
expect(fs.exists(lockFile.lockFilePath)).toBe(false);
await lockFile.create();
expect(fs.exists(lockFile.lockFilePath)).toBe(true);
expect(log).toEqual(['write()', 'fn()', 'remove()']);
});
it('should retry if another process is locking', async() => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs);
fs.writeFile(lockFile.lockFilePath, '188');
const promise = lockFile.lock(async() => lockFile.log.push('fn()'));
// The lock is now waiting on the lockfile becoming free, so no `fn()` in the log.
expect(lockFile.log).toEqual(['create()']);
expect(lockFile.getLogger().logs.info).toEqual([[
const log: string[] = [];
const lockFile = new MockLockFile(fs, log);
const logger = new MockLogger();
const locker = new AsyncLocker(lockFile, logger, 100, 10);
let lockFileContents: string|null = '188';
spyOn(lockFile, 'write').and.callFake(() => {
log.push('write()');
if (lockFileContents) {
throw {code: 'EEXIST'};
}
});
spyOn(lockFile, 'read').and.callFake(() => {
log.push('read() => ' + lockFileContents);
return lockFileContents;
});
const promise = locker.lock(async() => log.push('fn()'));
// The lock is now waiting on the lockFile becoming free, so no `fn()` in the log.
expect(log).toEqual(['write()', 'read() => 188']);
expect(logger.logs.info).toEqual([[
'Another process, with id 188, is currently running ngcc.\nWaiting up to 1s for it to finish.'
]]);
fs.removeFile(lockFile.lockFilePath);
// The lockfile has been removed, so we can create our own lockfile, call `fn()` and then
// remove the lockfile.
lockFileContents = null;
// The lockFile has been removed, so we can create our own lockFile, call `fn()` and then
// remove the lockFile.
await promise;
expect(lockFile.log).toEqual(['create()', 'fn()', 'remove()']);
expect(log).toEqual(['write()', 'read() => 188', 'write()', 'fn()', 'remove()']);
});
it('should extend the retry timeout if the other process locking the file changes', async() => {
// Use a cached file system to test that we are invalidating it correctly
const rawFs = getFileSystem();
const fs = new CachedFileSystem(rawFs);
const lockFile = new LockFileUnderTest(fs);
fs.writeFile(lockFile.lockFilePath, '188');
const promise = lockFile.lock(async() => lockFile.log.push('fn()'));
// The lock is now waiting on the lockfile becoming free, so no `fn()` in the log.
expect(lockFile.log).toEqual(['create()']);
expect(lockFile.getLogger().logs.info).toEqual([[
const fs = getFileSystem();
const log: string[] = [];
const lockFile = new MockLockFile(fs, log);
const logger = new MockLogger();
const locker = new AsyncLocker(lockFile, logger, 100, 10);
let lockFileContents: string|null = '188';
spyOn(lockFile, 'write').and.callFake(() => {
log.push('write()');
if (lockFileContents) {
throw {code: 'EEXIST'};
}
});
spyOn(lockFile, 'read').and.callFake(() => {
log.push('read() => ' + lockFileContents);
return lockFileContents;
});
async() => {
const promise = locker.lock(async() => log.push('fn()'));
// The lock is now waiting on the lockFile becoming free, so no `fn()` in the log.
expect(log).toEqual(['write()', 'read() => 188']);
expect(logger.logs.info).toEqual([[
'Another process, with id 188, is currently running ngcc.\nWaiting up to 1s for it to finish.'
]]);
// We need to write to the rawFs to ensure that we don't update the cache at this point
rawFs.writeFile(lockFile.lockFilePath, '444');
lockFileContents = '444';
// The lockFile has been taken over by another process
await new Promise(resolve => setTimeout(resolve, 250));
expect(lockFile.getLogger().logs.info).toEqual([
expect(log).toEqual(['write()', 'read() => 188', 'write()', 'read() => 444']);
expect(logger.logs.info).toEqual([
[
'Another process, with id 188, is currently running ngcc.\nWaiting up to 1s for it to finish.'
