# Wedding Phone - Vintage Rotary Phone Audio System A Raspberry Pi-based rotary phone system for weddings and events. Guests can pick up the handset to hear custom greeting messages and leave voice recordings. Features a modern web interface for managing messages and recordings. ## Features - **Vintage Phone Integration**: Uses a real rotary phone with GPIO hook detection - **Custom Greeting Messages**: Upload multiple greeting messages and select which one plays - **Voice Recording**: Automatically records guest messages after the greeting - **Web Interface**: Beautiful, responsive web UI for managing the system - **Audio Playback**: Play recordings and greetings directly in the browser - **Volume Control**: Adjust playback volume with real-time slider (0-100%) - **Multiple Message Support**: Upload and manage multiple greeting messages - **Active Message Selector**: Choose which greeting plays when the phone is picked up - **Extra Button Support**: Optional GPIO button to play custom sounds during recording - **USB Backup**: Automatic backup to multiple USB drives with CRC32 verification - **Data Integrity**: Every file write is verified with CRC checksums - **HiFiBerry Support**: Optimized for HiFiBerry DAC+ADC Pro audio quality - **Real-time Status**: Monitor phone status (on-hook/off-hook/recording) - **Auto-refresh**: Status updates every 5 seconds ## Hardware Requirements - Raspberry Pi (3/4/5 or Zero 2 W) - HiFiBerry DAC+ADC Pro (or similar audio interface) - Vintage rotary phone with hookswitch - Speaker (connected to HiFiBerry output) - Microphone (connected to HiFiBerry input, or use phone handset mic) ## Software Requirements - Raspberry Pi OS (Bullseye or newer) - Python 3.7+ - Required Python packages: - pyaudio - flask - numpy - RPi.GPIO - wave (built-in) ## Installation ### 1. Clone the Repository ```bash git clone https://git.b4l.co.th/grabowski/wedding-phone.git cd wedding-phone ``` ### 2. Install UV (Recommended) UV is a fast Python package installer and resolver. Install it: ```bash curl -LsSf https://astral.sh/uv/install.sh | sh # Or on Raspberry Pi with pip: pip3 install uv ``` ### 3. Install Dependencies #### Option A: Using UV (Recommended) ```bash # Install system dependencies sudo apt-get update sudo apt-get install -y python3-pyaudio portaudio19-dev # Install Python dependencies with UV uv pip install -e . ``` #### Option B: Using pip ```bash sudo apt-get update sudo apt-get install -y python3-pip python3-pyaudio portaudio19-dev pip3 install flask numpy RPi.GPIO ``` ### 4. Configure HiFiBerry Run the automatic configuration script: ```bash chmod +x configure_hifiberry.sh ./configure_hifiberry.sh ``` Or follow the manual instructions in `AUDIO_FIX.md`. ### 5. Create Configuration File Copy the example configuration and customize it: ```bash cp config.example.json config.json nano config.json # or use your preferred editor ``` **Important settings to configure:** ```json { "gpio": { "hook_pin": 17, // GPIO pin for hookswitch "hook_pressed_state": "LOW", // "LOW" or "HIGH" "extra_button_enabled": true, // Enable extra button feature "extra_button_pin": 27, // GPIO pin for extra button "extra_button_pressed_state": "LOW" // "LOW" or "HIGH" }, "audio": { "device_index": 1, // HiFiBerry device index "sample_rate": 44100 }, "paths": { "base_dir": "./rotary_phone_data" // Relative or absolute path }, "web": { "port": 8080 } } ``` **Finding your audio device index:** ```bash python3 -c "import pyaudio; p=pyaudio.PyAudio(); [print(f'{i}: {p.get_device_info_by_index(i)[\"name\"]}') for i in range(p.get_device_count())]" ``` ### 6. Test Your Audio ```bash python3 test_complete.py ``` This will test: - Speaker playback - Dial tone generation - Microphone recording ### 7. Run the System ```bash python3 rotary_phone_web.py ``` The web interface will be available at: - `http://localhost:8080` - `http://:8080` ## Usage ### Web Interface The web interface provides four main sections: #### 1. Phone Status - Shows current phone state (on-hook/off-hook/recording) - Displays active recording filename - Auto-refreshes every 5 seconds #### 2. Volume Control - **Adjust Volume**: Drag slider to set playback volume (0-100%) - Real-time visual feedback with percentage display - Changes apply immediately to greeting playback - Volume setting persists across restarts #### 3. Greeting Messages - **Upload**: Click "Choose WAV File(s)" to upload one or multiple greeting messages - **Play**: Click "▶️ Play" to preview any greeting in your browser - **Set Active**: Click "⭐ Set Active" to select which greeting plays when the phone is picked up - **Set Button**: Click "🔘 Set