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kissdump/examples/raw2pcap.rs
Lucas Schumacher 020739397c initial ver
2023-09-23 14:17:32 -04:00

252 lines
12 KiB
Rust
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use clap::Parser;
use std::{
fs::File,
path::PathBuf,
};
use std::io::Read;
use anyhow::Result;
use pcap_file::{DataLink, pcap::{PcapPacket, PcapWriter, PcapHeader}};
use std::time::SystemTime;
use ax25::frame::{CommandResponse, Ax25Frame, FrameContent};
#[derive(Parser)]
#[command(author, version, about, long_about = None)]
struct Arg {
#[arg(short, long, default_value_t = false)]
verbose: bool,
infile: PathBuf,
outfile: PathBuf,
}
trait PrintData {
fn type_str_short(&self) -> &'static str;
fn print_short(&self);
fn print_long(&self);
}
impl PrintData for Ax25Frame {
fn type_str_short(&self) -> &'static str {
match self.content {
FrameContent::Information(_) => "Info",
FrameContent::ReceiveReady(_) => "RecvRdy",
FrameContent::ReceiveNotReady(_) => "RecvNotRdy",
FrameContent::Reject(_) => "Reject",
FrameContent::SetAsynchronousBalancedMode(_) => "AsyncBalMode", //12 long
FrameContent::Disconnect(_) => "Disconnect",
FrameContent::DisconnectedMode(_) => "DisconMode",
FrameContent::UnnumberedAcknowledge(_) => "UnNumAck",
FrameContent::FrameReject(_) => "FrameReject",
FrameContent::UnnumberedInformation(_) => "UnNumInfo",
FrameContent::UnknownContent(_) => "Unknown",
}
}
fn print_short(&self) {
//Format: "[source] -> [dest] via [..] [CMD/RSP/NIL] [frameType]: [DATA str rep]"
let src = self.source.to_string();
let dst = self.destination.to_string();
//let via: String = self.route.iter().map(|re| format!(" {} ", re.repeater.to_string())).collect(); //todo
let rsp = match self.command_or_response {
Some(CommandResponse::Command) => "CMD",
Some(CommandResponse::Response) => "RSP",
None => "NIL",
};
let ftype = self.type_str_short();
//let mut rawdata;
let (rawdata, finfo) = match &self.content {
FrameContent::Information(_i) =>
(_i.info.clone(),
format!("pid: {:?}, seq: {}/{}, info: ", _i.pid, _i.send_sequence, _i.receive_sequence)),
FrameContent::ReceiveReady(rr) => (vec![], format!("seq: {}, poll/final: {}", rr.receive_sequence, rr.poll_or_final)),
FrameContent::ReceiveNotReady(rnr) => (vec![], format!("seq: {}, poll/final: {}", rnr.receive_sequence, rnr.poll_or_final)),
FrameContent::Reject(rnr) => (vec![], format!("seq: {}, poll/final: {}", rnr.receive_sequence, rnr.poll_or_final)),
FrameContent::SetAsynchronousBalancedMode(abm) => (vec![], format!("poll: {}", abm.poll)),
FrameContent::Disconnect(abm) => (vec![], format!("poll: {}", abm.poll)),
FrameContent::DisconnectedMode(abm) => (vec![], format!("final bit: {}", abm.final_bit)),
FrameContent::UnnumberedAcknowledge(abm) => (vec![], format!("final bit: {}", abm.final_bit)),
FrameContent::FrameReject(fr) => (vec![], format!("[{}{}{}{}], seq: {}/{}, raw: {}, cmdRsp: {}, final: {}", if fr.z {"Z"}else{""}, if fr.y {"Y"}else{""}, if fr.x {"X"}else{""}, if fr.w{"W"}else{""}, fr.send_sequence, fr.receive_sequence, fr.rejected_control_field_raw, match fr.command_response {CommandResponse::Command => "CMD", CommandResponse::Response => "RSP"}, fr.final_bit)),
FrameContent::UnnumberedInformation(ui) => (
ui.info.clone(),
