crowd-funder-for-time-pwa/BUILDING.md

Building TimeSafari

This guide explains how to build TimeSafari for different platforms using the comprehensive build system.

Prerequisites

• Node.js 18+ and npm
• Git
• For mobile builds: Xcode (macOS) or Android Studio
• For desktop builds: Additional build tools based on your OS

Forks

If you have forked this to make your own app, you'll want to customize the iOS & Android files. You can either edit existing ones, or you can remove the ios and android directories and regenerate them before the npx cap sync step in each setup.

npx cap add android
npx cap add ios

You'll also want to edit the deep link configuration (see below).

Initial Setup

Install dependencies:

npm install

Web Development

Local Development

npm run dev

Web Build for Server

1. Run the production build:

rm -rf dist
npm run build:web

The built files will be in the dist directory.

2. To test the production build locally:

You'll likely want to use test locations for the Endorser & image & partner servers; see "DEFAULT_ENDORSER_API_SERVER" & "DEFAULT_IMAGE_API_SERVER" & "DEFAULT_PARTNER_API_SERVER" below.

npm run serve

Web Build Commands

# Development builds
npm run build:web:dev              # Development build with hot reload
npm run build:web:test             # Test environment build
npm run build:web:prod             # Production build
npm run build:web:serve            # Production build with serve

# Docker builds
npm run build:web:docker           # Docker development build
npm run build:web:docker:test      # Docker test build
npm run build:web:docker:prod      # Docker production build

Web Build Script Details

All web build commands use the ./scripts/build-web.sh script, which provides:

Build Modes:

• Development: Starts Vite dev server with hot reload (default)
• Test: Optimized for testing with minimal minification
• Production: Optimized for production with full minification

Script Features:

• Environment Validation: Checks for Node.js, npm, npx, package.json
• Environment Setup: Loads .env files based on build mode
• Clean Build: Removes previous dist/ directory
• Vite Build: Executes npx vite build --config vite.config.web.mts
• Docker Support: Optional Docker containerization
• Local Serving: Built-in HTTP server for testing builds

Direct Script Usage:

# Direct script usage (no npm chaining)
./scripts/build-web.sh                    # Development build
./scripts/build-web.sh --dev              # Development build (explicit)
./scripts/build-web.sh --test             # Test environment build
./scripts/build-web.sh --prod             # Production environment build
./scripts/build-web.sh --docker           # Build with Docker containerization
./scripts/build-web.sh --docker:test      # Test environment + Docker
./scripts/build-web.sh --docker:prod      # Production environment + Docker
./scripts/build-web.sh --serve            # Build and serve locally
./scripts/build-web.sh --help             # Show help
./scripts/build-web.sh --verbose          # Enable verbose logging

Script Flow:

1. Environment Validation: Check prerequisites (Node.js, npm, etc.)
2. Environment Setup: Load .env files, set NODE_ENV
3. Clean Dist: Remove previous build artifacts
4. Vite Build: Execute Vite with appropriate configuration
5. Optional Docker: Build Docker container if requested
6. Optional Serve: Start local HTTP server if requested

Exit Codes:

• 1 - Web cleanup failed
• 2 - Environment setup failed
• 3 - Vite build failed
• 4 - Docker build failed
• 5 - Serve command failed
• 6 - Invalid build mode

Compile and minify for test & production

• If there are DB changes: before updating the test server, open browser(s) with current version to test DB migrations.

• Update the ClickUp tasks & CHANGELOG.md & the version in package.json, run npm install.

• Run a build to make sure package-lock version is updated, linting works, etc: npm install && npm run build

• Commit everything (since the commit hash is used the app).

• Put the commit hash in the changelog (which will help you remember to bump the version in the step later).

• Tag with the new version, online or git tag 1.0.2 && git push origin 1.0.2.

• For test, build the app (because test server is not yet set up to build):

TIME_SAFARI_APP_TITLE="TimeSafari_Test" \
VITE_APP_SERVER=https://test.timesafari.app \
VITE_BVC_MEETUPS_PROJECT_CLAIM_ID=https://endorser.ch/entity/01HWE8FWHQ1YGP7GFZYYPS272F \
VITE_DEFAULT_ENDORSER_API_SERVER=https://test-api.endorser.ch \
VITE_DEFAULT_IMAGE_API_SERVER=https://test-image-api.timesafari.app \
VITE_DEFAULT_PARTNER_API_SERVER=https://test-partner-api.endorser.ch \
VITE_DEFAULT_PUSH_SERVER=https://test.timesafari.app \
VITE_PASSKEYS_ENABLED=true npm run build:web

... and transfer to the test server:

rsync -azvu -e "ssh -i ~/.ssh/..." dist ubuntutest@test.timesafari.app:time-safari

(Let's replace that with a .env.development or .env.test file.)

(Note: The test BVC_MEETUPS_PROJECT_CLAIM_ID does not resolve as a URL because it's only in the test DB and the prod redirect won't redirect there.)

• For prod, get on the server and run the correct build:

... and log onto the server:

• pkgx +npm sh

• cd crowd-funder-for-time-pwa && git checkout master && git pull && git checkout 1.0.2 && npm install && npm run build:web && cd -

(The plain npm run build:web uses the .env.production file.)

• Back up the time-safari/dist folder & deploy: mv time-safari/dist time-safari-dist-prev-2 && mv crowd-funder-for-time-pwa/dist time-safari/

• Record the new hash in the changelog. Edit package.json to increment version & add "-beta", npm install, commit, and push. Also record what version is on production.

Docker Deployment

The application can be containerized using Docker for consistent deployment across environments.

Prerequisites

• Docker installed on your system
• Docker Compose (optional, for multi-container setups)

Building the Docker Image

1. Build the Docker image:

docker build -t timesafari:latest .

2. For development builds with specific environment variables:

docker build --build-arg NODE_ENV=development -t timesafari:dev .

