use indicatif::ProgressBar; use std::fs::File; use std::io::Write; use thermaldecoder::{write_raw_frame, Frame, Header, HDR_SIZE}; // fn main() -> Result<(), eframe::Error> { // env_logger::init(); // Log to stderr (if you run with `RUST_LOG=debug`). // let options = eframe::NativeOptions { // viewport: egui::ViewportBuilder::default().with_inner_size([600.0, 800.0]), // ..Default::default() // }; // let (sender, receiver) = crossbeam::channel::unbounded(); // eframe::run_native( // "Image Viewer", // options, // Box::new(|cc| { // // This gives us image support: // egui_extras::install_image_loaders(&cc.egui_ctx); // Box::::default() // }), // ) // } // #[derive(Default)] // struct MyApp {} // impl eframe::App for MyApp { // fn update(&mut self, ctx: &egui::Context, _frame: &mut eframe::Frame) { // egui::CentralPanel::default().show(ctx, |ui| { // egui::ScrollArea::both().show(ui, |ui| { // ui.add(egui::Image::new().rounding(10.0)); // ui.image(egui::include_image!("ferris.svg")); // }); // }); // } // } fn main() -> anyhow::Result<()> { // get the default Device let device = pcap::Device::lookup() .expect("device lookup failed") .expect("no device available"); println!("Using device {}", device.name); // Setup Capture let mut cap = pcap::Capture::from_device(device) .unwrap() .immediate_mode(true) .open() .unwrap(); // get a packet and print its bytes let mut parts = vec![]; let pb = ProgressBar::new(1024); let mut out = File::create("output.raw")?; while let Ok(p) = cap.next_packet() { let data = p.data; if data.len() != 6972 { continue; } let data = &data[0x2a..]; let header = match Header::read(data) { Ok(header) => header, Err(_) => continue, }; let data = &data[HDR_SIZE..]; if header.part == 0 && parts.len() > 0 { let frame = Frame { header, raw: parts.concat(), }; if frame.raw.len() == 384 * 288 * 2 { out.write_all(&frame.raw)?; pb.inc(1); } parts.clear(); } parts.push(data.to_vec()); } Ok(()) }