* fix(sync): back up local state before USE_REMOTE replace #8107 forceDownloadRemoteState cleared all unsynced local ops and replaced NgRx state with the server snapshot with no recovery point, making an unintended 'Use Server Data' conflict choice irreversibly destructive. Capture a pre-wipe snapshot via the existing single-slot IMPORT_BACKUP store (BackupService.captureImportBackup) before clearUnsyncedOps, and abort the replace if the backup fails. Offer a 30s Undo snack afterwards that restores it (BackupService.restoreImportBackup). Covers both the conflict-dialog USE_REMOTE path and the manual force-download. * fix(sync): durable restore entry + one-shot recovery for USE_REMOTE backup #8107 Addresses multi-review findings on the pre-wipe backup: - Add a persistent 'Restore data from before last sync replace' button to the sync settings (all providers, gated on a remaining backup), so recovery survives a missed/replaced Undo snack or a failure that aborts after the wipe — the snack was previously the only reader of the backup. - Make restore one-shot: consume the IMPORT_BACKUP slot after a successful restore, preventing a second restore from toggling back to the replaced state and avoiding a lingering plaintext snapshot. - Undo snack: WARNING type (honest framing + dismiss control) and no auto-dismiss timer instead of SUCCESS/30s. * test(sync): e2e for USE_REMOTE pre-replace backup + undo #8107 WebDAV two-client conflict: Client B's local task is wiped by 'Keep remote' (USE_REMOTE), then the Undo snack restores it. Reproduces the #8107 data loss and verifies recovery. Modeled on the existing webdav-first-sync-conflict USE_REMOTE test. Runnable via npm run e2e:webdav:file (needs the docker WebDAV server; not runnable in the sandbox where published ports are unreachable). * fix(sync): guard USE_REMOTE in conflict dialog; drop durable restore button #8107 Swap the over-built recovery surface for a root-cause fix: - Add a confirmation guard before 'Use Server Data' (USE_REMOTE) discards pending local changes (INCOMING_IMPORT with local ops), mirroring the existing USE_LOCAL guard. The dialog frames the server as 'recommended', so this stops a misclick from silently wiping data the user can't tell is newer than the server's — attacking the cause, not just recovery. - Revert the durable settings restore button + its one-shot clear / hasImportBackup (beyond the minimal fix; only that button used them). Keeps the minimal recovery net: pre-wipe capture + sticky WARNING undo snack (and its passing WebDAV e2e). * fix(sync): explain encryption-blocked restore instead of generic error #8107 Defect 2: server-side Restore-from-History can't replay end-to-end- encrypted ops, so it rejects with a 4xx whose reason mentions encryption (the provider embeds that reason in the thrown error message). The client showed a meaningless 'Failed to restore data' (bbinet's screenshot). Detect the encryption reason in the restore catch and show a dedicated RESTORE_ENCRYPTED message explaining the limitation; falls back to the generic message for any other failure. * fix(sync): guard USE_REMOTE undo against superseded backup slot #8107 The pre-replace backup uses a single IndexedDB slot shared with the backup-import flow. The Undo snack never expires, so an intervening import or a second 'Use Server Data' could overwrite the slot before the user clicks Undo, silently restoring the wrong snapshot. Thread the backup's savedAt token from capture through the snack to restore; restoreImportBackup() now refuses when the stored backup no longer matches the token. Also clear the slot after a successful restore so a full copy of the replaced state stops lingering in IDB (uses the previously-uncalled clearImportBackup). |
||
|---|---|---|
| .. | ||
| constants | ||
| fixtures | ||
| helpers | ||
| pages | ||
| store-screenshots | ||
| store-video | ||
| tests | ||
| utils | ||
| .gitignore | ||
| CLAUDE.md | ||
| global-setup.ts | ||
| playwright.config.ts | ||
| playwright.store-screenshots.config.ts | ||
| playwright.store-screenshots.electron.config.ts | ||
| playwright.store-video.config.ts | ||
| README.md | ||
| tsconfig.json | ||
E2E Testing Guide for Super Productivity
This guide provides comprehensive information for writing and maintaining end-to-end tests for Super Productivity using Playwright.