Running the Container

1. Run the container:

docker run -d -p 80:80 timesafari:latest

2. For development with hot-reloading:

docker run -d -p 80:80 -v $(pwd):/app timesafari:dev

Using Docker Compose

Create a docker-compose.yml file:

version: '3.8'
services:
  timesafari:
    build: .
    ports:
      - "80:80"
    environment:
      - NODE_ENV=production
    restart: unless-stopped

Run with Docker Compose:

docker-compose up -d

Docker Commands

# Docker operations
npm run docker:up                    # Start Docker services
npm run docker:up:test              # Start test environment
npm run docker:up:prod              # Start production environment
npm run docker:down                 # Stop Docker services
npm run docker:logs                 # View logs

Production Deployment

For production deployment, consider the following:

1. Use specific version tags instead of 'latest'
2. Implement health checks
3. Configure proper logging
4. Set up reverse proxy with SSL termination
5. Use Docker secrets for sensitive data

Example production deployment:

# Build with specific version
docker build -t timesafari:1.0.0 .

# Run with production settings
docker run -d \
  --name timesafari \
  -p 80:80 \
  --restart unless-stopped \
  -e NODE_ENV=production \
  timesafari:1.0.0

Troubleshooting Docker

1. Container fails to start

   • Check logs: docker logs <container_id>
   • Verify port availability
   • Check environment variables

2. Build fails

   • Ensure all dependencies are in package.json
   • Check Dockerfile syntax
   • Verify build context

3. Performance issues

   • Monitor container resources: docker stats
   • Check nginx configuration
   • Verify caching settings

Desktop Build (Electron)

TimeSafari's Electron build system provides comprehensive desktop application packaging and distribution capabilities across Windows, macOS, and Linux platforms. The system supports multiple build modes, environment configurations, and package formats.

Quick Start

Development Build

# Start development build (runs app)
npm run build:electron:dev

# Development build only
npm run build:electron --dev

Production Build

# Production build for all platforms
npm run build:electron:prod

# Platform-specific production builds
npm run build:electron:windows:prod
npm run build:electron:mac:prod
npm run build:electron:linux:prod

Package-Specific Builds

# AppImage for Linux
npm run build:electron:appimage:prod

# DEB package for Debian/Ubuntu
npm run build:electron:deb:prod

# DMG for macOS
npm run build:electron:dmg:prod

Single Instance Enforcement

The Electron app enforces single-instance operation to prevent:

• Database corruption from multiple instances
• Resource conflicts and performance issues
• User confusion from multiple windows

Behavior:

• Only one instance can run at a time
• Attempting to launch a second instance shows a user-friendly dialog
• The existing window is focused and restored if minimized
• Second instance exits gracefully

Implementation:

• Uses Electron's requestSingleInstanceLock() API
• Handles second-instance events to focus existing window
• Shows informative dialog explaining why only one instance is allowed

Direct Script Usage

# Direct script usage (no npm chaining)
./scripts/build-electron.sh --dev                    # Development build
./scripts/build-electron.sh --test                   # Test build
./scripts/build-electron.sh --prod                   # Production build
./scripts/build-electron.sh --prod --windows         # Windows production
./scripts/build-electron.sh --test --appimage        # Linux AppImage test
./scripts/build-electron.sh --dev --mac              # macOS development
./scripts/build-electron.sh --prod --dmg             # macOS DMG production

Build Architecture

The Electron build process follows a multi-stage approach:

1. Web Build (Vite) → 2. Capacitor Sync → 3. TypeScript Compile → 4. Package

Stage 1: Web Build

• Vite builds web assets with Electron-specific configuration
• Environment variables loaded based on build mode
• Assets optimized for desktop application

Stage 2: Capacitor Sync

• Copies web assets to Electron app directory
• Syncs Capacitor configuration and plugins
• Prepares native module bindings

Stage 3: TypeScript Compile

• Compiles Electron main process TypeScript
• Rebuilds native modules for target platform
• Generates production-ready JavaScript

Stage 4: Package Creation

• Creates platform-specific installers
• Generates distribution packages
• Signs applications (when configured)

Build Modes

Development Mode

Purpose: Local development and testing Command: npm run build:electron:dev Features:

• Hot reload enabled
• Debug tools available
• Development logging
• Unoptimized assets

Testing Mode

Purpose: Staging and testing environments Command: npm run build:electron -- --mode test Features:

• Test API endpoints
• Staging configurations
• Optimized for testing
• Debug information available

Production Mode

Purpose: Production deployment Command: npm run build:electron -- --mode production Features:

• Production optimizations
• Code minification
• Security hardening
• Performance optimizations

Platform-Specific Builds

Windows Builds

Target Platforms: Windows 10/11 (x64) Package Formats: NSIS installer, portable executable

# Windows development build
npm run build:electron:windows:dev

# Windows test build
npm run build:electron:windows:test

# Windows production build
npm run build:electron:windows:prod

Configuration:

• NSIS installer with custom options
• Desktop and Start Menu shortcuts
• Elevation permissions for installation
• Custom installation directory support

macOS Builds

Target Platforms: macOS 10.15+ (x64, arm64) Package Formats: DMG installer, app bundle

# macOS development build
npm run build:electron:mac:dev

# macOS test build
npm run build:electron:mac:test

# macOS production build
npm run build:electron:mac:prod

Configuration:

• Universal binary (x64 + arm64)
• DMG installer with custom branding
• App Store compliance (when configured)
• Code signing support

Linux Builds

Target Platforms: Ubuntu 18.04+, Debian 10+, Arch Linux Package Formats: AppImage, DEB, RPM

# Linux development build
npm run build:electron:linux:dev

# Linux test build
npm run build:electron:linux:test

# Linux production build
npm run build:electron:linux:prod

Configuration:

• AppImage for universal distribution
• DEB package for Debian-based systems
• RPM package for Red Hat-based systems
• Desktop integration

Package-Specific Builds

AppImage Package

Format: Self-contained Linux executable Distribution: Universal Linux distribution

# AppImage development build
npm run build:electron:appimage:dev

# AppImage test build
npm run build:electron:appimage:test

# AppImage production build
npm run build:electron:appimage:prod

Features:

• Single file distribution
• No installation required
• Portable across Linux distributions
• Automatic updates support

DEB Package

Format: Debian package installer Distribution: Debian-based Linux systems

# DEB development build
npm run build:electron:deb:dev

# DEB test build
npm run build:electron:deb:test

# DEB production build
npm run build:electron:deb:prod

Features:

• Native package management
• Dependency resolution
• System integration
• Easy installation/uninstallation

DMG Package

Format: macOS disk image Distribution: macOS systems

# DMG development build
npm run build:electron:dmg:dev

# DMG test build
npm run build:electron:dmg:test

# DMG production build
npm run build:electron:dmg:prod

Features:

• Native macOS installer
• Custom branding and layout
• Drag-and-drop installation
• Code signing support

Build Scripts Reference

Main Build Scripts

# Development builds
npm run build:electron:dev              # Development build and run
npm run build:electron --dev            # Development build only

