- Updated CameraStreamer to configure streaming settings from config.json, including manual exposure, gain, image quality, noise reduction, and color settings.
- Added new methods in CameraStreamer for configuring image quality, noise reduction, color settings, and advanced settings.
- Extended CameraConfig to include manual white balance RGB gains.
- Improved AutoRecordingManager to handle camera status updates and ensure proper recording starts/stops based on machine state changes.
- Created detailed configuration documentation for blower and conveyor cameras, outlining settings and their mappings to config.json.
- Implemented a comprehensive test script for auto-recording functionality with simulated MQTT messages, verifying correct behavior on machine state changes.
- Added instructions for implementing auto-recording functionality in the React app.
- Updated TypeScript interfaces to include new fields for auto-recording status and configuration.
- Created new API endpoints for enabling/disabling auto-recording and retrieving system status.
- Enhanced UI components to display auto-recording status, controls, and error handling.
- Developed a comprehensive Auto-Recording Feature Implementation Guide.
- Implemented a test script for validating auto-recording functionality, including configuration checks and API connectivity.
- Introduced AutoRecordingManager to manage automatic recording based on machine state changes with retry logic.
- Established a retry mechanism for failed recording attempts and integrated status tracking for auto-recording.
- Implemented streaming API endpoints for starting, stopping, and retrieving live streams from cameras.
- Added support for concurrent streaming and recording operations.
- Created test scripts for frame conversion and streaming functionality.
- Developed a CameraStreamer class to manage live preview streaming without blocking recording.
- Included error handling and logging for camera operations.
- Added configuration endpoints for camera settings and real-time updates.
- Enhanced testing scenarios for various camera configurations and error handling.
- Implemented main test script to verify system components and functionality.
- Added individual test scripts for camera exposure settings, API changes, camera recovery, maximum FPS, MQTT events, logging, and timezone functionality.
- Created service file for system management and automatic startup.
- Included detailed logging and error handling in test scripts for better diagnostics.
- Ensured compatibility with existing camera SDK and API endpoints.
- Implemented mqtt_publisher_test.py for manual MQTT message publishing
- Created mqtt_test.py to test MQTT message reception and display statistics
- Developed test_api_changes.py to verify API changes for camera settings and filename handling
- Added test_camera_recovery_api.py for testing camera recovery API endpoints
- Introduced test_max_fps.py to demonstrate maximum FPS capture functionality
- Implemented test_mqtt_events_api.py to test MQTT events API endpoint
- Created test_mqtt_logging.py for enhanced MQTT logging and API endpoint testing
- Added sdk_config.py for SDK initialization and configuration with error suppression
