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import os
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import time
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import json
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from smbus import SMBus
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from StartUpTest import StartUPTest
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from TotOnline import TotOnline
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def read_data(num_numbers, bits_per_number):
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addr = 0x8
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bus = SMBus(1)
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# Calculate the total number of bytes required to accommodate the desired number of bits
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total_bytes = (num_numbers * bits_per_number + 7) // 8
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# Define the filename
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filename = f'{num_numbers}numbers_{bits_per_number}bits.bin'
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with open(filename, 'wb') as file:
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bytes_received = 0
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while bytes_received < total_bytes:
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# Read a byte from the serial port
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data = bus.read_byte(addr)
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file.write(bytes([data]))
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bytes_received += 1
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time.sleep(0.0000001)
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return filename
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def convert_to_hex(binary_filename, num_numbers, bits_per_number):
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with open(binary_filename, 'r') as f:
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# Read the contents of the file
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binary_content = f.read()
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# Calculate the number of bits per chunk
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bits_per_chunk = len(binary_content) // num_numbers
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# Divide the binary content into equal chunks
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binary_chunks = [binary_content[i * bits_per_chunk:(i + 1) * bits_per_chunk] for i in range(num_numbers)]
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# Calculate the number of hexadecimal digits per chunk
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hex_digits_per_chunk = (bits_per_chunk + 3) // 4 # Round up to the nearest integer
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# Convert each binary chunk to a hexadecimal string with leading zeros
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hex_chunks = [format(int(chunk, 2), f'0{hex_digits_per_chunk}X') for chunk in binary_chunks]
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# Write the hex chunks to the file with separators and newlines
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hex_filename = f'{num_numbers}numbers_{bits_per_number}bits.txt'
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with open(hex_filename, 'w') as f:
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for i in range(num_numbers):
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hex_number = hex_chunks[i]
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# write the separator between numbers except for the last one
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if i != num_numbers - 1:
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hex_number += ';'
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f.write(hex_number)
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return hex_filename
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def convert_to_binary(filename, num_numbers, bits_per_number):
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with open(filename, 'rb') as f:
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# Read the contents of the file as bytes
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content = f.read()
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# Convert the bytes to a string of binary digits
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binary_str = ''.join(format(byte, '08b') for byte in content)
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# Truncate the binary string to the desired length
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truncated_binary_str = binary_str[:num_numbers * bits_per_number]
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# Write the truncated binary string back to the file with separators
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binary_filename = f'{num_numbers}numbers_{bits_per_number}bits_binary.txt'
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with open(binary_filename, 'w') as f:
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for i in range(0, len(truncated_binary_str), bits_per_number):
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binary_number = truncated_binary_str[i:i+bits_per_number]
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f.write(binary_number)
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return binary_filename
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def process_data_in_chunks(data, chunk_size=1000000):
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chunks = [data[i:i+chunk_size] for i in range(0, len(data), chunk_size)]
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return chunks
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def perform_startup_tests(filename):
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with open(filename, 'rb') as f:
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# Read the contents of the file as bytes
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content = f.read()
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#print("Run all StartUPTests")
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binary_chunks = process_data_in_chunks(content)
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first_chunk = binary_chunks[0]
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result = StartUPTest.run_all_tests(first_chunk)
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#print(result)
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return result
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def perform_tot_online_tests(filename):
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with open(filename, 'rb') as f:
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# Read the contents of the file as bytes
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content = f.read()
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#print("Run all TotOnline tests")
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binary_chunks = process_data_in_chunks(content)
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first_chunk = binary_chunks[0]
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result = TotOnline.run_all_tests(first_chunk)
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#print(result)
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return result
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def analyze_data(num_numbers, bits_per_number, startup):
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if startup:
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filename = read_data(10, 80000)
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binary_filename = convert_to_binary(filename, 10, 80000)
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perform_startup_tests(binary_filename)
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perform_tot_online_tests(binary_filename)
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os.unlink(filename)
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os.unlink(binary_filename)
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return True
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else:
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filename = read_data(10, 20000)
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binary_filename = convert_to_binary(filename, 10, 20000)
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result = perform_tot_online_tests(binary_filename)
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os.unlink(filename)
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os.unlink(binary_filename)
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if result:
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filename = read_data(num_numbers, bits_per_number)
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binary_filename = convert_to_binary(filename, num_numbers, bits_per_number)
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hex_filename = convert_to_hex(binary_filename, num_numbers, bits_per_number)
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# Read the hex numbers from the file
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with open(hex_filename, 'rb') as f:
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hex_numbers_bytes = f.read()
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# Decode the bytes to a string
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hex_numbers_str = hex_numbers_bytes.decode('utf-8')
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# Split the semicolon-separated string into a list of hex numbers
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hex_numbers = hex_numbers_str.split(';')
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# Remove any empty strings
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hex_numbers = [hex_num for hex_num in hex_numbers if hex_num]
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# Create the JSON object with the specified structure
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data = {'randomNumbers': hex_numbers}
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# Delete the temporary files
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os.unlink(filename)
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os.unlink(binary_filename)
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os.unlink(hex_filename)
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# Return the JSON object using Flask's jsonify function
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return jsonify(data)
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else:
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os.unlink(filename)
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os.unlink(binary_filename)
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os.unlink(hex_filename)
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return False
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# Teste den Code
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#result = analyze_data(50, 2560, startup=False)
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#result = analyze_data(8, 8, startup=True)
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#print(result)
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import subprocess
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import json
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import time
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from flask import Flask, request, jsonify, session
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from I2C_Function import analyze_data, read_data
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from flask_cors import CORS
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from flask_session import Session
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app = Flask(__name__)
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app.config.from_pyfile('config.py')