# Testing builds
npm run build:electron:test             # Test environment build

# Production builds
npm run build:electron:prod             # Production environment build

Platform-Specific Scripts

# Windows builds
npm run build:electron:windows          # Windows production build
npm run build:electron:windows:dev      # Windows development build
npm run build:electron:windows:test     # Windows test build
npm run build:electron:windows:prod     # Windows production build

# macOS builds
npm run build:electron:mac              # macOS production build
npm run build:electron:mac:dev          # macOS development build
npm run build:electron:mac:test         # macOS test build
npm run build:electron:mac:prod         # macOS production build

# Linux builds
npm run build:electron:linux            # Linux production build
npm run build:electron:linux:dev        # Linux development build
npm run build:electron:linux:test       # Linux test build
npm run build:electron:linux:prod       # Linux production build

Package-Specific Scripts

# AppImage builds
npm run build:electron:appimage         # Linux AppImage production build
npm run build:electron:appimage:dev     # AppImage development build
npm run build:electron:appimage:test    # AppImage test build
npm run build:electron:appimage:prod    # AppImage production build

# DEB builds
npm run build:electron:deb              # Debian package production build
npm run build:electron:deb:dev          # DEB development build
npm run build:electron:deb:test         # DEB test build
npm run build:electron:deb:prod         # DEB production build

# DMG builds
npm run build:electron:dmg              # macOS DMG production build
npm run build:electron:dmg:dev          # DMG development build
npm run build:electron:dmg:test         # DMG test build
npm run build:electron:dmg:prod         # DMG production build

Direct Script Usage

All npm scripts use the underlying ./scripts/build-electron.sh script:

# Direct script usage examples
./scripts/build-electron.sh --dev                    # Development build
./scripts/build-electron.sh --test                   # Test build
./scripts/build-electron.sh --prod                   # Production build
./scripts/build-electron.sh --prod --windows         # Windows production
./scripts/build-electron.sh --test --appimage        # Linux AppImage test
./scripts/build-electron.sh --dev --mac              # macOS development
./scripts/build-electron.sh --prod --dmg             # macOS DMG production

Utility Scripts

# Cleanup scripts
npm run clean:electron                  # Clean Electron build artifacts

# Development scripts
npm run electron:dev                    # Start development server
npm run electron:dev-full              # Full development workflow
npm run electron:setup                  # Setup Electron environment

Build Output Structure

Development Build

electron/
├── app/                    # Web assets
├── build/                  # Compiled TypeScript
├── dist/                   # Build artifacts (empty in dev)
└── node_modules/           # Dependencies

Production Build

electron/
├── app/                    # Web assets
├── build/                  # Compiled TypeScript
├── dist/                   # Distribution packages
│   ├── TimeSafari.exe     # Windows executable
│   ├── TimeSafari.dmg     # macOS installer
│   ├── TimeSafari.AppImage # Linux AppImage
│   └── TimeSafari.deb     # Debian package
└── node_modules/           # Dependencies

Code Signing and Notarization

macOS Code Signing

For public distribution on macOS, you need to code sign and notarize your app:

1. Set up environment variables:

export CSC_LINK=/path/to/your/certificate.p12
export CSC_KEY_PASSWORD=your_certificate_password
export APPLE_ID=your_apple_id
export APPLE_ID_PASSWORD=your_app_specific_password

2. Build with signing:

npm run build:electron:mac:prod

Windows Code Signing

For Windows distribution, configure Authenticode signing:

1. Set up environment variables:

export CSC_LINK=/path/to/your/certificate.p12
export CSC_KEY_PASSWORD=your_certificate_password

2. Build with signing:

npm run build:electron:windows:prod

Running the Packaged App

Linux

• AppImage: Make executable and run

chmod +x electron/dist/TimeSafari-*.AppImage
./electron/dist/TimeSafari-*.AppImage

• DEB: Install and run

sudo dpkg -i electron/dist/timesafari_*_amd64.deb
timesafari

macOS

• .app bundle: Double-click TimeSafari.app in Finder
• .dmg installer:
  1. Double-click the .dmg file
  2. Drag the app to your Applications folder
  3. Launch from Applications

Note: If you get a security warning when running the app:

1. Right-click the app
2. Select "Open"
3. Click "Open" in the security dialog

Windows

• NSIS installer: Run the .exe installer and follow the setup wizard
• Portable: Extract and run the portable executable

Troubleshooting

Common Build Issues

TypeScript Compilation Errors:

# Clean and rebuild
npm run clean:electron
cd electron && npm run build

Native Module Issues:

# Rebuild native modules
cd electron && npm run build

Asset Copy Issues:

# Verify Capacitor sync
npx cap sync electron

Platform-Specific Issues

Windows:

• Ensure Windows Build Tools installed
• Check NSIS installation
• Verify code signing certificates

macOS:

• Install Xcode Command Line Tools
• Configure code signing certificates
• Check app notarization requirements

Linux:

• Install required packages (rpm-tools, etc.)
• Check AppImage dependencies
• Verify desktop integration

Performance Optimization

Build Performance

• Use concurrent TypeScript compilation
• Optimize asset copying
• Minimize file system operations
• Cache node_modules between builds

Runtime Performance

• Optimize main process initialization
• Minimize startup dependencies
• Use lazy loading for features
• Monitor memory usage and implement proper cleanup

Security Considerations

Production Builds

• Disable developer tools
• Remove debug information
• Enable security policies
• Implement sandboxing

Update Security

• Secure update channels
• Package integrity verification
• Rollback capabilities

For detailed documentation, see docs/electron-build-patterns.md.

