+import argparse
import asyncio
import logging
from datetime import datetime, timezone
-from threading import Timer
-import argparse
+from functools import partial
+from typing import Optional
import ocpp.v201
import websockets
Action,
AuthorizationStatusType,
ClearCacheStatusType,
+ GenericDeviceModelStatusType,
RegistrationStatusType,
- TransactionEventType,
ReportBaseType,
+ TransactionEventType,
)
+from websockets import ConnectionClosed
+
+from timer import Timer
# Setting up the logging configuration to display debug level messages.
logging.basicConfig(level=logging.DEBUG)
-
-class RepeatTimer(Timer):
- """Class that inherits from the Timer class. It will run a
- function at regular intervals."""
-
- def run(self):
- while not self.finished.wait(self.interval):
- self.function(*self.args, **self.kwargs)
+ChargePoints = set()
# Define a ChargePoint class inheriting from the OCPP 2.0.1 ChargePoint class.
class ChargePoint(ocpp.v201.ChargePoint):
+ _command_timer: Optional[Timer]
+
+ def __init__(self, connection):
+ super().__init__(connection.path.strip("/"), connection)
+ self._command_timer = None
+
# Message handlers to receive OCPP messages.
@on(Action.BootNotification)
async def on_boot_notification(self, charging_station, reason, **kwargs):
- logging.info("Received BootNotification")
+ logging.info("Received %s", Action.BootNotification)
# Create and return a BootNotification response with the current time,
# an interval of 60 seconds, and an accepted status.
return ocpp.v201.call_result.BootNotification(
@on(Action.Heartbeat)
async def on_heartbeat(self, **kwargs):
- logging.info("Received Heartbeat")
+ logging.info("Received %s", Action.Heartbeat)
return ocpp.v201.call_result.Heartbeat(
current_time=datetime.now(timezone.utc).isoformat()
)
async def on_status_notification(
self, timestamp, evse_id: int, connector_id: int, connector_status, **kwargs
):
- logging.info("Received StatusNotification")
+ logging.info("Received %s", Action.StatusNotification)
return ocpp.v201.call_result.StatusNotification()
@on(Action.Authorize)
async def on_authorize(self, id_token, **kwargs):
- logging.info("Received Authorize")
+ logging.info("Received %s", Action.Authorize)
return ocpp.v201.call_result.Authorize(
id_token_info={"status": AuthorizationStatusType.accepted}
)
):
match event_type:
case TransactionEventType.started:
- logging.info("Received TransactionEvent Started")
+ logging.info("Received %s Started", Action.TransactionEvent)
return ocpp.v201.call_result.TransactionEvent(
id_token_info={"status": AuthorizationStatusType.accepted}
)
case TransactionEventType.updated:
- logging.info("Received TransactionEvent Updated")
+ logging.info("Received %s Updated", Action.TransactionEvent)
return ocpp.v201.call_result.TransactionEvent(total_cost=10)
case TransactionEventType.ended:
- logging.info("Received TransactionEvent Ended")
+ logging.info("Received %s Ended", Action.TransactionEvent)
return ocpp.v201.call_result.TransactionEvent()
@on(Action.MeterValues)
async def on_meter_values(self, evse_id: int, meter_value, **kwargs):
- logging.info("Received MeterValues")
+ logging.info("Received %s", Action.MeterValues)
return ocpp.v201.call_result.MeterValues()
- @on(Action.GetBaseReport)
- async def on_get_base_report(self, request_id: int, report_base: ReportBaseType, **kwargs):
- logging.info("Received GetBaseReport")
- return ocpp.v201.call_result.GetBaseReport(status="Accepted")
-
# Request handlers to emit OCPP messages.
- async def send_clear_cache(self):
+ async def _send_clear_cache(self):
request = ocpp.v201.call.ClearCache()
response = await self.call(request)
if response.status == ClearCacheStatusType.accepted:
- logging.info("Cache clearing successful")
+ logging.info("%s successful", Action.ClearCache)
else:
- logging.info("Cache clearing failed")
+ logging.info("%s failed", Action.ClearCache)
+
+ async def _send_get_base_report(self):
+ request = ocpp.v201.call.GetBaseReport(
+ request_id=1, report_base=ReportBaseType.full_inventory
+ )
+ response = await self.call(request)
- async def send_get_base_report(self):
- logging.info("Executing send_get_base_report...")
