use dotenv::dotenv; use std::io::Write; use thermaldecoder::{Header, HDR_SIZE}; use v4l::video::Output; fn main() -> anyhow::Result<()> { dotenv().ok(); let device = match std::env::var("THERMALCAM_IFACE=enp1s0f0") { Ok(d) => { let device = pcap::Device::list() .expect("device list failed") .into_iter() .find(|x| x.name == d) .expect(&format!("could not find device {}", d)); device } Err(_) => pcap::Device::lookup() .expect("device lookup failed") .expect("no device available"), }; // get the default Device println!("Using device {}", device.name); let output = std::env::args() .nth(1) .expect("required output file argument"); println!("Using output v4l2loopback device {}", output); const WIDTH: usize = 288; const HEIGHT: usize = 384; let mut out = v4l::Device::with_path(output)?; // To find the fourcc code, use v4l2-ctl --list-formats-out /dev/video0 // (or read the source :) let format = v4l::Format::new( WIDTH as u32, HEIGHT as u32, v4l::format::FourCC::new(b"Y16 "), ); Output::set_format(&out, &format)?; // Setup Capture let mut cap = pcap::Capture::from_device(device) .unwrap() .immediate_mode(true) .open() .unwrap(); // get a packet and print its bytes const PACKET_LEN: usize = 6972; const FRAME_LEN: usize = WIDTH * HEIGHT * 2; let mut frame = [0u8; FRAME_LEN]; let mut len = 0; while let Ok(p) = cap.next_packet() { let data = p.data; if data.len() != PACKET_LEN { 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 && len > 0) // do not write out of bounds - would panic, instead just skip || (data.len() + len > FRAME_LEN) { if len == FRAME_LEN { out.write_all(&frame[..])?; } len = 0; } frame[len..len + data.len()].copy_from_slice(data); len += data.len(); } Ok(()) }