Button" to assign sound to extra button (if enabled) - **Delete**: Remove unwanted greetings (cannot delete the active one) - **Default Tone**: Generate a classic telephone dial tone #### 4. Recordings - **Play**: Listen to recordings directly in the browser - **Download**: Save recordings to your computer - **Delete**: Remove unwanted recordings - **Statistics**: View total recordings, storage used, and total duration ### Phone Operation 1. **Guest picks up phone**: System detects via GPIO 2. **Greeting plays**: Active greeting message plays through speaker 3. **Recording starts**: After greeting, system records guest message 4. **Guest hangs up**: Recording stops and saves automatically 5. **Ready for next call**: System returns to waiting state ### Extra Button Operation (Optional) If enabled in `config.json`: 1. **Guest picks up phone**: Phone goes off-hook, greeting plays 2. **Recording starts**: After greeting finishes 3. **Guest presses button**: System detects GPIO signal (only works during recording) 4. **Sound plays**: Configured button sound plays through speaker 5. **Can be pressed multiple times**: Works throughout the recording phase 6. **Debounced**: 0.5s delay prevents accidental double-presses **Note:** Button only responds during the recording phase (not during greeting or when on-hook) ### Greeting Delay (Optional) Configure a delay before the greeting plays: - Set `greeting_delay_seconds` in `config.json` (0-10 seconds) - Useful for giving guests a moment after picking up - Example: 2 second delay gives time to position the phone - Default: 0 (greeting plays immediately) ### USB Backup (Optional) Automatically backup all recordings and greeting files to USB drives: **Configuration** (`config.json`): ```json { "backup": { "enabled": true, "usb_paths": [ "/media/usb0", "/media/usb1" ], "verify_crc": true, "backup_on_write": true } } ``` **Features:** - **Multiple USB Drives**: Backup to one or more USB drives simultaneously - **CRC32 Verification**: Every backup is verified with CRC checksum - **Automatic Backup**: Files are backed up immediately after recording/upload - **Integrity Check**: Corrupted backups are automatically deleted - **Web Monitoring**: View USB drive status, free space, and test backups **Web Interface:** - Monitor USB drive status (mounted, writable, free space) - Test backup functionality with one click - View real-time backup results - Green = Ready, Yellow = Not Writable, Red = Not Mounted **Backup Structure:** ``` /media/usb0/ └── wedding-phone-backup/ ├── recordings/ │ ├── recording_20250124_143022.wav │ └── recording_20250124_143145.wav └── sounds/ ├── dialtone.wav └── greeting.wav ``` **How It Works:** 1. Recording finishes or greeting uploaded 2. File saved to main storage 3. CRC32 checksum calculated for source file 4. File copied to each USB drive 5. CRC32 checksum verified on each copy 6. Corrupted copies deleted automatically 7. Success/failure logged to console **Mount USB Drives:** ```bash # Create mount points sudo mkdir -p /media/usb0 /media/usb1 # Auto-mount in /etc/fstab (example) UUID=XXXX-XXXX /media/usb0 vfat defaults,nofail 0 0 UUID=YYYY-YYYY /media/usb1 vfat defaults,nofail 0 0 # Or mount manually sudo mount /dev/sda1 /media/usb0 sudo mount /dev/sdb1 /media/usb1 ``` ## File Structure ``` wedding-phone/ ├── rotary_phone_web.py # Main application ├── test_complete.py # Audio testing script ├── configure_hifiberry.sh # HiFiBerry setup script ├── config.example.json # Example configuration (copy to config.json) ├── pyproject.toml # UV/pip package configuration ├── AUDIO_FIX.md # Audio configuration guide ├── README.md # This file ├── .gitignore # Git ignore rules └── templates/ # Auto-generated on first run └── index.html # Web interface (embedded in script) ``` **Note:** The `templates/index.html` file is automatically generated when you first run `rotary_phone_web.py`. If you update the script and want to regenerate the template with new features, simply delete the `templates` directory and restart the script. ### Runtime Data (Auto-created) ``` rotary_phone_data/ # Default location (configurable) ├── recordings/ # Voice recordings from guests ├── sounds/ # Greeting message WAV files └── user_config.json # Runtime settings (volume, active greeting) ``` ## Configuration All configuration is done via the `config.json` file. **No need to edit Python code!