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fix: Update protocol clients to fix security policy mismatch and register address issues 

- OPC UA client: Explicitly set security policy to 'None' to match server
- OPC UA client: Fix connection handling to check if connection succeeded
- Modbus client: Update register addresses to match server configuration
- Modbus client: Add proper connection success checking
This commit is contained in:
openhands 2025-11-01 19:52:58 +00:00
parent 7cf7ed928b
commit ac89d72aa9
1 changed files with 67 additions and 20 deletions
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87
src/dashboard/protocol_clients.py
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@ -24,6 +24,12 @@ class OPCUAClient:
try: try:
from asyncua import Client from asyncua import Client
self._client = Client(url=self.endpoint) self._client = Client(url=self.endpoint)
# Explicitly set security policy to match server configuration
# The server supports both Basic256Sha256 and None security policies
# Use None for development/testing
self._client.set_security_string("http://opcfoundation.org/UA/SecurityPolicy#None")
# Set timeout for connection # Set timeout for connection
await asyncio.wait_for(self._client.connect(), timeout=5.0) await asyncio.wait_for(self._client.connect(), timeout=5.0)
logger.info("opcua_client_connected", endpoint=self.endpoint) logger.info("opcua_client_connected", endpoint=self.endpoint)
@ -46,7 +52,9 @@ class OPCUAClient:
"""Read value from OPC UA node.""" """Read value from OPC UA node."""
try: try:
if not self._client: if not self._client:
await self.connect() connected = await self.connect()
if not connected:
return None
node = self._client.get_node(node_id) node = self._client.get_node(node_id)
value = await asyncio.wait_for(node.read_value(), timeout=3.0) value = await asyncio.wait_for(node.read_value(), timeout=3.0)
@ -62,7 +70,9 @@ class OPCUAClient:
"""Get all data for a specific pump.""" """Get all data for a specific pump."""
try: try:
if not self._client: if not self._client:
await self.connect() connected = await self.connect()
if not connected:
return {}
# Define node IDs for this pump # Define node IDs for this pump
nodes = { nodes = {
@ -120,7 +130,9 @@ class ModbusClient:
"""Read holding register(s).""" """Read holding register(s)."""
try: try:
if not self._client or not self._client.is_socket_open(): if not self._client or not self._client.is_socket_open():
self.connect() connected = self.connect()
if not connected:
return None
# Set timeout for the read operation # Set timeout for the read operation
if hasattr(self._client, 'timeout'): if hasattr(self._client, 'timeout'):
@ -146,7 +158,9 @@ class ModbusClient:
"""Read input register(s).""" """Read input register(s)."""
try: try:
if not self._client or not self._client.is_socket_open(): if not self._client or not self._client.is_socket_open():
self.connect() connected = self.connect()
if not connected:
return None
# Set timeout for the read operation # Set timeout for the read operation
if hasattr(self._client, 'timeout'): if hasattr(self._client, 'timeout'):
@ -171,22 +185,32 @@ class ModbusClient:
def get_pump_registers(self, pump_num: int) -> Dict[str, Any]: def get_pump_registers(self, pump_num: int) -> Dict[str, Any]:
"""Get all register data for a specific pump.""" """Get all register data for a specific pump."""