Mobile Builds (Capacitor)

iOS Build

Prerequisites: macOS with Xcode installed

Automated Build Script

The recommended way to build for iOS is using the automated build script:

# Standard build and open Xcode
./scripts/build-ios.sh

# Build with specific version numbers
./scripts/build-ios.sh --version 1.0.3 --build-number 35

# Build without opening Xcode (for CI/CD)
./scripts/build-ios.sh --no-xcode

# Show all available options
./scripts/build-ios.sh --help

The script handles all the necessary steps including:

• Environment setup and validation
• Web asset building
• Capacitor synchronization
• iOS asset generation
• Version number updates
• Xcode project opening

iOS Build Commands

# Standard builds
npm run build:ios                    # Standard build and open Xcode
npm run build:ios:dev               # Development build
npm run build:ios:test              # Test build
npm run build:ios:prod              # Production build

# Auto-run builds
npm run build:ios:test:run          # Test build with auto-run
npm run build:ios:prod:run          # Production build with auto-run

# Debug and release builds
npm run build:ios:debug             # Debug build
npm run build:ios:debug:run         # Debug build with auto-run
npm run build:ios:release           # Release build
npm run build:ios:release:run       # Release build with auto-run

# Additional operations
npm run build:ios:studio            # Open in Xcode Studio
npm run build:ios:ipa               # Generate IPA file
npm run build:ios:clean             # Clean build artifacts
npm run build:ios:sync              # Sync Capacitor
npm run build:ios:assets            # Generate assets
npm run build:ios:deploy            # Deploy to device/simulator

Manual Build Process

If you need to build manually or want to understand the individual steps:

First-time iOS Configuration

• Generate certificates inside XCode.
• Right-click on App and under Signing & Capabilities set the Team.

Each Release

0. First time (or if dependencies change):

• pkgx +rubygems.org sh

• ... and you may have to fix these, especially with pkgx:

gem_path=$(which gem)
shortened_path="${gem_path:h:h}"
export GEM_HOME=$shortened_path
export GEM_PATH=$shortened_path

1. Build the web assets & update ios:

   rm -rf dist
   npm run build:web
   npm run build:capacitor
   npx cap sync ios
   

• If that fails with "Could not find..." then look at the "gem_path" instructions above.

3. Copy the assets:

   # It makes no sense why capacitor-assets will not run without these but it actually changes the contents.
   mkdir -p ios/App/App/Assets.xcassets/AppIcon.appiconset
   echo '{"images":[]}' > ios/App/App/Assets.xcassets/AppIcon.appiconset/Contents.json
   mkdir -p ios/App/App/Assets.xcassets/Splash.imageset
   echo '{"images":[]}' > ios/App/App/Assets.xcassets/Splash.imageset/Contents.json
   npx capacitor-assets generate --ios
   

4. Bump the version to match Android & package.json:

   cd ios/App && xcrun agvtool new-version 35 && perl -p -i -e "s/MARKETING_VERSION = .*;/MARKETING_VERSION = 1.0.2;/g" App.xcodeproj/project.pbxproj && cd -
   # Unfortunately this edits Info.plist directly.
   #xcrun agvtool new-marketing-version 0.4.5
   

5. Open the project in Xcode:

   npx cap open ios
   

6. Use Xcode to build and run on simulator or device.

• Select Product -> Destination with some Simulator version. Then click the run arrow.

7. Release

• Someday: Under "General" we want to rename a bunch of things to "Time Safari"
• Choose Product -> Destination -> Any iOS Device
• Choose Product -> Archive
  • This will trigger a build and take time, needing user's "login" keychain password (user's login password), repeatedly.
  • If it fails with building for 'iOS', but linking in dylib (.../.pkgx/zlib.net/v1.3.0/lib/libz.1.3.dylib) built for 'macOS' then run XCode outside that terminal (ie. not with npx cap open ios).
  • Click Distribute -> App Store Connect
• In AppStoreConnect, add the build to the distribution: remove the current build with the "-" when you hover over it, then "Add Build" with the new build.
  • May have to go to App Review, click Submission, then hover over the build and click "-".
  • It can take 15 minutes for the build to show up in the list of builds.
  • You'll probably have to "Manage" something about encryption, disallowed in France.
  • Then "Save" and "Add to Review" and "Resubmit to App Review".

Android Build

Prerequisites: Android Studio with Java SDK installed

Automated Build Script

The recommended way to build for Android is using the automated build script:

# Standard build and open Android Studio
./scripts/build-android.sh

# Build with specific version numbers
./scripts/build-android.sh --version 1.0.3 --build-number 35

# Build without opening Android Studio (for CI/CD)
./scripts/build-android.sh --no-studio

# Show all available options
./scripts/build-android.sh --help

Android Build Commands

# Standard builds
npm run build:android                 # Standard build and open Android Studio
npm run build:android:dev            # Development build
npm run build:android:test           # Test build
npm run build:android:prod           # Production build

# Auto-run builds
npm run build:android:test:run       # Test build with auto-run
npm run build:android:prod:run       # Production build with auto-run

# Debug and release builds
npm run build:android:debug          # Debug build
npm run build:android:debug:run      # Debug build with auto-run
npm run build:android:release        # Release build
npm run build:android:release:run    # Release build with auto-run

# Additional operations
npm run build:android:studio         # Open in Android Studio
npm run build:android:apk            # Generate APK
npm run build:android:aab            # Generate AAB (App Bundle)
npm run build:android:clean          # Clean build artifacts
npm run build:android:sync           # Sync Capacitor
npm run build:android:assets         # Generate assets
npm run build:android:deploy         # Deploy to device/emulator

Manual Build Process

1. Build the web assets:

   rm -rf dist
   npm run build:web
   npm run build:capacitor
   

2. Update Android project with latest build:

   npx cap sync android
   

3. Copy the assets

   npx capacitor-assets generate --android
   

4. Bump version to match iOS & package.json: android/app/build.gradle

5. Open the project in Android Studio:

   npx cap open android
   

6. Use Android Studio to build and run on emulator or device.

Android Build from the console

cd android
./gradlew clean
./gradlew build -Dlint.baselines.continue=true
cd -

... or, to create the aab file, bundle instead of build:

./gradlew bundleDebug -Dlint.baselines.continue=true

... or, to create a signed release:

• Setup by adding the app/gradle.properties.secrets file (see properties at top of app/build.gradle) and the app/time-safari-upload-key-pkcs12.jks file
• In app/build.gradle, bump the versionCode and maybe the versionName
• Then bundleRelease:

cd android
./gradlew bundleRelease -Dlint.baselines.continue=true
cd -

... and find your aab file at app/build/outputs/bundle/release

At play.google.com/console:

• Go to the Testing Track (eg. Closed).

• Click "Create new release".

• Upload the aab file.

• Hit "Next".

• Save, go to "Publishing Overview" as prompted, and click "Send changes for review".

• Note that if you add testers, you have to go to "Publishing Overview" and send those changes or your (closed) testers won't see it.