** ### Configuration File Structure The `config.json` file contains all system settings: ```json { "gpio": { "hook_pin": 17, // GPIO pin number for hookswitch "hook_pressed_state": "LOW", // "LOW" or "HIGH" depending on switch "extra_button_enabled": true, // Enable optional extra button "extra_button_pin": 27, // GPIO pin for extra button "extra_button_pressed_state": "LOW" // Button pressed state }, "audio": { "device_index": 1, // Audio device index (run test to find) "chunk_size": 1024, // Audio buffer size "format": "paInt16", // Audio format (16-bit) "channels": 1, // Mono audio "sample_rate": 44100, // 44.1kHz sample rate "max_record_seconds": 300 // Max recording time (5 minutes) }, "paths": { "base_dir": "./rotary_phone_data", // Data directory (relative or absolute) "recordings_dir": "recordings", // Subdirectory for recordings "sounds_dir": "sounds" // Subdirectory for greeting sounds }, "backup": { "enabled": true, // Enable USB backup "usb_paths": ["/media/usb0", "/media/usb1"], // USB mount points "verify_crc": true, // Verify backups with CRC32 "backup_on_write": true // Backup immediately after write }, "web": { "port": 8080, // Web interface port "max_upload_size_mb": 50 // Max upload file size }, "system": { "active_greeting": "dialtone.wav", // Default greeting "extra_button_sound": "button_sound.wav", // Default button sound "greeting_delay_seconds": 0, // Delay before greeting plays (0-10) "volume": 70 // Default volume (0-100) } } ``` ### Finding Your Audio Device To find your HiFiBerry or other audio device index: ```bash python3 -c "import pyaudio; p=pyaudio.PyAudio(); [print(f'{i}: {p.get_device_info_by_index(i)[\"name\"]}') for i in range(p.get_device_count())]" ``` Look for your HiFiBerry device and note its index number, then set it in `config.json`. ## Troubleshooting ### No Sound from Speaker 1. Check HiFiBerry configuration: ```bash aplay -l # List audio devices amixer -c 3 sset Digital 100% # Set volume (adjust card number) ``` 2. Test speaker directly: ```bash speaker-test -D plughw:3,0 -c 1 -t wav ``` 3. Run the complete test: ```bash python3 test_complete.py ``` ### Microphone Not Recording 1. Check microphone is connected to HiFiBerry input 2. Adjust input gain: ```bash alsamixer -c 3 ``` 3. Test recording: ```bash arecord -D plughw:3,0 -f cd test.wav -d 5 aplay test.wav ``` ### GPIO Not Detecting Hookswitch 1. Verify GPIO pin number in `config.json` 2. Check if switch is normally open or closed 3. Update `hook_pressed_state` in `config.json` ("LOW" or "HIGH") 4. Test with a simple script: ```python import RPi.GPIO as GPIO GPIO.setmode(GPIO.BCM) GPIO.setup(17, GPIO.IN, pull_up_down=GPIO.PUD_UP) print(GPIO.input(17)) # Should change when switch toggles ``` ### Web Interface Not Accessible 1. Check if Flask is running: `ps aux | grep python` 2. Verify port in `config.json` matches URL 3. Check firewall: `sudo ufw allow 8080` (or your configured port) 4. Check IP address: `hostname -I` 5. Try localhost: `http://127.0.0.1:8080` ### Configuration Errors If the script won't start: 1. Ensure `config.json` exists (copy from `config.example.json`) 2. Validate JSON syntax: `python3 -m json.tool config.json` 3. Check all paths exist or can be created 4. Verify audio device index is correct ## Auto-start on Boot Create a systemd service: ```bash sudo nano /etc/systemd/system/wedding-phone.service ``` Add (replace `/path/to/wedding-phone` with your actual path): ```ini [Unit] Description=Wedding Phone Service After=network.target sound.target [Service] Type=simple User=pi WorkingDirectory=/path/to/wedding-phone ExecStart=/usr/bin/python3 /path/to/wedding-phone/rotary_phone_web.py Restart=always RestartSec=10 [Install] WantedBy=multi-user.target ``` Enable and start: ```bash sudo systemctl daemon-reload sudo systemctl enable wedding-phone.service sudo systemctl start wedding-phone.service sudo systemctl status wedding-phone.service ``` ## API Endpoints The system provides REST API endpoints: - `GET /` - Web interface - `GET /api/status` - Phone status JSON - `GET /api/recordings` - List all recordings - `GET /api/greetings` - List all greeting messages - `GET /api/volume` - Get current volume setting - `POST /api/volume` - Set volume level (0-100) - `POST /upload_greeting` - Upload new greeting - `POST /set_active_greeting` - Set active greeting - `POST /delete_greeting/` - Delete greeting - `GET /play_audio//` - Stream audio file - `GET /download/` - Download recording - `POST /delete/` - Delete recording - `POST /restore_default_sound` - Generate default dial tone ## Contributing Feel free to open issues or submit pull requests for improvements. ## License This project is open source and available for personal and commercial use. ## Credits Created for wedding events to capture guest messages in a unique, nostalgic way. ## Support For issues or questions, please open an issue on the repository.