- request = ocpp.v201.call.GetBaseReport(reportBase=ReportBaseType.ConfigurationInventory) # Use correct ReportBaseType
+ if response.status == GenericDeviceModelStatusType.accepted:
+ logging.info("%s successful", Action.GetBaseReport)
+ else:
+ logging.info("%s failed", Action.GetBaseReport)
+
+ async def _send_command(self, command_name: Action):
+ logging.debug("Sending OCPP command %s", command_name)
+ match command_name:
+ case Action.ClearCache:
+ await self._send_clear_cache()
+ case Action.GetBaseReport:
+ await self._send_get_base_report()
+ case _:
+ logging.info(f"Not supported command {command_name}")
+
+ async def send_command(
+ self, command_name: Action, delay: Optional[float], period: Optional[float]
+ ):
+ if not delay and not period:
+ raise ValueError("Either delay or period must be defined")
+ if delay and delay <= 0:
+ raise ValueError("Delay must be a positive number")
+ if period and period <= 0:
+ raise ValueError("Period must be a positive number")
try:
- response = await self.call(request)
- logging.info("Send GetBaseReport")
-
- if response.status == "Accepted": # Adjust depending on the structure of your response
- logging.info("Send GetBaseReport successful")
- else:
- logging.info("Send GetBaseReport failed")
- except Exception as e:
- logging.error(f"Send GetBaseReport failed: {str(e)}")
- logging.info("send_get_base_report done.")
-
-# Define argument parser
-parser = argparse.ArgumentParser(description='OCPP Charge Point Simulator')
-parser.add_argument('--request', type=str, help='OCPP 2 Command Name')
-parser.add_argument('--delay', type=int, help='Delay in seconds')
-parser.add_argument('--period', type=int, help='Period in seconds')
-
-args = parser.parse_args()
-
-# Function to send OCPP command
-async def send_ocpp_command(cp, command_name, delay=None, period=None):
- # If delay is not None, sleep for delay seconds
- if delay:
- await asyncio.sleep(delay)
-
- # If period is not None, send command repeatedly with period interval
- if period:
- while True:
- if command_name == 'GetBaseReport':
- logging.info("GetBaseReport parser working")
- await cp.send_get_base_report()
-
- await asyncio.sleep(period)
- else:
- if command_name == 'GetBaseReport':
- await cp.send_get_base_report()
+ if delay and not self._command_timer:
+ self._command_timer = Timer(
+ delay,
+ False,
+ self._send_command,
+ [command_name],
+ )
+ if period and not self._command_timer:
+ self._command_timer = Timer(
+ period,
+ True,
+ self._send_command,
+ [command_name],
+ )
+ except ConnectionClosed:
+ self.handle_connection_closed()
+
+ def handle_connection_closed(self):
+ logging.info("ChargePoint %s closed connection", self.id)
+ if self._command_timer:
+ self._command_timer.cancel()
+ ChargePoints.remove(self)
+ logging.debug("Connected ChargePoint(s): %d", len(ChargePoints))
# Function to handle new WebSocket connections.
-async def on_connect(websocket, path):
+async def on_connect(
+ websocket,
+ command_name: Optional[Action],
+ delay: Optional[float],
+ period: Optional[float],
+):
"""For every new charge point that connects, create a ChargePoint instance and start
listening for messages."""
try:
)
return await websocket.close()
- charge_point_id = path.strip("/")
- cp = ChargePoint(charge_point_id, websocket)
+ cp = ChargePoint(websocket)
+ if command_name:
+ await cp.send_command(command_name, delay, period)
- # Check if request argument is specified
- if args.request:
- asyncio.create_task(send_ocpp_command(cp, args.request, args.delay, args.period))
+ ChargePoints.add(cp)
- # Start the ChargePoint instance to listen for incoming messages.
- await cp.start()
+ try:
+ await cp.start()
+ except ConnectionClosed:
+ cp.handle_connection_closed()
# Main function to start the WebSocket server.
async def main():
+ parser = argparse.ArgumentParser(description="OCPP2 Server")
+ parser.add_argument("-c", "--command", type=Action, help="OCPP2 Command Name")
+ parser.add_argument("-d", "--delay", type=float, help="Delay in seconds")
+ parser.add_argument("-p", "--period", type=float, help="Period in seconds")
+
+ args = parser.parse_args()
+
# Create the WebSocket server and specify the handler for new connections.
server = await websockets.serve(
- on_connect,
+ partial(
+ on_connect, command_name=args.command, delay=args.delay, period=args.period
+ ),
"127.0.0.1", # Listen on loopback.
9000, # Port number.
subprotocols=["ocpp2.0", "ocpp2.0.1"], # Specify OCPP 2.0.1 subprotocols.
)
logging.info("WebSocket Server Started")
- # Create a ChargePoint instance
- # websocket = await websockets.connect('ws://localhost:9000')
- # cp = ChargePoint('test', websocket)
-
- # Call send_ocpp_command function
- # asyncio.create_task(send_ocpp_command(cp, args.request, args.delay, args.period))
-
# Wait for the server to close (runs indefinitely).
await server.wait_closed()