This commit upgrades TypeScript to the latest version 5.3 and introduces
`verbatimModuleSyntax` in line with the official Vue guide
recommendatinos (vuejs/docs#2592).
By enforcing `import type` for type-only imports, this commit improves
code clarity and supports tooling optimization, ensuring imports are
only bundled when necessary for runtime.
Changes:
- Bump TypeScript to 5.3.3 across the project.
- Adjust import statements to utilize `import type` where applicable,
promoting cleaner and more efficient code.
This commit fixes an issue seen on certain Windows environments (Windows
10 22H2 and 11 23H2 Pro Azure VMs) where scripts were being deleted
during execution due to temporary directory usage. To resolve this,
scripts are now stored in a persistent directory, enhancing reliability
for long-running scripts and improving auditability along with
troubleshooting.
Key changes:
- Move script execution logic to the `main` process from `preloader` to
utilize Electron's `app.getPath`.
- Improve runtime environment detection for non-browser environments to
allow its usage in Electron main process.
- Introduce a secure module to expose IPC channels from the main process
to the renderer via the preloader process.
Supporting refactorings include:
- Simplify `CodeRunner` interface by removing the `tempScriptFolderName`
parameter.
- Rename `NodeSystemOperations` to `NodeElectronSystemOperations` as it
now wraps electron APIs too, and convert it to class for simplicity.
- Rename `TemporaryFileCodeRunner` to `ScriptFileCodeRunner` to reflect
its new functinoality.
- Rename `SystemOperations` folder to `System` for simplicity.
- Rename `HostRuntimeEnvironment` to `BrowserRuntimeEnvironment` for
clarity.
- Refactor main Electron process configuration to align with latest
Electron documentation/recommendations.
- Refactor unit tests `BrowserRuntimeEnvironment` to simplify singleton
workaround.
- Use alias imports like `electron/main` and `electron/common` for
better clarity.
Improve script execution in the desktop app by introducing timestamped
filenames and detailed logging. These changes aim to facilitate easier
debugging, auditing and overall better user experience.
Key changes:
- Add timestamps in filenames for temporary files to aid in
troubleshooting and auditing.
- Add application logging throughout the script execution process to
enhance troubleshooting capabilities.
Other supporting changes:
- Refactor `TemporaryFileCodeRunner` with subfunctions for improved
readability, maintenance, reusability and extensibility.
- Refactor unit tests for `TemporaryFileCodeRunner` for improved
granularity and simplicity.
- Create centralized definition of supported operating systems by
privacy.sexy to ensure robust and consistent test case creation.
- Simplify the `runCode` method by removing the file extension
parameter; now handled internally by `FileNameGenerator`.
This commit enhances application security against potential attacks by
isolating dependencies that access the host system (like file
operations) from the renderer process. It narrows the exposed
functionality to script execution only, adding an extra security layer.
The changes allow secure and scalable API exposure, preparing for future
functionalities such as desktop notifications for script errors (#264),
improved script execution handling (#296), and creating restore points
(#50) in a secure and repeatable way.
Changes include:
- Inject `CodeRunner` into Vue components via dependency injection.
- Move `CodeRunner` to the application layer as an abstraction for
better domain-driven design alignment.
- Refactor `SystemOperations` and related interfaces, removing the `I`
prefix.
- Update architecture documentation for clarity.
- Update return types in `NodeSystemOperations` to match the Node APIs.
- Improve `WindowVariablesProvider` integration tests for better error
context.
- Centralize type checks with common functions like `isArray` and
`isNumber`.
- Change `CodeRunner` to use `os` parameter, ensuring correct window
variable injection.
- Streamline API exposure to the renderer process:
- Automatically bind function contexts to prevent loss of original
context.
- Implement a way to create facades (wrapper/proxy objects) for
increased security.
This commit applies `strictNullChecks` to the entire codebase to improve
maintainability and type safety. Key changes include:
- Remove some explicit null-checks where unnecessary.
- Add necessary null-checks.
- Refactor static factory functions for a more functional approach.
- Improve some test names and contexts for better debugging.
- Add unit tests for any additional logic introduced.
- Refactor `createPositionFromRegexFullMatch` to its own function as the
logic is reused.
- Prefer `find` prefix on functions that may return `undefined` and
`get` prefix for those that always return a value.
Test improvements:
- Capture titles for all macOS windows, not just the frontmost.
- Incorporate missing application log files.
- Improve log clarity with enriched context.
- Improve application termination on macOS by reducing grace period.
- Ensure complete application termination on macOS.
- Validate Vue application loading through an initial log.
- Support ignoring environment-specific `stderr` errors.
- Do not fail the test if working directory cannot be deleted.
- Use retry pattern when installing dependencies due to network errors.
Refactorings:
- Migrate the test code to TypeScript.
- Replace deprecated `rmdir` with `rm` for error-resistant directory
removal.
- Improve sanity checking by shifting from App.vue to Vue bootstrapper.
- Centralize environment variable management with `EnvironmentVariables`
construct.
- Rename infrastructure/Environment to RuntimeEnvironment for clarity.
- Isolate WindowVariables and SystemOperations from RuntimeEnvironment.
- Inject logging via preloader.
- Correct mislabeled RuntimeSanity tests.
Configuration:
- Introduce `npm run check:desktop` for simplified execution.
- Omit `console.log` override due to `nodeIntegration` restrictions and
reveal logging functionality using context-bridging.
Enable `contextIsolation` in Electron to securely expose a limited set
of Node.js APIs to the renderer process. It:
1. Isolates renderer and main process contexts. It ensures that the
powerful main process functions aren't directly accessible from
renderer process(es), adding a security boundary.
2. Mitigates remote exploitation risks. By isolating contexts, potential
malicious code injections in the renderer can't directly reach and
compromise the main process.
3. Reduces attack surface.
4. Protect against prototype pollution: It prevents tampering of
JavaScript object prototypes in one context from affecting another
context, improving app reliability and security.
Supporting changes include:
- Extract environment and system operations classes to the infrastructure
layer. This removes node dependencies from core domain and application
code.
- Introduce `ISystemOperations` to encapsulate OS interactions. Use it
from `CodeRunner` to isolate node API usage.
- Add a preloader script to inject validated environment variables into
renderer context. This keeps Electron integration details
encapsulated.
- Add new sanity check to fail fast on issues with preloader injected
variables.
- Improve test coverage of runtime sanity checks and environment
components. Move validation logic into separate classes for Single
Responsibility.
- Improve absent value test case generation.