Table of Contents
- Overview
- Running Tests
- Test Structure
- Page Objects
- Common Patterns
- Selectors
- Wait Utilities
- Writing New Tests
- Best Practices
- Troubleshooting
Overview
Our E2E tests are built with Playwright and follow the Page Object Model (POM) pattern for maintainability and reusability. Tests are organized by feature and use shared fixtures for common setup.
Key Technologies
- Playwright: Modern E2E testing framework
- TypeScript: Type-safe test code
- Page Object Model: Encapsulates page interactions
- Fixtures: Shared setup and utilities
Running Tests
Basic Commands
# Run all tests
npm run e2e
# Run tests in UI mode (interactive)
npm run e2e:ui
# Run a single test file with detailed output
npm run e2e:file tests/task-basic/task-crud.spec.ts
# Run tests in headed mode (see browser)
npm run e2e:headed
# Run tests in debug mode
npm run e2e:debug
# Show test report
npm run e2e:show-report
WebDAV Sync Tests
# Run WebDAV tests (starts Docker container)
npm run e2e:webdav
Test Structure
Directory Layout
e2e/
├── constants/ # Shared selectors and constants
│ └── selectors.ts # Centralized CSS selectors
├── fixtures/ # Test fixtures and setup
│ └── test.fixture.ts # Custom test fixtures with page objects
├── helpers/ # Test helper functions
│ └── plugin-test.helpers.ts
├── pages/ # Page Object Models
│ ├── base.page.ts # Base page with common methods
│ ├── work-view.page.ts
│ ├── project.page.ts
│ ├── task.page.ts
│ ├── settings.page.ts
│ ├── dialog.page.ts
│ ├── planner.page.ts
│ ├── schedule.page.ts
│ ├── side-nav.page.ts
│ ├── sync.page.ts
│ ├── tag.page.ts
│ └── note.page.ts
├── tests/ # Test specifications
│ ├── task-basic/
│ ├── project/
│ ├── planner/
│ └── ...
├── utils/ # Utility functions
│ ├── waits.ts # Wait helpers
│ └── sync-helpers.ts
├── playwright.config.ts
└── global-setup.ts
Page Objects
Page Objects encapsulate interactions with specific pages or components. All page objects extend BasePage and receive a page and optional testPrefix.
Available Page Objects
1. BasePage (base.page.ts)
Base class for all page objects. Provides common functionality:
class BasePage {
async addTask(taskName: string): Promise<void>;
// Adds a task with automatic test prefix
}
Example:
await workViewPage.addTask('My Task');
// Creates task with name "W0-P0-My Task" (prefixed for isolation)
2. WorkViewPage (work-view.page.ts)
Interactions with the main work view:
class WorkViewPage extends BasePage {
async waitForTaskList(): Promise<void>;
async addSubTask(task: Locator, subTaskName: string): Promise<void>;
}
Example:
await workViewPage.waitForTaskList();
await workViewPage.addTask('Parent Task');
const task = page.locator('task').first();
await workViewPage.addSubTask(task, 'Child Task');
3. TaskPage (task.page.ts)
Task-specific operations:
class TaskPage extends BasePage {
getTask(index: number): Locator;
getTaskByText(text: string): Locator;
async markTaskAsDone(task: Locator): Promise<void>;
async editTaskTitle(task: Locator, newTitle: string): Promise<void>;
async openTaskDetail(task: Locator): Promise<void>;
async getTaskCount(): Promise<number>;
async isTaskDone(task: Locator): Promise<boolean>;
getDoneTasks(): Locator;
getUndoneTasks(): Locator;
async waitForTaskWithText(text: string): Promise<Locator>;
async taskHasTag(task: Locator, tagName: string): Promise<boolean>;
}
Example:
const task = taskPage.getTask(1); // First task
await taskPage.markTaskAsDone(task);
await expect(taskPage.getDoneTasks()).toHaveCount(1);
4. ProjectPage (project.page.ts)