Capacitor Operations

# Build Capacitor assets
npm run build:capacitor

# Sync Capacitor
npm run build:capacitor:sync

Testing

Web Testing

# Run web tests
npm run test:web

Mobile Testing

# Run mobile tests
npm run test:mobile

# Android tests
npm run test:android

# iOS tests
npm run test:ios

Device Checks

# Check Android device connection
npm run check:android-device

# Check iOS device/simulator
npm run check:ios-device

Test Prerequisites

# Test prerequisites
npm run test:prerequisites

Auto-Run System

The auto-run system provides automated development workflows:

# Auto-run with default settings
npm run auto-run

# Auto-run test environment
npm run auto-run:test

# Auto-run production environment
npm run auto-run:prod

# Platform-specific auto-run
npm run auto-run:ios
npm run auto-run:android
npm run auto-run:electron

Cleaning

# Clean Android
npm run clean:android

# Clean iOS
npm run clean:ios

# Clean Electron
npm run clean:electron

Fastlane Integration

iOS Fastlane

# Beta release
npm run fastlane:ios:beta

# App Store release
npm run fastlane:ios:release

Android Fastlane

# Beta release
npm run fastlane:android:beta

# Play Store release
npm run fastlane:android:release

Code Quality

# Lint code
npm run lint

# Fix linting issues
npm run lint-fix

Build Architecture

Web Build Process

1. Environment Setup: Load platform-specific environment variables
2. Asset Building: Vite builds optimized web assets
3. PWA Generation: Service worker and manifest creation
4. Output: Production-ready files in dist/ directory

Electron Build Process

1. Web Build: Vite builds web assets for Electron
2. Capacitor Sync: Copies assets to Electron app directory
3. TypeScript Compile: Compiles main process code
4. Native Module Rebuild: Rebuilds native dependencies
5. Package Creation: Generates platform-specific installers

Mobile Build Process

1. Web Build: Vite builds web assets
2. Capacitor Sync: Syncs with native platforms
3. Asset Generation: Creates platform-specific assets
4. Native Build: Platform-specific compilation
5. Package Creation: APK/IPA generation

Environment Configuration

Environment Files

• .env.development - Development environment
• .env.test - Testing environment
• .env.production - Production environment

Key Environment Variables

# API Servers
VITE_DEFAULT_ENDORSER_API_SERVER=https://api.endorser.ch
VITE_DEFAULT_IMAGE_API_SERVER=https://image-api.timesafari.app
VITE_DEFAULT_PARTNER_API_SERVER=https://partner-api.endorser.ch

# Platform Configuration
VITE_PLATFORM=web|electron|capacitor
VITE_APP_SERVER=https://timesafari.app

# Feature Flags
VITE_PASSKEYS_ENABLED=true

Android Configuration for deep links

You must add the following intent filter to the android/app/src/main/AndroidManifest.xml file:

<intent-filter android:autoVerify="true">
    <action android:name="android.intent.action.VIEW" />
    <category android:name="android.intent.category.DEFAULT" />
    <category android:name="android.intent.category.BROWSABLE" />
    <data android:scheme="https" android:host="timesafari.app" />
    <data android:scheme="http" android:host="timesafari.app" />
</intent-filter>

... though when we tried that most recently it failed to 'build' the APK with: http(s) scheme and host attribute are missing, but are required for Android App Links [AppLinkUrlError]

Troubleshooting

Common Issues

Build Failures

# Clean and rebuild
npm run clean:electron
npm run build:electron:dev

Native Module Issues

# Rebuild native modules
cd electron && npm run build

Asset Issues

# Regenerate assets
npm run build:ios:assets
npm run build:android:assets

Platform-Specific Issues

Windows

• Ensure Windows Build Tools installed
• Check NSIS installation
• Verify code signing certificates

macOS

• Install Xcode Command Line Tools
• Configure code signing certificates
• Check app notarization requirements

Linux

• Install required packages (rpm-tools, etc.)
• Check AppImage dependencies
• Verify desktop integration

iOS

• Install Xcode and Command Line Tools
• Configure signing certificates
• Check provisioning profiles

Android

• Install Android Studio and SDK
• Configure signing keys
• Check device/emulator setup

Additional Resources

• Electron Build Patterns
• iOS Build Scripts
• Android Build Scripts
• Web Build Scripts
• Build Troubleshooting

---

Appendix: Build System Organization

Build Process Overview

TimeSafari's build system follows a multi-stage process that prepares assets, combines scripts, and generates platform-specific outputs.

Pre-Build Preparation

1. Service Worker Script Preparation

# Optional: Format third-party service worker scripts
npx prettier --write ./sw_scripts/

What this does:

• Formats cryptographic libraries (nacl.js, noble-curves.js, noble-hashes.js, etc.)
• These scripts are automatically combined during the build process
• Improves readability and makes version control diffs cleaner
• Note: This is optional and only needed when updating third-party scripts

2. Automatic Pre-Build Steps The prebuild script automatically runs before any build:

"prebuild": "eslint --ext .js,.ts,.vue --ignore-path .gitignore src && node sw_combine.js && node scripts/copy-wasm.js"

What happens automatically:

• ESLint: Checks and fixes code formatting in src/
• Script Combination: sw_combine.js combines all sw_scripts/*.js files into sw_scripts-combined.js
• WASM Copy: copy-wasm.js copies SQLite WASM files to public/wasm/

Build Architecture

Web Build Process:

1. Pre-Build: ESLint + Script Combination + WASM Copy
2. Environment Setup: Load .env files, set NODE_ENV
3. Vite Build: Bundle web assets with PWA support
4. Service Worker: Inject combined scripts into PWA
5. Output: Production-ready files in dist/

Electron Build Process:

1. Web Build: Vite builds web assets for Electron
2. Capacitor Sync: Copies assets to Electron app directory
3. TypeScript Compile: Compiles main process code
4. Native Module Rebuild: Rebuilds native dependencies
5. Package Creation: Generates platform-specific installers

Mobile Build Process:

1. Web Build: Vite builds web assets
2. Capacitor Sync: Syncs with native platforms
3. Asset Generation: Creates platform-specific assets
4. Native Build: Platform-specific compilation
5. Package Creation: APK/IPA generation

Service Worker Architecture

Script Organization:

• sw_scripts/ - Individual third-party scripts
• sw_combine.js - Combines scripts into single file
• sw_scripts-combined.js - Combined service worker (317KB, 10K+ lines)
• vite.config.utils.mts - PWA configuration using combined script

PWA Integration:

// vite.config.utils.mts
pwaConfig: {
  strategies: "injectManifest",
  filename: "sw_scripts-combined.js",  // Uses our combined script
  // ... manifest configuration
}

What Gets Combined:

