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@@ -1,4 +1,11 @@
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import re
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from collections import Counter
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from scipy.stats import entropy
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def calculate_url_entropy(url):
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counter = Counter(url)
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probabilities = [count / len(url) for count in counter.values()]
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return entropy(probabilities, base=2)
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def extract_url_features(url):
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suspicious_words = [
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@@ -25,5 +32,7 @@ def extract_url_features(url):
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'has_long_digit_sequence': bool(re.search(r'\d{4,}', url)),
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'has_multiple_dash': bool(re.search(r'-{2,}', url)),
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'has_https': url.startswith('https'),
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'ends_with_common_extension' : url.endswith(('.html', '.php'))
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'ends_with_common_extension': url.endswith(('.html', '.php')),
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'url_length': len(url), # ✅ 추가
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'url_entropy': calculate_url_entropy(url) # ✅ 추가
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}
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@@ -1,39 +1,54 @@
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import pandas as pd
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import pickle
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from tensorflow.keras.models import load_model
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from sklearn.metrics import accuracy_score, f1_score, precision_score, recall_score
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from Feature import extract_url_features
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from collections import Counter
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from scipy.stats import entropy
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import tensorflow as tf
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# 🔹 URL 엔트로피 계산 함수
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def calculate_url_entropy(url):
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counter = Counter(url)
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probabilities = [count / len(url) for count in counter.values()]
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return entropy(probabilities, base=2)
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# 4. 스케일러 불러오기
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# 🔹 스케일러 불러오기
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with open("scaler.pkl", "rb") as f:
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scaler = pickle.load(f)
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# 5. 모델 불러오기
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# 🔹 모델 불러오기
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model = load_model("best_model.h5")
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# 🔹 예측 함수
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@tf.function(reduce_retracing=True)
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def predict_with_model(model, input_data):
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return model(input_data)
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# 🔹 입력 URL 받기
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url = input("URL입력 : ")
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# 🔹 Feature.py에서 피처 추출
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features = extract_url_features(url)
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input_df = pd.DataFrame([list(features.values())], columns= features.keys())
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# 🔹 누락된 피처 보완
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features['url_length'] = len(url)
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features['url_entropy'] = calculate_url_entropy(url)
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# 🔹 데이터프레임 생성 및 정렬
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input_df = pd.DataFrame([features])
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expected_columns = list(scaler.feature_names_in_)
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input_df = input_df[expected_columns]
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# 🔹 스케일링
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input_scaled = scaler.transform(input_df)
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# 🔹 예측
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prediction = predict_with_model(model, input_scaled)
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score = float(prediction.numpy()[0][0]) # 🔥 정확히 float으로 변환
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# 7. 결과 출력
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best_threshold = 0.5
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if prediction[0][0] > best_threshold:
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print('악')
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# 🔹 출력
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threshold = 0.5
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if score > threshold:
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print(f"악성 (악성일 확률: {score:.4f})")
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else:
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print('정')
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print(f"정상 (정상일 확률: {1 - score:.4f})")
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