Project management:
class ProjectPage extends BasePage {
async createProject(projectName: string): Promise<void>;
async navigateToProjectByName(projectName: string): Promise<void>;
async createAndGoToTestProject(): Promise<void>;
async addNote(noteContent: string): Promise<void>;
async archiveDoneTasks(): Promise<void>;
}
Example:
await projectPage.createProject('My Project');
await projectPage.navigateToProjectByName('My Project');
await projectPage.addNote('Project notes here');
5. SettingsPage (settings.page.ts)
Settings and configuration:
class SettingsPage extends BasePage {
async navigateToSettings(): Promise<void>;
async expandSection(sectionSelector: string): Promise<void>;
async expandPluginSection(): Promise<void>;
async navigateToPluginSettings(): Promise<void>;
async enablePlugin(pluginName: string): Promise<boolean>;
async disablePlugin(pluginName: string): Promise<boolean>;
async isPluginEnabled(pluginName: string): Promise<boolean>;
async uploadPlugin(pluginPath: string): Promise<void>;
}
Example:
await settingsPage.navigateToPluginSettings();
await settingsPage.enablePlugin('Test Plugin');
expect(await settingsPage.isPluginEnabled('Test Plugin')).toBeTruthy();
6. DialogPage (dialog.page.ts)
Dialog and modal interactions:
class DialogPage extends BasePage {
async waitForDialog(): Promise<Locator>;
async waitForDialogToClose(): Promise<void>;
async clickDialogButton(buttonText: string): Promise<void>;
async clickSaveButton(): Promise<void>;
async fillDialogInput(selector: string, value: string): Promise<void>;
async fillMarkdownDialog(content: string): Promise<void>;
async saveMarkdownDialog(): Promise<void>;
async editDateTime(dateValue?: string, timeValue?: string): Promise<void>;
}
Example:
await dialogPage.waitForDialog();
await dialogPage.fillDialogInput('input[name="title"]', 'New Title');
await dialogPage.clickSaveButton();
await dialogPage.waitForDialogToClose();
Common Patterns
Pattern 1: Basic Task CRUD
test('should create and edit task', async ({ page, workViewPage, taskPage }) => {
await workViewPage.waitForTaskList();
// Create
await workViewPage.addTask('Test Task');
await expect(taskPage.getAllTasks()).toHaveCount(1);
// Edit
const task = taskPage.getTask(1);
await taskPage.editTaskTitle(task, 'Updated Task');
await expect(taskPage.getTaskTitle(task)).toContainText('Updated Task');
// Mark as done
await taskPage.markTaskAsDone(task);
await expect(taskPage.getDoneTasks()).toHaveCount(1);
});
Pattern 2: Project Workflow
test('should create project and add tasks', async ({ projectPage, workViewPage }) => {
await projectPage.createAndGoToTestProject();
await workViewPage.addTask('Project Task 1');
await workViewPage.addTask('Project Task 2');
await expect(page.locator('task')).toHaveCount(2);
});
Pattern 3: Settings Configuration
test('should enable plugin', async ({ settingsPage, waitForNav }) => {
await settingsPage.navigateToPluginSettings();
await settingsPage.enablePlugin('My Plugin');
await waitForNav();
expect(await settingsPage.isPluginEnabled('My Plugin')).toBeTruthy();
});
Pattern 4: Dialog Interactions
test('should edit date in dialog', async ({ taskPage, dialogPage }) => {
const task = taskPage.getTask(1);
await taskPage.openTaskDetail(task);
const dateInfo = dialogPage.getDateInfo('Created');
await dateInfo.click();
await dialogPage.editDateTime('12/25/2025', undefined);
await dialogPage.clickSaveButton();
});
Selectors
All selectors are centralized in constants/selectors.ts. Always use these constants instead of hardcoding selectors in tests.