format!("pid: {:?} info:", ui.pid)),
FrameContent::UnknownContent(ukn) => (ukn.raw.clone(), format!("")),
};
let mut data = String::new();
for byte in rawdata.iter() {
//if byte >= ' '.into() && byte <= '~'.into() {
if *byte >= 32 && *byte <= 126 {
data.push((*byte).into());
} else {
data.push_str(&format!("\\{:x?} ", *byte));
}
}
println!("AX.25 {:12} {} {:9} -> {:9} {}",ftype, rsp, src, dst, if !data.is_empty() {data} else {finfo});
}
fn print_long(&self) {
//Format: "[source] -> [dest] via [..] [CMD/RSP/NIL] [frameType]: [DATA str rep]"
let src = self.source.to_string();
let dst = self.destination.to_string();
let via: String = self.route.iter().map(|re| format!(" {} ", re.repeater.to_string())).collect(); //todo
let rsp = match self.command_or_response {
Some(CommandResponse::Command) => "CMD",
Some(CommandResponse::Response) => "RSP",
None => "NIL",
};
let ftype = self.type_str_short();
//let mut rawdata;
let (rawdata, finfo) = match &self.content {
FrameContent::Information(_i) =>
(_i.info.clone(),
format!("pid: {:?}, seq: {}/{}, info: ", _i.pid, _i.send_sequence, _i.receive_sequence)),
FrameContent::ReceiveReady(rr) => (vec![], format!("seq: {}, poll/final: {}", rr.receive_sequence, rr.poll_or_final)),
FrameContent::ReceiveNotReady(rnr) => (vec![], format!("seq: {}, poll/final: {}", rnr.receive_sequence, rnr.poll_or_final)),
FrameContent::Reject(rnr) => (vec![], format!("seq: {}, poll/final: {}", rnr.receive_sequence, rnr.poll_or_final)),
FrameContent::SetAsynchronousBalancedMode(abm) => (vec![], format!("poll: {}", abm.poll)),
FrameContent::Disconnect(abm) => (vec![], format!("poll: {}", abm.poll)),
FrameContent::DisconnectedMode(abm) => (vec![], format!("final bit: {}", abm.final_bit)),
FrameContent::UnnumberedAcknowledge(abm) => (vec![], format!("final bit: {}", abm.final_bit)),
FrameContent::FrameReject(fr) => (vec![], format!("[{}{}{}{}], seq: {}/{}, raw: {}, cmdRsp: {}, final: {}", if fr.z {"Z"}else{""}, if fr.y {"Y"}else{""}, if fr.x {"X"}else{""}, if fr.w{"W"}else{""}, fr.send_sequence, fr.receive_sequence, fr.rejected_control_field_raw, match fr.command_response {CommandResponse::Command => "CMD", CommandResponse::Response => "RSP"}, fr.final_bit)),
FrameContent::UnnumberedInformation(ui) => (
ui.info.clone(),
format!("pid: {:?} info:", ui.pid)),
FrameContent::UnknownContent(ukn) => (ukn.raw.clone(), format!("")),
};
let mut data = String::new();
for byte in rawdata.iter() {
//if byte >= ' '.into() && byte <= '~'.into() {
if *byte >= 32 && *byte <= 126 {
data.push((*byte).into());
} else {
data.push_str(&format!("\\{:x?} ", *byte));
}
}
println!("AX.25 {:12} {} {:9} -> {:9} via [{}] {} {}",ftype, rsp, src, dst, via, finfo, data);
}
}
fn main() -> Result<()> {
let mut information = 0;
let mut receive_ready = 0;
let mut receive_not_ready = 0;
let mut reject = 0;
let mut set_asynchronous_balanced_mode = 0;
let mut disconnect = 0;
let mut disconnected_mode = 0;
let mut unnumbered_acknowledge = 0;
let mut frame_reject = 0;
let mut unnumbered_information = 0;
let mut unknown_content = 0;
let arg = Arg::parse();
let verbose = arg.verbose;
let indisplay = arg.infile.display();
let mut file_in = match File::open(&arg.infile) {
Err(why) => panic!("couldn't open {}: {}", indisplay, why),
Ok(file) => file,
