2023-12-29 02:26:24 +02:00
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import argparse
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import os
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import subprocess
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2023-12-25 23:09:03 +02:00
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import numpy as np
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from tqdm import tqdm
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import pandas as pd
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import pcapng
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2023-12-26 15:34:22 +02:00
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from struct import unpack
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2023-12-25 23:09:03 +02:00
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from PIL import Image
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2023-12-29 02:26:24 +02:00
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# Create the parser
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parser = argparse.ArgumentParser(description="Process a pcap file.")
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# Add an argument for the pcap file, with a default value
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parser.add_argument('input_file', nargs='?', default='in.pcap', help='The pcap file to process')
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# Parse the arguments
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args = parser.parse_args()
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# Now use args.input_file as the file to process
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input_file = args.input_file
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basename = os.path.splitext(os.path.basename(input_file))[0]
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2023-12-26 16:35:32 +02:00
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# Read packets from a pcap file
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2023-12-29 02:26:24 +02:00
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scanner = pcapng.scanner.FileScanner(open(input_file, "rb"))
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2023-12-25 23:09:03 +02:00
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blocks = list(tqdm(scanner))
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2023-12-26 16:35:32 +02:00
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# Helper function to safely get an attribute from an object
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2023-12-25 23:09:03 +02:00
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def tryget(obj, att):
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if hasattr(obj, att):
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return getattr(obj, att)
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return None
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2023-12-26 15:34:22 +02:00
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2023-12-25 23:09:03 +02:00
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2023-12-26 16:35:32 +02:00
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# Create a DataFrame with packet lengths
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2023-12-29 02:26:24 +02:00
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df = pd.DataFrame(
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[{"index": i, "length": tryget(obj, "packet_len")} for i, obj in enumerate(blocks)]
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)
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2023-12-26 16:35:32 +02:00
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# Filter and extract data packets of a specific length
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data = [blocks[i] for i in df[df.length == 6972.0].index]
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2023-12-26 16:35:32 +02:00
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# Remove the UDP header from the packets
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2023-12-29 02:26:24 +02:00
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raw = [d.packet_data[0x2A:] for d in data]
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2023-12-25 23:09:03 +02:00
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# Function to parse packet data
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def parse(data):
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hdr = 4 + 2 * 7 # Header length
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# Unpack data into variables
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c1, c2, part, a, ffaa, b, c, d = unpack(">Lhhhhhhh", data[:hdr])
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ret = locals()
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del ret["data"]
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del ret["hdr"]
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ret["data"] = data[hdr:]
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return ret
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2023-12-26 15:34:22 +02:00
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2023-12-26 16:35:32 +02:00
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# Parse each packet and create a DataFrame
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df = pd.DataFrame([parse(d) for d in raw])
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df2 = df[[c for c in df.columns if c != "data"]]
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2023-12-25 23:09:03 +02:00
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# Function to group data into frames
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def getframes(df):
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frames = []
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current = []
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for i, row in df.iterrows():
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if row.part == 0:
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if len(current) > 0:
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frames.append(current)
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current = []
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current.append(row["data"])
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if len(current) > 0:
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frames.append(current)
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return [b"".join(parts) for parts in frames]
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# Function to convert binary frame data into images
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def image16(frame, width, height, pixelformat=">H"):
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return [
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Image.fromarray(np.frombuffer(frame, dtype=pixelformat).reshape(width, height))
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for frame in frames
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if len(frame) == 2 * width * height
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]
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# Get frames and convert them to images
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frames = getframes(df)
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images = image16(frames, 384, 288)
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# Create the directory for frames if not exists
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frame_dir = f"frames/{basename}"
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if not os.path.exists(frame_dir):
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os.makedirs(frame_dir)
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# Save each image as a PNG file
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for i, img in enumerate(tqdm(images)):
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img.save(f'frames/{basename}/{basename}_{i:04}.png')
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# Produce a video from the saved images
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ffmpeg_input = f"frames/{basename}/{basename}_%04d.png"
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command = [
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"ffmpeg",
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"-y", # Overwrite output file without asking
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"-hide_banner", # Hide banner
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"-loglevel", "info", # Log level
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"-f", "image2", # Input format
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"-framerate", "25", # Framerate
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"-i", ffmpeg_input, # Input file pattern
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"-vf", "transpose=1", # Video filter for transposing
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"-s", "384x288", # Size of one frame
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"-vcodec", "libx264", # Video codec
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"-pix_fmt", "yuv420p", # Pixel format: YUV 4:2:0
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"thermal.mp4", # Output file in MP4 container
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]
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subprocess.run(command)
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print("to play: ffplay thermal.mp4")
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