Using Selectors
import { cssSelectors } from '../constants/selectors';
const { TASK, TASK_TITLE, TASK_DONE_BTN } = cssSelectors;
// In test:
const task = page.locator(TASK).first();
const title = task.locator(TASK_TITLE);
Selector Categories
- Navigation:
SIDENAV,NAV_ITEM,SETTINGS_BTN - Layout:
ROUTE_WRAPPER,BACKDROP,PAGE_TITLE - Tasks:
TASK,TASK_TITLE,TASK_DONE_BTN,SUB_TASK - Add Task:
ADD_TASK_INPUT,ADD_TASK_SUBMIT - Dialogs:
MAT_DIALOG,DIALOG_FULLSCREEN_MARKDOWN - Settings:
PAGE_SETTINGS,PLUGIN_SECTION,PLUGIN_MANAGEMENT - Projects:
PAGE_PROJECT,CREATE_PROJECT_BTN,WORK_CONTEXT_MENU
Wait Utilities
Located in utils/waits.ts, these utilities help handle Angular's async nature.
Available Wait Functions
waitForAngularStability(page, timeout?)
Waits for Angular to finish all async operations.
await waitForAngularStability(page);
waitForAppReady(page, options?)
Comprehensive wait for app initialization.
await waitForAppReady(page, {
selector: 'task-list',
ensureRoute: true,
routeRegex: /#\/project\/\w+/,
});
waitForStatePersistence(page)
Waits for IndexedDB persistence to complete (important before sync operations).
await workViewPage.addTask('Task');
await waitForStatePersistence(page); // Ensure saved to IndexedDB
// Now safe to trigger sync
Writing New Tests
Step 1: Create Test File
// e2e/tests/my-feature/my-feature.spec.ts
import { test, expect } from '../../fixtures/test.fixture';
test.describe('My Feature', () => {
test('should do something', async ({ page, workViewPage, taskPage }) => {
// Test code here
});
});
Step 2: Use Page Objects
test('my test', async ({ workViewPage, taskPage, dialogPage }) => {
// Wait for page ready
await workViewPage.waitForTaskList();
// Use page objects for interactions
await workViewPage.addTask('Task 1');
const task = taskPage.getTask(1);
await taskPage.markTaskAsDone(task);
// Assertions
await expect(taskPage.getDoneTasks()).toHaveCount(1);
});
Step 3: Handle Waits Properly
// GOOD: Use Angular stability waits
await workViewPage.addTask('Task');
await waitForAngularStability(page);
await expect(page.locator('task')).toBeVisible();
// BAD: Arbitrary timeouts
await page.waitForTimeout(5000); // Avoid unless necessary
Step 4: Use Selectors from Constants
import { cssSelectors } from '../../constants/selectors';
const { TASK, TASK_TITLE } = cssSelectors;
const title = page.locator(TASK).first().locator(TASK_TITLE);
Best Practices
✅ DO
- Use page objects for all interactions
- Use centralized selectors from
constants/selectors.ts - Wait for Angular stability after state changes
- Use test prefixes (automatic via fixtures) for isolation
- Test one thing per test - keep tests focused
- Use descriptive test names - "should create task and mark as done"
- Clean up state - tests should be independent
- Use role-based selectors when possible (accessibility)
// GOOD
await page.getByRole('button', { name: 'Save' }).click();
// LESS GOOD
await page.locator('.save-btn').click();
❌ DON'T
- Don't hardcode selectors - use
cssSelectors - Don't use arbitrary waits - use
waitForAngularStability - Don't share state between tests - each test should be independent
- Don't access DOM directly - use page objects
- Don't skip error handling - tests should fail clearly
- Don't use
anytypes - maintain type safety
Test Isolation
Each test gets:
- Isolated browser context (clean storage)
- Unique test prefix (
W0-P0-,W1-P0-, etc.) - Fresh page instance
This ensures tests don't interfere with each other.