• nacl.js - NaCl cryptographic library
• noble-curves.js - Elliptic curve cryptography (177KB)
• noble-hashes.js - Cryptographic hash functions (91KB)
• safari-notifications.js - Safari-specific notifications
• additional-scripts.js - Additional service worker functionality

Environment Configuration

Environment Files:

• .env.development - Development environment
• .env.test - Testing environment
• .env.production - Production environment

Key Environment Variables:

# API Servers
VITE_DEFAULT_ENDORSER_API_SERVER=https://api.endorser.ch
VITE_DEFAULT_IMAGE_API_SERVER=https://image-api.timesafari.app
VITE_DEFAULT_PARTNER_API_SERVER=https://partner-api.endorser.ch

# Platform Configuration
VITE_PLATFORM=web|electron|capacitor
VITE_APP_SERVER=https://timesafari.app

# Feature Flags
VITE_PASSKEYS_ENABLED=true

Build Output Structure

Web Build:

dist/
├── index.html              # Main HTML file
├── assets/                 # Bundled JavaScript/CSS
├── sw.js                   # Service worker (injected)
├── manifest.webmanifest    # PWA manifest
└── wasm/                   # SQLite WASM files

Electron Build:

electron/
├── app/                    # Web assets
├── build/                  # Compiled TypeScript
├── dist/                   # Distribution packages
│   ├── TimeSafari.exe     # Windows executable
│   ├── TimeSafari.dmg     # macOS installer
│   ├── TimeSafari.AppImage # Linux AppImage
│   └── TimeSafari.deb     # Debian package
└── node_modules/           # Dependencies

Manual vs Automatic Steps

Manual Steps (Developer Responsibility):

• Database migration testing
• Service worker script formatting (optional)
• Version updates and changelog
• Environment-specific builds

Automatic Steps (Build System):

• Code linting and formatting
• Script combination
• Asset optimization
• Package creation
• Service worker injection

This architecture ensures consistent builds across all platforms while providing flexibility for platform-specific optimizations and manual quality assurance steps.

---

Appendix A: Build Scripts Reference

This appendix provides detailed documentation for all build scripts in the scripts/ directory.

A.1 build-web.sh

File: scripts/build-web.sh
Author: Matthew Raymer
Description: Web build script for TimeSafari application

Purpose: Handles the complete web build process including cleanup, environment setup, Vite build, and optional Docker containerization.

Usage:

# Direct script usage
./scripts/build-web.sh                    # Development build
./scripts/build-web.sh --dev              # Development build (explicit)
./scripts/build-web.sh --test             # Test environment build
./scripts/build-web.sh --prod             # Production environment build
./scripts/build-web.sh --docker           # Build with Docker containerization
./scripts/build-web.sh --docker:test      # Test environment + Docker
./scripts/build-web.sh --docker:prod      # Production environment + Docker
./scripts/build-web.sh --serve            # Build and serve locally
./scripts/build-web.sh --help             # Show help
./scripts/build-web.sh --verbose          # Enable verbose logging

# NPM Script Equivalents
npm run build:web                         # Development build
npm run build:web:test                    # Test environment build
npm run build:web:prod                    # Production environment build
npm run build:web:docker                  # Docker build
npm run build:web:docker:test             # Test Docker build
npm run build:web:docker:prod             # Production Docker build

Build Modes:

• Development: Starts Vite dev server with hot reload (default)
• Test: Optimized for testing with minimal minification
• Production: Optimized for production with full minification

Script Features:

• Environment Validation: Checks for Node.js, npm, npx, package.json
• Environment Setup: Loads .env files based on build mode
• Clean Build: Removes previous dist/ directory
• Vite Build: Executes npx vite build --config vite.config.web.mts
• Docker Support: Optional Docker containerization
• Local Serving: Built-in HTTP server for testing builds

Exit Codes:

• 1 - Web cleanup failed
• 2 - Environment setup failed
• 3 - Vite build failed
• 4 - Docker build failed
• 5 - Serve command failed
• 6 - Invalid build mode

A.2 build-electron.sh

File: scripts/build-electron.sh
Author: Matthew Raymer
Description: Clean, modular Electron build script for TimeSafari application

Purpose: Handles Electron builds with proper separation of concerns and no command chaining, following DRY principles.

Usage:

# Direct script usage
./scripts/build-electron.sh                    # Development build (runs app)
./scripts/build-electron.sh --dev              # Development build (runs app)
./scripts/build-electron.sh --test             # Test environment build
./scripts/build-electron.sh --prod             # Production environment build
./scripts/build-electron.sh --windows          # Windows build
./scripts/build-electron.sh --mac              # macOS build
./scripts/build-electron.sh --linux            # Linux build
./scripts/build-electron.sh --appimage         # Linux AppImage
./scripts/build-electron.sh --deb              # Debian package
./scripts/build-electron.sh --dmg              # macOS DMG
./scripts/build-electron.sh --help             # Show help
./scripts/build-electron.sh --verbose          # Enable verbose logging

# Examples
./scripts/build-electron.sh --prod --windows   # Windows production build
./scripts/build-electron.sh --test --appimage  # Linux AppImage test build
./scripts/build-electron.sh --dev --mac        # macOS development build

Build Modes:

• Development: Development build (runs app)
• Test: Test environment build
• Production: Production environment build
• Clean: Clean Electron build artifacts only

Platforms:

• Windows: Windows build
• macOS: macOS build
• Linux: Linux build

Packages:

• AppImage: Linux AppImage
• Deb: Debian package
• DMG: macOS DMG

Exit Codes:

• 1 - Invalid arguments
• 2 - Electron cleanup failed
• 3 - Web build failed
• 4 - Capacitor sync failed
• 5 - TypeScript compilation failed
• 6 - Electron packaging failed
• 7 - Asset generation failed
• 8 - Electron app launch failed

A.3 build-android.sh

File: scripts/build-android.sh
Author: Matthew Raymer
Date: 2025-07-11
Description: Android build script for TimeSafari application

Purpose: Handles the complete Android build process including cleanup, web build, Capacitor build, Gradle build, and Android Studio launch.