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Session(app)
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CORS(app)
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initialized = False
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@app.route('/trng/randomNum/init', methods=['GET'])
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def initialize_generator():
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#quantity = 1
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#bits = 1
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#startup = True # Boolean-Wert für die Initialisierung
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global initialized # Zugriff auf die globale Variable
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#result = analyze_data(int(quantity), int(bits), startup=true)
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result = analyze_data(int(1), int(1), startup=True)
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#session['initialized'] = True
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if result is True:
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initialized = True
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return jsonify({'error': 'successful operation; random number generator is ready and random numbers can be requested'}), 200
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else:
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return jsonify({'error': 'Unable to initialize the random number generator within a timeout of 60 seconds.'}), 555
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@app.route('/trng/randomNum/getRandom', methods=['GET'])
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def get_random_numbers():
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global initialized # Zugriff auf die globale Variable
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quantity = request.args.get('quantity')
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bits = request.args.get('numBits')
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if not quantity.isdigit() or not bits.isdigit():
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return jsonify({'error': 'Invalid input. Quantity and bits must be numeric.'}), 400
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if int(quantity) <= 0 or int(bits) <= 0:
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return jsonify({'error': 'Invalid input. Quantity and bits must be positive integers.'}), 400
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# Überprüfe den Initialisierungsstatus
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if not initialized:
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return jsonify({'error': 'system not ready; try init'}), 432
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#if 'initialized' not in session or not session['initialized']:
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#return jsonify({'error': 'system not ready; try init'}), 432
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#if 'initialized' not in session or not session['initialized', 'false']:
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#return jsonify({'error': 'system not ready; try init'}), 432
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filename = analyze_data(int(quantity), int(bits), startup=False)
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if filename is False:
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return jsonify({'error': 'Unable to generate random numbers.'}), 500
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if filename:
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return filename, 200
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else:
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return jsonify({'error': 'Unable to generate random numbers.'}), 500
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@app.route('/trng/randomNum/shutdown', methods=['GET'])
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def shutdown_generator():
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global initialized # Zugriff auf die globale Variable
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initialized = False # Setze den Initialisierungsstatus zurück
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#session['initialized'] = False
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# Beispielantwort
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return jsonify({'message': 'Generator shutdown successfully.'}), 200
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if __name__ == '__main__':
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# Pfade zu den SSL-Zertifikat- und Schlüsseldateien
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#cert_path = '/etc/nginx/ssl/server.crt'
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#key_path = '/etc/nginx/ssl/server.key'
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cert_path = '/etc/nginx/ssl/cert-gmtrom.pem'
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key_path = '/etc/nginx/ssl/cert-gmtrom-key.pem'
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# Starte die Flask-Anwendung mit SSL-Konfiguration
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#app.run(host='172.16.78.57', port=5000, ssl_context=(cert_path, key_path))
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app.run(host='0.0.0.0', ssl_context=(cert_path, key_path))
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#app.run(host='0.0.0.0', ssl_context=adhoc)
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#app.run(ssl_context=(cert_path, key_path))
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<!DOCTYPE html>
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<html>
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<head>
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<title>GMTROM - True Random Number Generator</title>
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<link rel="stylesheet" type="text/css" href="style.css">
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<link rel="icon" type="image/png" href="logomiddle.png">
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</head>
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<body>
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<img src="logo.png" alt="Logo" class="logo">
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<h1>GMTROM - True Random Number Generator</h1>
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<form id="randomForm">
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<input type="button" value="Initialize" id="initButton"><br><br>
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<label for="quantity">Quantity of Random Numbers:</label>
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<input type="number" id="quantity" name="quantity"><br><br>
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<label for="bits">Number of Bits per Random Number:</label>
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<input type="number" id="bits" name="bits"><br><br>
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<input type="submit" value="Generate" id="generateButton">
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<input type="submit" value="Shutdown" id="shutdownButton">
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</form>
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<div id="status"></div>
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<div id="result"></div>
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<script>
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document.getElementById('initButton').addEventListener('click', function() {
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fetch('https://172.16.78.57:5000/trng/randomNum/init')
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.then(response => {
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document.getElementById('status').innerText = 'Status: ' + response.status;
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if (response.status === 200) {
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console.log('Initialisierung erfolgreich');
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} else {
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console.log('Fehler beim Initialisieren');
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}
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})
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.catch(error => {
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console.error('Fehler beim Initialisieren:', error);
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});
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});
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document.getElementById('generateButton').addEventListener('click', function(event) {
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event.preventDefault(); // Verhindert das Absenden des Formulars
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var quantity = document.getElementById('quantity').value;
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var bits = document.getElementById('bits').value;
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var url = 'https://172.16.78.57:5000/trng/randomNum/getRandom';
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if (quantity && bits) {
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url += '?quantity=' + quantity + '&numBits=' + bits;
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}
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fetch(url)
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.then(response => {
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document.getElementById('status').innerText = 'Status: ' + response.status;
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return response.json();
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})
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.then(data => {
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var resultDiv = document.getElementById('result');
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var hexNumbers = JSON.parse(data.randomNumbers);
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resultDiv.innerText = hexNumbers.join(', ');
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})
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.catch(error => {
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console.error('Fehler beim Abrufen der Daten:', error);
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});
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});
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document.getElementById('shutdownButton').addEventListener('click', function() {
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fetch('https://172.16.78.57:5000/trng/randomNum/shutdown')
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.then(response => {
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document.getElementById('status').innerText = 'Status: ' + response.status;
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if (response.status === 200) {
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console.log('Shutdown erfolgreich');
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} else {
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console.log('Fehler beim Shutdown');
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}
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})
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.catch(error => {
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console.error('Fehler beim Shutdown:', error);
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});
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});
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</script>
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</body>
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</html>
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