Handling Flakiness
// Use waitFor with explicit conditions
await page.waitForFunction(() => document.querySelectorAll('task').length === 3, {
timeout: 10000,
});
// Use locator assertions (auto-retry)
await expect(page.locator('task')).toHaveCount(3);
// Avoid fixed timeouts
await page.waitForTimeout(1000); // BAD
await waitForAngularStability(page); // GOOD
Troubleshooting
Test Fails with "Element not found"
- Check if selector is correct in
constants/selectors.ts - Add wait before interaction:
await waitForAngularStability(page) - Use
await element.waitFor({ state: 'visible' }) - Check if element is in a different context (iframe, shadow DOM)
Test Timeout
- Increase timeout in specific waitFor calls
- Check if Angular is stuck - look for pending HTTP requests
- Use
page.pause()to debug interactively - Check network tab for failed requests
Flaky Tests
- Add proper waits:
waitForAngularStability,waitForAppReady - Avoid
page.waitForTimeout()- use condition-based waits - Check for race conditions - ensure state is persisted
- Use
waitForStatePersistencebefore operations that depend on saved state
Debugging
// Pause execution and open Playwright Inspector
await page.pause();
// Take screenshot
await page.screenshot({ path: 'debug.png' });
// Console log page content
console.log(await page.content());
// Get element text for debugging
const text = await page.locator('task').first().textContent();
console.log('Task text:', text);
Running Single Test
# Run specific file
npm run e2e:file tests/task-basic/task-crud.spec.ts
# Run in debug mode
npm run e2e:debug
# Run in headed mode to see browser
npm run e2e:headed
Examples
Example 1: Full Task CRUD Test
import { test, expect } from '../../fixtures/test.fixture';
test.describe('Task CRUD', () => {
test('should create, edit, and delete tasks', async ({
page,
workViewPage,
taskPage,
}) => {
await workViewPage.waitForTaskList();
// Create
await workViewPage.addTask('Task 1');
await workViewPage.addTask('Task 2');
await expect(taskPage.getAllTasks()).toHaveCount(2);
// Edit
const firstTask = taskPage.getTask(1);
await taskPage.editTaskTitle(firstTask, 'Updated Task');
await expect(taskPage.getTaskTitle(firstTask)).toContainText('Updated Task');
// Mark as done
await taskPage.markTaskAsDone(firstTask);
await expect(taskPage.getDoneTasks()).toHaveCount(1);
await expect(taskPage.getUndoneTasks()).toHaveCount(1);
});
});
Example 2: Project Workflow
test('should create project with tasks', async ({
projectPage,
workViewPage,
taskPage,
}) => {
await projectPage.createAndGoToTestProject();
await workViewPage.addTask('Project Task');
await projectPage.addNote('Important notes');
const task = taskPage.getTask(1);
await taskPage.markTaskAsDone(task);
await projectPage.archiveDoneTasks();
await expect(taskPage.getUndoneTasks()).toHaveCount(0);
});
Example 3: Settings Test
test('should configure plugin', async ({ settingsPage, page }) => {
await settingsPage.navigateToPluginSettings();
const pluginExists = await settingsPage.pluginExists('Test Plugin');
expect(pluginExists).toBeTruthy();
await settingsPage.enablePlugin('Test Plugin');
expect(await settingsPage.isPluginEnabled('Test Plugin')).toBeTruthy();
await settingsPage.navigateBackToWorkView();
await expect(page).toHaveURL(/tag\/TODAY/);
});
Getting Help
- Check existing tests in
e2e/tests/for examples - Review page objects in
e2e/pages/for available methods - Look at
constants/selectors.tsfor available selectors - Use Playwright Inspector (
npm run e2e:debug) for debugging - Check Playwright docs: https://playwright.dev/
Summary Checklist
When writing a new test:
- Create test file in appropriate
tests/subdirectory - Import
testandexpectfromfixtures/test.fixture.ts - Use page objects for all interactions
- Use selectors from
constants/selectors.ts - Add proper waits (
waitForAngularStability, etc.) - Use descriptive test names
- Ensure test is isolated (no shared state)
- Run test locally before committing
- Test passes consistently (run 3+ times)