Usage:

# Direct script usage
./scripts/build-android.sh [options]

# Options
--dev, --development    Build for development environment
--test                  Build for testing environment  
--prod, --production    Build for production environment
--debug                 Build debug APK
--release               Build release APK
--studio                Open Android Studio after build
--apk                   Build APK file
--aab                   Build AAB (Android App Bundle)
--clean                 Clean build artifacts only
--sync                  Sync Capacitor only
--assets                Generate assets only
--deploy                Deploy APK to connected device
-h, --help             Show this help message
-v, --verbose          Enable verbose logging

# Examples
./scripts/build-android.sh --dev --studio    # Development build + open studio
./scripts/build-android.sh --prod --apk      # Production APK build
./scripts/build-android.sh --test --aab      # Testing AAB build
./scripts/build-android.sh --clean           # Clean only
./scripts/build-android.sh --sync            # Sync only

Build Modes:

• Development: Build for development environment
• Test: Build for testing environment
• Production: Build for production environment

Build Types:

• Debug: Build debug APK (default)
• Release: Build release APK

Exit Codes:

• 1 - Android cleanup failed
• 2 - Web build failed
• 3 - Capacitor build failed
• 4 - Gradle clean failed
• 5 - Gradle assemble failed
• 6 - Capacitor sync failed
• 7 - Asset generation failed
• 8 - Android Studio launch failed
• 9 - Resource check failed

A.4 build-ios.sh

File: scripts/build-ios.sh
Author: Matthew Raymer
Date: 2025-07-11
Description: iOS build script for TimeSafari application

Purpose: Handles the complete iOS build process including cleanup, web build, Capacitor build, Xcode build, and iOS Simulator launch.

Usage:

# Direct script usage
./scripts/build-ios.sh [options]

# Options
--dev, --development    Build for development environment
--test                  Build for testing environment
--prod, --production    Build for production environment
--debug                 Build debug app (default)
--release               Build release app
--studio                Open Xcode after build
--ipa                   Build IPA file
--app                   Build app bundle
--clean                 Clean build artifacts only
--sync                  Sync Capacitor only
--assets                Generate assets only
--deploy                Deploy app to connected device
--auto-run              Auto-run app after build
-h, --help             Show this help message
-v, --verbose          Enable verbose logging

# Examples
./scripts/build-ios.sh --dev --studio      # Development build + open Xcode
./scripts/build-ios.sh --prod --ipa        # Production IPA build
./scripts/build-ios.sh --test --app        # Testing app build
./scripts/build-ios.sh --clean             # Clean only
./scripts/build-ios.sh --sync              # Sync only

Build Modes:

• Development: Build for development environment
• Test: Build for testing environment
• Production: Build for production environment

Build Types:

• Debug: Build debug app (default)
• Release: Build release app

Key Features:

• Environment Validation: Checks for Xcode, iOS Simulator, Capacitor
• Resource Checking: Validates app icons, splash screens, Info.plist
• Clean Build: Removes Xcode build artifacts and DerivedData
• Asset Generation: Creates platform-specific assets
• Simulator Support: Launches iOS Simulator for testing

A.5 common.sh

File: scripts/common.sh
Author: Matthew Raymer
Description: Common utilities and functions for build scripts

Purpose: Provides shared functionality, logging, environment setup, and utility functions used by all build scripts.

Key Functions:

Logging Functions:

log_info "message"      # Info level logging
log_success "message"   # Success level logging
log_warning "message"   # Warning level logging
log_error "message"     # Error level logging
log_debug "message"     # Debug level logging

Environment Functions:

setup_build_env "platform"    # Setup build environment for platform
load_env_file "filename"      # Load environment variables from file
print_env_vars "prefix"       # Print environment variables with prefix

Utility Functions:

check_command "command"       # Check if command is available
check_file "filename"         # Check if file exists
safe_execute "description" "command"  # Execute command with error handling
clean_build_artifacts "dir"   # Clean build artifacts directory

Validation Functions:

validate_build_environment    # Validate common build environment
setup_app_directories         # Setup application directories
print_header "title"          # Print formatted header

Appendix B: Vite Configuration Files Reference

This appendix provides detailed documentation for all Vite configuration files.

B.1 vite.config.common.mts

File: vite.config.common.mts
Author: Matthew Raymer
Description: Common Vite configuration shared across all platforms

Purpose: Provides base configuration that is extended by platform-specific configs.

Key Features:

• Platform Detection: Automatically detects and configures for web/capacitor/electron
• Environment Setup: Loads environment variables and sets platform flags
• Path Aliases: Configures TypeScript path resolution
• Build Optimization: Platform-specific build optimizations
• Dependency Management: Handles platform-specific dependencies

Configuration Structure:

export async function createBuildConfig(platform: string): Promise<UserConfig> {
  const appConfig = await loadAppConfig();
  const isCapacitor = platform === "capacitor";
  const isElectron = platform === "electron";
  const isNative = isCapacitor || isElectron;

  return {
    base: "/",
    plugins: [vue()],
    server: { /* CORS and dev server config */ },
    build: { /* Platform-specific build config */ },
    worker: { /* Web worker configuration */ },
    define: { /* Environment variables and flags */ },
    resolve: { /* Path aliases and module resolution */ },
    optimizeDeps: { /* Dependency optimization */ }
  };
}

Environment Variables:

• VITE_PLATFORM: Set to platform name (web/capacitor/electron)
• __IS_MOBILE__: Boolean flag for mobile platforms
• __IS_ELECTRON__: Boolean flag for Electron platform
• __USE_QR_READER__: Boolean flag for QR reader availability

Path Aliases:

• @: Points to src/ directory
• @nostr/tools: Nostr tools library
• path, fs, crypto: Node.js polyfills for browser

B.2 vite.config.web.mts

File: vite.config.web.mts
Author: Matthew Raymer
Description: Vite configuration for web platform with PWA support

Purpose: Configures Vite for web builds with environment-specific optimizations and PWA features.