],
@ -358,29 +317,49 @@ runInEachFileSystem(() => {
'Another process, with id 444, is currently running ngcc.\nWaiting up to 1s for it to finish.'
]
]);
fs.removeFile(lockFile.lockFilePath);
// The lockfile has been removed, so we can create our own lockfile, call `fn()` and then
// remove the lockfile.
lockFileContents = null;
// The lockFile has been removed, so we can create our own lockFile, call `fn()` and then
// remove the lockFile.
await promise;
expect(lockFile.log).toEqual(['create()', 'fn()', 'remove()']);
expect(log).toEqual([
'write()', 'read() => 188', 'write()', 'read() => 444', 'write()', 'fn()', 'remove()'
]);
};
});
it('should error if another process does not release the lockfile before this times out',
it('should error if another process does not release the lockFile before this times out',
async() => {
const fs = getFileSystem();
const lockFile = new LockFileUnderTest(fs, 100, 2);
fs.writeFile(lockFile.lockFilePath, '188');
const promise = lockFile.lock(async() => lockFile.log.push('fn()'));
// The lock is now waiting on the lockfile becoming free, so no `fn()` in the log.
expect(lockFile.log).toEqual(['create()']);
// Do not remove the lockfile and let the call to `lock()` timeout.
const log: string[] = [];
const lockFile = new MockLockFile(fs, log);
const logger = new MockLogger();
const locker = new AsyncLocker(lockFile, logger, 100, 2);
let lockFileContents: string|null = '188';
spyOn(lockFile, 'write').and.callFake(() => {
log.push('write()');
if (lockFileContents) {
throw {code: 'EEXIST'};
}
});
spyOn(lockFile, 'read').and.callFake(() => {
log.push('read() => ' + lockFileContents);
return lockFileContents;
});
const promise = locker.lock(async() => log.push('fn()'));
// The lock is now waiting on the lockFile becoming free, so no `fn()` in the log.
expect(log).toEqual(['write()', 'read() => 188']);
// Do not remove the lockFile and let the call to `lock()` timeout.
let error: Error;
await promise.catch(e => error = e);
expect(lockFile.log).toEqual(['create()']);
expect(log).toEqual(['write()', 'read() => 188', 'write()', 'read() => 188']);
expect(error !.message)
.toEqual(
`Timed out waiting 0.2s for another ngcc process, with id 188, to complete.\n` +
`(If you are sure no ngcc process is running then you should delete the lockfile at ${lockFile.lockFilePath}.)`);
`(If you are sure no ngcc process is running then you should delete the lockFile at ${lockFile.path}.)`);
});
});
});

60
packages/compiler-cli/ngcc/test/execution/single_processor_executor_spec.ts
View File

@ -8,35 +8,41 @@
/// <reference types="node" />
import {MockFileSystemNative} from '../../../src/ngtsc/file_system/testing';
import {SyncLocker} from '../../src/execution/lock_file';
import {SingleProcessExecutorSync} from '../../src/execution/single_process_executor';
import {SerialTaskQueue} from '../../src/execution/task_selection/serial_task_queue';
import {PackageJsonUpdater} from '../../src/writing/package_json_updater';
import {MockLockFileSync} from '../helpers/mock_lock_file';
import {MockLockFile} from '../helpers/mock_lock_file';
import {MockLogger} from '../helpers/mock_logger';
describe('SingleProcessExecutor', () => {
let mockLogger: MockLogger;
let mockLockFile: MockLockFileSync;
let lockFileLog: string[];
let mockLockFile: MockLockFile;
let locker: SyncLocker;
let executor: SingleProcessExecutorSync;
beforeEach(() => {
mockLogger = new MockLogger();
mockLockFile = new MockLockFileSync();
executor = new SingleProcessExecutorSync(
mockLogger, null as unknown as PackageJsonUpdater, mockLockFile);
