14893e62a5
This MVP release provides a complete full-stack solution for managing action mappings in Geutebruck's GeViScope and GeViSoft video surveillance systems. ## Features ### Flutter Web Application (Port 8081) - Modern, responsive UI for managing action mappings - Action picker dialog with full parameter configuration - Support for both GSC (GeViScope) and G-Core server actions - Consistent UI for input and output actions with edit/delete capabilities - Real-time action mapping creation, editing, and deletion - Server categorization (GSC: prefix for GeViScope, G-Core: prefix for G-Core servers) ### FastAPI REST Backend (Port 8000) - RESTful API for action mapping CRUD operations - Action template service with comprehensive action catalog (247 actions) - Server management (G-Core and GeViScope servers) - Configuration tree reading and writing - JWT authentication with role-based access control - PostgreSQL database integration ### C# SDK Bridge (gRPC, Port 50051) - Native integration with GeViSoft SDK (GeViProcAPINET_4_0.dll) - Action mapping creation with correct binary format - Support for GSC and G-Core action types - Proper Camera parameter inclusion in action strings (fixes CrossSwitch bug) - Action ID lookup table with server-specific action IDs - Configuration reading/writing via SetupClient ## Bug Fixes - **CrossSwitch Bug**: GSC and G-Core actions now correctly display camera/PTZ head parameters in GeViSet - Action strings now include Camera parameter: `@ PanLeft (Comment: "", Camera: 101028)` - Proper filter flags and VideoInput=0 for action mappings - Correct action ID assignment (4198 for GSC, 9294 for G-Core PanLeft) ## Technical Stack - **Frontend**: Flutter Web, Dart, Dio HTTP client - **Backend**: Python FastAPI, PostgreSQL, Redis - **SDK Bridge**: C# .NET 8.0, gRPC, GeViSoft SDK - **Authentication**: JWT tokens - **Configuration**: GeViSoft .set files (binary format) ## Credentials - GeViSoft/GeViScope: username=sysadmin, password=masterkey - Default admin: username=admin, password=admin123 ## Deployment All services run on localhost: - Flutter Web: http://localhost:8081 - FastAPI: http://localhost:8000 - SDK Bridge gRPC: localhost:50051 - GeViServer: localhost (default port) Generated with Claude Code (https://claude.com/claude-code) Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com>
89 lines
3.6 KiB
Python
89 lines
3.6 KiB
Python
#!/usr/bin/env python3
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"""Download raw config and analyze binary structure around action mappings"""
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import sys
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sys.path.insert(0, r'C:\DEV\COPILOT\geutebruck-api\src\api')
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import grpc
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import struct
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from protos import configuration_pb2
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from protos import configuration_pb2_grpc
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def analyze_raw_config():
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"""Download raw config via gRPC and save for analysis"""
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print("Connecting to SDK Bridge...")
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with grpc.insecure_channel('localhost:50051') as channel:
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stub = configuration_pb2_grpc.ConfigurationServiceStub(channel)
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# First get action mappings to find offsets
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print("Getting action mapping offsets...")
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mappings_request = configuration_pb2.ReadActionMappingsRequest()
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mappings_response = stub.ReadActionMappings(mappings_request)
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if not mappings_response.success:
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print("Failed to get action mappings")
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return False
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print(f"Got {mappings_response.total_count} action mappings")
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print(f"\nFirst 3 mappings:")
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for i, mapping in enumerate(mappings_response.mappings[:3]):
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print(f" [{i}] offset {mapping.start_offset}-{mapping.end_offset}, actions: {len(mapping.actions)}")
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for j, action in enumerate(mapping.actions):
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print(f" Action {j}: {action}")
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# Now export full config as JSON which includes all nodes
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print("\nExporting full configuration...")
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export_request = configuration_pb2.ExportJsonRequest()
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export_response = stub.ExportConfigurationJson(export_request)
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if not export_response.success:
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print(f"Export failed: {export_response.error_message}")
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return False
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print(f"Exported {export_response.json_size} bytes of JSON")
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# Save to file
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with open("full_config_export.json", "w", encoding="utf-8") as f:
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f.write(export_response.json_data)
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print("Saved to full_config_export.json")
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# Parse JSON to examine nodes around first action mapping
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import json
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config = json.loads(export_response.json_data)
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print(f"\nTotal nodes in config: {len(config['rootNodes'])}")
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# Find "ules" markers
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ules_markers = [i for i, node in enumerate(config['rootNodes']) if node['nodeType'] == 'marker' and 'ules' in (node.get('name') or '')]
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print(f"Found {len(ules_markers)} ules markers in exported JSON")
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if ules_markers:
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# Examine first marker
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marker_idx = ules_markers[0]
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marker = config['rootNodes'][marker_idx]
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print(f"\nFirst ules marker at index {marker_idx}, offset {marker['startOffset']}:")
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print(f" Name length: {len(marker.get('name', ''))}")
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print(f" Name (first 200 chars): {marker.get('name', '')[:200]}")
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print(f" Value type: {marker.get('valueType', '')}")
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print(f" Value: {str(marker.get('value', ''))[:200]}")
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# Show surrounding nodes
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print(f"\n Nodes around this marker (10 before, 30 after):")
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start_idx = max(0, marker_idx - 10)
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end_idx = min(len(config['rootNodes']), marker_idx + 30)
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for i in range(start_idx, end_idx):
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node = config['rootNodes'][i]
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prefix = ">>>" if i == marker_idx else " "
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name = (node.get('name', '') or '')[:40]
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value = str(node.get('value', ''))[:60]
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print(f"{prefix} [{i:4d}] offset={node['startOffset']:6d}, type={node['nodeType']:8s}, name={name!r}, value={value!r}")
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return True
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if __name__ == '__main__':
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analyze_raw_config()
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