mirror of
https://github.com/30hours/3lips.git
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Lots of skeleton and TCP sockets between event/api
This commit is contained in:
parent
22e51a94e7
commit
61914d0282
7 changed files with 322 additions and 5 deletions
23
api/main.py
23
api/main.py
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@ -2,10 +2,20 @@
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from flask import Flask, Response, render_template, request, redirect, jsonify, send_from_directory
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import os
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import sqlite3
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import requests
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import time
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import socket
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from util.Sqlite import Sqlite
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app = Flask(__name__)
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# init db
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# sqlite = Sqlite('./db/3lips.db')
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# schema = "api TEXT PRIMARY KEY, timestamp INTEGER NOT NULL"
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# sqlite.create_table("data", schema)
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# store state data
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servers = [
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{"name": "radar4", "url": "radar4.30hours.dev"},
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@ -44,6 +54,11 @@ def serve_static(file):
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@app.route("/api")
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def api():
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api = request.query_string.decode('utf-8')
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# timestamp = time.time()*1000
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# sqlite.add_entry("data", api, timestamp)
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send_data_to_event(api)
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urls = request.args.getlist("url")
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data = [{"url": 'http://' + url} for url in urls]
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return jsonify(data)
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@ -54,7 +69,7 @@ def serve_map(file):
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public_folder = os.path.join(base_dir, 'map')
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return send_from_directory(public_folder, file)
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# Handle /cesium/ specifically
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# handle /cesium/ specifically
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@app.route('/cesium/')
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def serve_cesium_index():
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return redirect('/cesium/index.html')
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@ -71,5 +86,11 @@ def serve_cesium_content(file):
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print(f"Error fetching content from Apache server: {e}")
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return Response('Error fetching content from Apache server', status=500, content_type='text/plain')
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def send_data_to_event(data):
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with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as s:
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# Use the service name 'event' as specified in your Docker Compose file
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s.connect(('event', 12345))
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s.sendall(data.encode())
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if __name__ == "__main__":
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app.run(debug=True)
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70
api/util/Sqlite.py
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70
api/util/Sqlite.py
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@ -0,0 +1,70 @@
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"""
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@file Sqlite.py
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@author 30hours
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"""
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import sqlite3
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class Sqlite:
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"""
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@class Sqlite
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@brief A class for interacting with an SQLite database.
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@see https://sqlite.org/ for more information on SQLite.
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"""
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def __init__(self, database_path):
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"""
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@brief Constructor for the Sqlite class.
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@param database_path (str): Path to the SQLite database.
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"""
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self.connection = sqlite3.connect(database_path)
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self.cursor = self.connection.cursor()
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def table_exists(self, table_name):
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"""
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@brief Check if a table if the given name exists in the database.
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@param table_name (str): Name of the table.
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@return bool: True if the table exists.
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"""
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self.cursor.execute(f"SELECT name FROM sqlite_master WHERE type='table' AND name='{table_name}'")
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return self.cursor.fetchone() is not None
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def execute_query(self, query, parameters=None):
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"""
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@brief Execute an SQL query on the database.
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@param query (str): SQL query to execute.
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@param parameters (tuple, optional): Parameters to bind to the query.
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@return None
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"""
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if parameters:
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self.cursor.execute(query, parameters)
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else:
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self.cursor.execute(query)
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self.connection.commit()
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def fetch_all_rows(self, query):
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"""
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@brief Fetch all rows resulting from an SQL query.
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@param query (str): SQL query to execute.
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@return list: List of tuples representing the result rows.
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"""
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self.cursor.execute(query)
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return self.cursor.fetchall()
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def close_connection(self):
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"""
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@brief Close the SQLite database connection.
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@return None
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"""
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self.connection.close()
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40
event/algorithm/associator/AdsbAssociator.py
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40
event/algorithm/associator/AdsbAssociator.py
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"""
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@file AdsbAssociator.py
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@author 30hours
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"""
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class AdsbAssociator:
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"""
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@class AdsbAssociator
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@brief A class for associating a detection with ADS-B truth.
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@details Uses radar detection data from a blah2 server.
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@see blah2 at https://github.com/30hours/blah2.
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Uses truth data in delay-Doppler space from an adsb2dd server.
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@see adsb2dd at https://github.com/30hours/adsb2dd.
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"""
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def __init__(self):
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"""
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@brief Constructor for the AdsbAssociator class.
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"""
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def process(self, assoc_detections_list):
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"""
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@brief Associate detections from 2+ radars.
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@param assoc_detections_list (list): List of JSON associated detections.
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@return str: JSON of associated detections.
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"""
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def process_1_radar(self, radar_detections, adsb_detections):
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"""
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@brief Associate detections between 1 radar/truth pair.
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@param radar_detections (str): JSON of blah2 radar detections.
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@param adsb_detections (str): JSON of adsb2dd truth detections.
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@return str: JSON of associated detections.
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"""
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32
event/algorithm/coordreg/EllipseParametric.py
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32
event/algorithm/coordreg/EllipseParametric.py
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"""
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@file EllipseParametric.py
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@author 30hours
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"""
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class EllipseParametric:
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"""
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@class EllipseParametric
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@brief A class for intersecting ellipses using a parametric approx.