try: try:
# Calculate base register for this pump # Calculate register addresses based on server configuration
base_register = 40000 + (pump_num * 10) # Server uses: SETPOINT_BASE=0, STATUS_BASE=100, SAFETY_BASE=200, PERFORMANCE_BASE=400
# Each pump gets 10 registers in each block
pump_offset = (pump_num - 1) * 10
# Read holding registers (setpoints) # Read holding registers (setpoints) - base address 0
setpoint = self.read_holding_register(base_register + 1, 1) setpoint = self.read_holding_register(pump_offset, 1)
# Read input registers (status values) # Read input registers (status values) - base address 100
actual_speed = self.read_input_register(base_register + 2, 1) actual_speed = self.read_input_register(100 + pump_offset, 1)
power = self.read_input_register(base_register + 3, 1) power = self.read_input_register(100 + pump_offset + 1, 1)
temperature = self.read_input_register(base_register + 4, 1) flow_rate = self.read_input_register(100 + pump_offset + 2, 1)
# Read safety status - base address 200
safety_status = self.read_input_register(200 + pump_offset, 1)
# Read performance metrics - base address 400
efficiency = self.read_input_register(400 + pump_offset, 1)
return { return {
"setpoint": setpoint[0] if setpoint else None, "setpoint": setpoint[0] if setpoint else None,
"actual_speed": actual_speed[0] if actual_speed else None, "actual_speed": actual_speed[0] if actual_speed else None,
"power": power[0] if power else None, "power": power[0] if power else None,
"temperature": temperature[0] if temperature else None "flow_rate": flow_rate[0] if flow_rate else None,
"safety_status": safety_status[0] if safety_status else None,
"efficiency": efficiency[0] if efficiency else None
} }
except Exception as e: except Exception as e:
logger.error("failed_to_get_pump_registers", pump_num=pump_num, error=str(e)) logger.error("failed_to_get_pump_registers", pump_num=pump_num, error=str(e))
@ -279,13 +303,18 @@ class ProtocolDataCollector:
setpoint = modbus_data.get('setpoint', 0) or 0 setpoint = modbus_data.get('setpoint', 0) or 0
actual_speed = modbus_data.get('actual_speed', 0) or 0 actual_speed = modbus_data.get('actual_speed', 0) or 0
power = modbus_data.get('power', 0) or 0 power = modbus_data.get('power', 0) or 0
temperature = modbus_data.get('temperature', 0) or 0 flow_rate = modbus_data.get('flow_rate', 0) or 0
safety_status = modbus_data.get('safety_status', 0) or 0
efficiency = modbus_data.get('efficiency', 0) or 0
# Calculate pump offset for address display
pump_offset = (pump_num - 1) * 10
signals.extend([ signals.extend([
{ {
"name": f"Station_{station_id}_Pump_{pump_id}_Setpoint", "name": f"Station_{station_id}_Pump_{pump_id}_Setpoint",
"protocol": "modbus", "protocol": "modbus",
"address": f"{40000 + (pump_num * 10) + 1}", "address": f"Holding Register {pump_offset}",
"data_type": "Integer", "data_type": "Integer",
"current_value": f"{setpoint} Hz (x10)", "current_value": f"{setpoint} Hz (x10)",
"quality": "Good", "quality": "Good",
@ -294,7 +323,7 @@ class ProtocolDataCollector:
{ {
"name": f"Station_{station_id}_Pump_{pump_id}_ActualSpeed", "name": f"Station_{station_id}_Pump_{pump_id}_ActualSpeed",
"protocol": "modbus", "protocol": "modbus",
"address": f"{40000 + (pump_num * 10) + 2}", "address": f"Input Register {100 + pump_offset}",
"data_type": "Integer", "data_type": "Integer",
"current_value": f"{actual_speed} Hz (x10)", "current_value": f"{actual_speed} Hz (x10)",
"quality": "Good", "quality": "Good",
@ -303,18 +332,36 @@ class ProtocolDataCollector:
{ {
"name": f"Station_{station_id}_Pump_{pump_id}_Power", "name": f"Station_{station_id}_Pump_{pump_id}_Power",
"protocol": "modbus", "protocol": "modbus",
"address": f"{40000 + (pump_num * 10) + 3}", "address": f"Input Register {100 + pump_offset + 1}",
"data_type": "Integer", "data_type": "Integer",
"current_value": f"{power} kW (x10)", "current_value": f"{power} kW (x10)",
"quality": "Good", "quality": "Good",
"timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S") "timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S")
}, },
{ {
"name": f"Station_{station_id}_Pump_{pump_id}_Temperature", "name": f"Station_{station_id}_Pump_{pump_id}_FlowRate",
"protocol": "modbus", "protocol": "modbus",
"address": f"{40000 + (pump_num * 10) + 4}", "address": f"Input Register {100 + pump_offset + 2}",
"data_type": "Integer", "data_type": "Integer",
"current_value": f"{temperature} °C", "current_value": f"{flow_rate} m³/h",
"quality": "Good",
"timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S")
},
{
"name": f"Station_{station_id}_Pump_{pump_id}_SafetyStatus",
"protocol": "modbus",
"address": f"Input Register {200 + pump_offset}",
"data_type": "Integer",
"current_value": f"{safety_status}",
"quality": "Good",
"timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S")
},
{
"name": f"Station_{station_id}_Pump_{pump_id}_Efficiency",
"protocol": "modbus",
"address": f"Input Register {400 + pump_offset}",
"data_type": "Integer",
"current_value": f"{efficiency} %",
"quality": "Good", "quality": "Good",
"timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S") "timestamp": datetime.now().strftime("%Y-%m-%d %H:%M:%S")
} }