Key Features:

• Environment-Specific Configuration: Different settings for dev/test/prod
• PWA Integration: Progressive Web App support with service worker
• Build Optimization: Manual chunk splitting for better caching
• Source Maps: Environment-specific source map configuration
• Caching Strategies: Production-specific API caching

Environment Configurations:

Development Mode:

{
  build: {
    minify: false,
    sourcemap: true,
    rollupOptions: { output: { manualChunks: undefined } }
  },
  define: {
    __DEV__: true,
    __TEST__: false,
    __PROD__: false
  }
}

Test Mode:

{
  build: {
    minify: false,
    sourcemap: true,
    rollupOptions: { output: { manualChunks: undefined } }
  },
  define: {
    __DEV__: false,
    __TEST__: true,
    __PROD__: false
  }
}

Production Mode:

{
  build: {
    minify: 'terser',
    sourcemap: false,
    rollupOptions: {
      output: {
        manualChunks: {
          vendor: ['vue', 'vue-router', 'pinia'],
          utils: ['luxon', 'ramda', 'zod'],
          crypto: ['@ethersproject/wallet', '@ethersproject/hdnode'],
          sql: ['@jlongster/sql.js', 'absurd-sql']
        }
      }
    }
  },
  define: {
    __DEV__: false,
    __TEST__: false,
    __PROD__: true
  }
}

PWA Configuration:

VitePWA({
  registerType: 'autoUpdate',
  manifest: appConfig.pwaConfig?.manifest,
  devOptions: { enabled: true, type: 'classic' },
  workbox: {
    cleanupOutdatedCaches: true,
    skipWaiting: true,
    clientsClaim: true,
    sourcemap: mode !== 'production',
    maximumFileSizeToCacheInBytes: 10 * 1024 * 1024,
    runtimeCaching: mode === 'production' ? [/* API caching */] : []
  }
})

B.3 vite.config.electron.mts

File: vite.config.electron.mts
Author: Matthew Raymer
Description: Vite configuration for Electron desktop platform

Purpose: Configures Vite for Electron builds with desktop-specific optimizations and native module support.

Key Features:

• Electron-Specific Entry Point: Uses main.electron.ts instead of main.web.ts
• Native Module Support: Handles Electron-specific dependencies
• Desktop Optimizations: Larger chunk sizes and desktop-specific settings
• Source Map Suppression: Prevents DevTools warnings for external modules
• External Dependencies: Properly handles Electron and native modules

Configuration Structure:

export default defineConfig(async () => {
  const baseConfig = await createBuildConfig("electron");
  
  return {
    ...baseConfig,
    plugins: [
      // Electron entry point replacement
      // Source map suppression
      // External module handling
    ],
    build: {
      outDir: "dist",
      sourcemap: false,
      target: "node16",
      chunkSizeWarningLimit: 2000,
      rollupOptions: {
        external: ["electron", "@capacitor-community/electron"],
        output: {
          manualChunks: {
            vendor: ["vue", "vue-router", "@vueuse/core"],
            crypto: ["@nostr/tools", "crypto-js"],
            ui: ["@fortawesome/vue-fontawesome"]
          }
        }
      }
    },
    define: {
      '__ELECTRON__': JSON.stringify(true),
      '__IS_DESKTOP__': JSON.stringify(true),
      '__USE_NATIVE_SQLITE__': JSON.stringify(true)
    }
  };
});

Plugins:

• electron-entry-point: Replaces main entry point for Electron
• electron-config: Handles Electron-specific configurations
• suppress-source-maps: Suppresses source map loading errors

External Dependencies:

• electron: Electron runtime
• @capacitor-community/electron: Capacitor Electron plugin
• better-sqlite3-multiple-ciphers: Native SQLite module

B.4 vite.config.capacitor.mts

File: vite.config.capacitor.mts
Author: Matthew Raymer
Description: Vite configuration for Capacitor mobile platform

Purpose: Provides minimal configuration for Capacitor builds, inheriting from common config.

Configuration:

import { defineConfig } from "vite";
import { createBuildConfig } from "./vite.config.common.mts";

export default defineConfig(async () => createBuildConfig('capacitor'));

Key Features:

• Minimal Configuration: Inherits all settings from common config
• Mobile Platform: Automatically configures for mobile-specific settings
• PWA Disabled: Progressive Web App features disabled for native apps
• Native Dependencies: Handles Capacitor-specific dependencies

B.5 vite.config.utils.mts

File: vite.config.utils.mts
Author: Matthew Raymer
Description: Utility functions for Vite configuration

Purpose: Provides shared configuration loading and PWA manifest generation.

Key Functions:

loadPackageJson(): Loads and parses package.json for app configuration

loadAppConfig(): Loads complete application configuration including PWA settings

PWA Configuration:

interface PWAConfig {
  registerType: string;
  strategies: string;
  srcDir: string;
  filename: string;
  manifest: {
    name: string;
    short_name: string;
    theme_color: string;
    background_color: string;
    icons: ManifestIcon[];
    share_target: ShareTarget;
  };
}

Manifest Icons:

• Android Chrome 192x192 PNG
• Android Chrome 512x512 PNG
• Maskable icons for adaptive UI

Share Target Configuration:

share_target: {
  action: "/share-target",
  method: "POST",
  enctype: "multipart/form-data",
  params: {
    files: [{ name: "photo", accept: ["image/*"] }]
  }
}

Alias Configuration:

• @: Source directory alias
• buffer: Buffer polyfill
• dexie-export-import: Database import/export utilities

B.6 Additional Vite Configurations

vite.config.web.mts: Web platform configuration (used by build-web.sh) vite.config.electron.mts: Electron platform configuration (used by build-electron.sh) vite.config.capacitor.mts: Capacitor mobile configuration (used by npm run build:capacitor) vite.config.common.mts: Shared configuration utilities vite.config.utils.mts: Configuration utility functions vite.config.dev.mts: Development-specific configuration vite.config.optimized.mts: Optimized build configuration

Appendix C: Build Script Integration

C.1 Script Dependencies

All build scripts depend on scripts/common.sh for shared functionality:

# Source common utilities in all build scripts
source "$(dirname "$0")/common.sh"

C.2 Environment Variable Flow

1. Script Level: Build scripts set BUILD_MODE and NODE_ENV
2. Vite Level: Vite configs read environment variables and set define values
3. Application Level: Vue components access environment via import.meta.env

C.3 Build Process Flow

Web Build:

build-web.sh → vite.config.web.mts → dist/

Electron Build:

build-electron.sh → vite.config.electron.mts → electron/app/

Mobile Build:

build-android.sh/build-ios.sh → vite.config.capacitor.mts → android/ios/

C.4 Error Handling

All scripts use consistent error handling:

• Exit codes for different failure types
• Verbose logging with --verbose flag
• Safe command execution with safe_execute()
• Environment validation before builds

C.5 Platform-Specific Considerations

Web Platform:

• PWA features enabled
• Service worker injection
• Browser-specific optimizations

Electron Platform:

• Native module support
• Desktop-specific entry points
• Source map suppression

Mobile Platform:

• Capacitor integration
• Native asset generation
• Platform-specific builds

---

Note: This documentation is maintained alongside the build system. For the most up-to-date information, refer to the actual script files and Vite configuration files in the repository.