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@details Uses associated detections from multiple radars.
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@see blah2 at https://github.com/30hours/blah2.
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"""
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def __init__(self):
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"""
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@brief Constructor for the EllipseParametric class.
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"""
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def process(self, assoc_detections):
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"""
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@brief Perform coord registration using the ellipse parametric method.
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@details Generate a (non arc-length) parametric ellipse for each node.
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Find
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@param radar_detections (str): JSON of blah2 radar detections.
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@param adsb_detections (str): JSON of adsb2dd truth detections.
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@return str: JSON of associated detections.
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"""
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@ -1,18 +1,74 @@
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import asyncio
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import sqlite3
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import requests
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import threading
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import socket
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from datetime import datetime
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print('testtttttt', flush=True)
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from algorithm.associator.AdsbAssociator import AdsbAssociator
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from algorithm.coordreg.EllipseParametric import EllipseParametric
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from util.Sqlite import Sqlite
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# init db
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sqlite = Sqlite('./db/3lips.db')
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# init event loop
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api = []
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api_update = []
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async def event():
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timestamp = datetime.now().strftime("%Y-%m-%d %H:%M:%S")
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print("Event triggered at: " + timestamp, flush=True)
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# Create and run the event loop
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# main event loop
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#for api_x in api:
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# request data from API
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# response = requests.get(data_i["url_radar_detections"])
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# data_i["radar_detections"] =
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# API management
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#if sqlite.table_exists('data'):
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# add new API requests
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# rows = sqlite.fetch_all_rows("SELECT * FROM data")
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# for row in rows:
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# print(row)
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# delete old API requests
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# update output data on db
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# event loop
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async def main():
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# Run the event loop
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while True:
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await event()
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await asyncio.sleep(1)
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api = api_update
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def start_event_listener():
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with socket.socket(socket.AF_INET, socket.SOCK_STREAM) as server_socket:
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server_socket.bind(('event', 12345))
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server_socket.listen()
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print("Event listener is waiting for connections...")
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while True:
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conn, addr = server_socket.accept()
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thread = threading.Thread(target=handle_client, args=(conn, addr))
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thread.start()
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def handle_client(conn, addr):
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with conn:
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print(f"Connected by {addr}")
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while True:
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data = conn.recv(1024)
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if not data:
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break
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print(f"Received data: {data.decode()}")
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if __name__ == "__main__":
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threading.Thread(target=start_event_listener).start()
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asyncio.run(main())
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@ -1 +1,2 @@
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numpy==1.26.4
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numpy==1.26.4
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requests==2.31.0
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97
event/util/Sqlite.py
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97
event/util/Sqlite.py
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"""
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@file Sqlite.py
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@author 30hours
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"""
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import sqlite3
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class Sqlite:
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"""
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@class Sqlite
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@brief A class for interacting with an SQLite database.
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@see https://sqlite.org/ for more information on SQLite.
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"""
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def __init__(self, database_path):
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"""
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@brief Constructor for the Sqlite class.
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@param database_path (str): Path to the SQLite database.
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"""
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self.connection = sqlite3.connect(database_path)
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self.cursor = self.connection.cursor()
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def create_table(self, table_name, schema):
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"""
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@brief Create a table in the database if it doesn't exist.
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@param table_name (str): Name of the table.
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@param schema (str): Table schema definition.
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@return None
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"""
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self.cursor.execute(f"CREATE TABLE IF NOT EXISTS {table_name} ({schema});")
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self.connection.commit()
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def table_exists(self, table_name):
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"""
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@brief Check if a table if the given name exists in the database.
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@param table_name (str): Name of the table.
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@return bool: True if the table exists.
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"""
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self.cursor.execute(f"SELECT name FROM sqlite_master WHERE type='table' AND name='{table_name}'")
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return self.cursor.fetchone() is not None
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def add_entry(self, table_name, api, timestamp):
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"""
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@brief Add entry to table.
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@param table_name (str): Name of the table.
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@param api (str): API URL to add.
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@param timestamp (Integer): Timestamp to add.
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@return None
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"""
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connection = sqlite3.connect(self.db_name)
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cursor = connection.cursor()
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insert_entry_sql = "INSERT INTO {table_name} (api, timestamp) VALUES (?, ?);"
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cursor.execute(insert_entry_sql, (api, timestamp))
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connection.commit()
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def execute_query(self, query, parameters=None):
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"""
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@brief Execute an SQL query on the database.
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@param query (str): SQL query to execute.
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@param parameters (tuple, optional): Parameters to bind to the query.
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@return None
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"""
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if parameters:
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self.cursor.execute(query, parameters)
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else:
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self.cursor.execute(query)
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self.connection.commit()
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def fetch_all_rows(self, query):
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"""
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@brief Fetch all rows resulting from an SQL query.
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@param query (str): SQL query to execute.
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@return list: List of tuples representing the result rows.
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"""
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self.cursor.execute(query)
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return self.cursor.fetchall()
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def close_connection(self):
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"""
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@brief Close the SQLite database connection.
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@return None
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"""
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self.connection.close()
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