lockFileLog = [];
mockLockFile = new MockLockFile(new MockFileSystemNative(), lockFileLog);
locker = new SyncLocker(mockLockFile);
executor =
new SingleProcessExecutorSync(mockLogger, null as unknown as PackageJsonUpdater, locker);
});
describe('execute()', () => {
it('should call LockFile.create() and LockFile.remove() if processing completes successfully',
it('should call LockFile.write() and LockFile.remove() if processing completes successfully',
() => {
const noTasks = () => new SerialTaskQueue([] as any);
const createCompileFn: () => any = () => undefined;
executor.execute(noTasks, createCompileFn);
expect(mockLockFile.log).toEqual(['create()', 'remove()']);
expect(lockFileLog).toEqual(['write()', 'remove()']);
});
it('should call LockFile.create() and LockFile.remove() if `analyzeEntryPoints` fails', () => {
it('should call LockFile.write() and LockFile.remove() if `analyzeEntryPoints` fails', () => {
const errorFn: () => never = () => { throw new Error('analyze error'); };
const createCompileFn: () => any = () => undefined;
let error: string = '';
@ -46,10 +52,10 @@ describe('SingleProcessExecutor', () => {
error = e.message;
}
expect(error).toEqual('analyze error');
expect(mockLockFile.log).toEqual(['create()', 'remove()']);
expect(lockFileLog).toEqual(['write()', 'remove()']);
});
it('should call LockFile.create() and LockFile.remove() if `createCompileFn` fails', () => {
it('should call LockFile.write() and LockFile.remove() if `createCompileFn` fails', () => {
const oneTask = () => new SerialTaskQueue([{}] as any);
const createErrorCompileFn: () => any = () => { throw new Error('compile error'); };
let error: string = '';
@ -59,31 +65,39 @@ describe('SingleProcessExecutor', () => {
error = e.message;
}
expect(error).toEqual('compile error');
expect(mockLockFile.log).toEqual(['create()', 'remove()']);
expect(lockFileLog).toEqual(['write()', 'remove()']);
});
it('should not call `analyzeEntryPoints` if Lockfile.create() fails', () => {
const lockFile = new MockLockFileSync({throwOnCreate: true});
const analyzeFn: () => any = () => { lockFile.log.push('analyzeFn'); };
it('should not call `analyzeEntryPoints` if LockFile.write() fails', () => {
spyOn(mockLockFile, 'write').and.callFake(() => {
lockFileLog.push('write()');
throw new Error('LockFile.write() error');
});
const analyzeFn: () => any = () => { lockFileLog.push('analyzeFn'); };
const anyFn: () => any = () => undefined;
executor = new SingleProcessExecutorSync(
mockLogger, null as unknown as PackageJsonUpdater, lockFile);
executor =
new SingleProcessExecutorSync(mockLogger, null as unknown as PackageJsonUpdater, locker);
let error = '';
try {
executor.execute(analyzeFn, anyFn);
} catch (e) {
error = e.message;
}
expect(error).toEqual('LockFile.create() error');
expect(lockFile.log).toEqual(['create()']);
expect(error).toEqual('LockFile.write() error');
expect(lockFileLog).toEqual(['write()']);
});
it('should fail if Lockfile.remove() fails', () => {
it('should fail if LockFile.remove() fails', () => {
const noTasks = () => new SerialTaskQueue([] as any);
const anyFn: () => any = () => undefined;
const lockFile = new MockLockFileSync({throwOnRemove: true});
executor = new SingleProcessExecutorSync(
mockLogger, null as unknown as PackageJsonUpdater, lockFile);
spyOn(mockLockFile, 'remove').and.callFake(() => {
lockFileLog.push('remove()');
throw new Error('LockFile.remove() error');
});
executor =
new SingleProcessExecutorSync(mockLogger, null as unknown as PackageJsonUpdater, locker);
let error = '';
try {