};
let file_out = File::create(&arg.outfile).expect("Error opening file for writing");
let header = PcapHeader{datalink: DataLink::AX25_KISS, ..Default::default()};
let mut out_file = PcapWriter::with_header(file_out, header).expect("Error writing file");
let mut buffer = vec![0_u8; 4096];
let mut rawframe = vec![];
let mut escaped = false;
let mut timestamp = SystemTime::now()
.duration_since(SystemTime::UNIX_EPOCH)
.unwrap();
let mut orig_len = 0;
// while let Ok(n) = file_in.by_ref().take(4096).read_to_end(&mut buffer) {
while let Ok(n) = file_in.read(&mut buffer) {
if n <= 0 {break;}
for byte in buffer[..n].iter() {
orig_len += 1;
if escaped {
match *byte {
0xDC => rawframe.push(0xC0),
0xDD => rawframe.push(0xDB),
_ => { /* ERROR: invalid escape sequence */ }
}
escaped = false;
} else {
match *byte {
0xDB => escaped = true,
0xC0 => {
//TODO send and clear frame if not empty
if rawframe.len() == 0 {
orig_len = 1;
timestamp = SystemTime::now()
.duration_since(SystemTime::UNIX_EPOCH)
.unwrap();
continue;
};
if verbose {
if let Ok(frame) = Ax25Frame::from_bytes(&rawframe[1..]) {
match frame.content {
FrameContent::Information(_) => information += 1,
FrameContent::ReceiveReady(_) => receive_ready += 1,
FrameContent::ReceiveNotReady(_) => receive_not_ready += 1,
FrameContent::Reject(_) => reject += 1,
FrameContent::SetAsynchronousBalancedMode(_) => set_asynchronous_balanced_mode += 1,
FrameContent::Disconnect(_) => disconnect += 1,
FrameContent::DisconnectedMode(_) => disconnected_mode += 1,
FrameContent::UnnumberedAcknowledge(_) => unnumbered_acknowledge += 1,
FrameContent::FrameReject(_) => frame_reject += 1,
FrameContent::UnnumberedInformation(_) => unnumbered_information += 1,
FrameContent::UnknownContent(_) => unknown_content +=1,
}
frame.print_short();
//println!("{{source: {}, dest: {}, route: {:?}, cmd/rsp: {:?}, content: {:?}}}", frame.source, frame.destination, frame.route, frame.command_or_response, frame.content);
//println!("{}\n", frame.info_string_lossy().unwrap_or("Could not parse AX.25 frame data".to_string()));
}else {
let mut s = String::new();
for byte in rawframe.iter() {
//if byte >= ' '.into() && byte <= '~'.into() {
if *byte >= 32 && *byte <= 126 {
s.push((*byte).into());
} else {
s.push_str(&format!("\\{:x?} ", *byte));
}
}
//TODO print time stamp
println!("{}", s);
}
}
let pkt = PcapPacket::new_owned(timestamp, orig_len, rawframe.clone());
out_file.write_packet(&pkt).unwrap();
//tx.send(KissPkt{ timestamp, orig_len, data: frame.clone()})?;
rawframe.clear();
orig_len = 1;
timestamp = SystemTime::now()
.duration_since(SystemTime::UNIX_EPOCH)
.unwrap();
}
b => rawframe.push(b),
}
}
}
}
println!("\n---Frame type counts---");
println!(" Info: {}", information);
println!(" RecvRdy: {}", receive_ready);
println!(" RecvNotRdy: {}", receive_not_ready);
println!(" Reject: {}", reject);
println!(" AsyncBalMode: {}", set_asynchronous_balanced_mode);
println!(" Disconnect: {}", disconnect);
println!(" DisconMode: {}", disconnected_mode);
println!(" UnNumAck: {}", unnumbered_acknowledge);
println!(" FrameReject: {}", frame_reject);
println!(" UnNumInfo: {}", unnumbered_information);
println!(" Unknown: {}", unknown_content);
Ok(())
}
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