executor.execute(noTasks, anyFn);
@ -91,7 +105,7 @@ describe('SingleProcessExecutor', () => {
error = e.message;
}
expect(error).toEqual('LockFile.remove() error');
expect(lockFile.log).toEqual(['create()', 'remove()']);
expect(lockFileLog).toEqual(['write()', 'remove()']);
});
});
});

48
packages/compiler-cli/ngcc/test/helpers/mock_lock_file.ts
View File

@ -5,40 +5,20 @@
* Use of this source code is governed by an MIT-style license that can be
* found in the LICENSE file at https://angular.io/license
*/
import {MockFileSystemNative} from '../../../src/ngtsc/file_system/testing';
import {LockFileAsync, LockFileSync} from '../../src/execution/lock_file';
import {MockLogger} from './mock_logger';
import {FileSystem} from '../../../src/ngtsc/file_system';
import {LockFile} from '../../src/execution/lock_file';
export class MockLockFileSync extends LockFileSync {
log: string[] = [];
constructor(private options: {throwOnCreate?: boolean, throwOnRemove?: boolean} = {}) {
// This `MockLockFile` is not used in tests that are run via `runInEachFileSystem()`
// So we cannot use `getFileSystem()` but instead just instantiate a mock file-system.
super(new MockFileSystemNative());
}
create() {
this.log.push('create()');
if (this.options.throwOnCreate) throw new Error('LockFile.create() error');
}
remove() {
this.log.push('remove()');
if (this.options.throwOnRemove) throw new Error('LockFile.remove() error');
}
}
export class MockLockFileAsync extends LockFileAsync {
log: string[] = [];
constructor(private options: {throwOnCreate?: boolean, throwOnRemove?: boolean} = {}) {
// This `MockLockFile` is not used in tests that are run via `runInEachFileSystem()`
// So we cannot use `getFileSystem()` but instead just instantiate a mock file-system.
super(new MockFileSystemNative(), new MockLogger(), 200, 2);
}
async create() {
this.log.push('create()');
if (this.options.throwOnCreate) throw new Error('LockFile.create() error');
}
remove() {
this.log.push('remove()');
if (this.options.throwOnRemove) throw new Error('LockFile.remove() error');
/**
* A mock implementation of `LockFile` that just logs its calls.
*/
export class MockLockFile implements LockFile {
constructor(
fs: FileSystem, private log: string[] = [], public path = fs.resolve('/lockfile'),
private pid = '1234') {}
write() { this.log.push('write()'); }
read(): string {
this.log.push('read()');
return this.pid;
}
remove() { this.log.push('remove()'); }
}

4
packages/compiler-cli/ngcc/test/integration/ngcc_spec.ts
View File

@ -13,7 +13,7 @@ import * as os from 'os';
import {AbsoluteFsPath, FileSystem, absoluteFrom, getFileSystem, join} from '../../../src/ngtsc/file_system';
import {Folder, MockFileSystem, TestFile, runInEachFileSystem} from '../../../src/ngtsc/file_system/testing';
import {loadStandardTestFiles, loadTestFiles} from '../../../test/helpers';
import {LockFileSync} from '../../src/execution/lock_file';
import {getLockFilePath} from '../../src/execution/lock_file';
import {mainNgcc} from '../../src/main';
import {markAsProcessed} from '../../src/packages/build_marker';
import {EntryPointJsonProperty, EntryPointPackageJson, SUPPORTED_FORMAT_PROPERTIES} from '../../src/packages/entry_point';
@ -1540,7 +1540,7 @@ runInEachFileSystem(() => {
function initMockFileSystem(fs: FileSystem, testFiles: Folder) {
if (fs instanceof MockFileSystem) {
fs.init(testFiles);
fs.ensureDir(fs.dirname(new LockFileSync(fs).lockFilePath));
fs.ensureDir(fs.dirname(getLockFilePath(fs)));
}
// a random test package that no metadata.json file so not compiled by Angular.