#![allow(dead_code)] #[cfg(feature = "log")] use env_logger::Builder; use getopts::{Matches, Options}; #[cfg(feature = "log")] use log::{trace, Level, LevelFilter}; use std::env; use std::fs::File; use std::io::{self, Write}; use std::process; use std::str::{self, FromStr}; use std::time::{SystemTime, UNIX_EPOCH}; #[cfg(feature = "phy-tuntap_interface")] use smoltcp::phy::TunTapInterface; use smoltcp::phy::{Device, FaultInjector, Medium, Tracer}; use smoltcp::phy::{PcapMode, PcapWriter}; use smoltcp::time::{Duration, Instant}; #[cfg(feature = "log")] pub fn setup_logging_with_clock(filter: &str, since_startup: F) where F: Fn() -> Instant + Send + Sync + 'static, { Builder::new() .format(move |buf, record| { let elapsed = since_startup(); let timestamp = format!("[{}]", elapsed); if record.target().starts_with("smoltcp::") { writeln!( buf, "\x1b[0m{} ({}): {}\x1b[0m", timestamp, record.target().replace("smoltcp::", ""), record.args() ) } else if record.level() == Level::Trace { let message = format!("{}", record.args()); writeln!( buf, "\x1b[37m{} {}\x1b[0m", timestamp, message.replace("\n", "\n ") ) } else { writeln!( buf, "\x1b[32m{} ({}): {}\x1b[0m", timestamp, record.target(), record.args() ) } }) .filter(None, LevelFilter::Trace) .parse(filter) .parse(&env::var("RUST_LOG").unwrap_or_else(|_| "".to_owned())) .init(); } #[cfg(feature = "log")] pub fn setup_logging(filter: &str) { setup_logging_with_clock(filter, Instant::now) } pub fn create_options() -> (Options, Vec<&'static str>) { let mut opts = Options::new(); opts.optflag("h", "help", "print this help menu"); (opts, Vec::new()) } pub fn parse_options(options: &Options, free: Vec<&str>) -> Matches { match options.parse(env::args().skip(1)) { Err(err) => { println!("{}", err); process::exit(1) } Ok(matches) => { if matches.opt_present("h") || matches.free.len() != free.len() { let brief = format!( "Usage: {} [OPTION]... {}", env::args().next().unwrap(), free.join(" ") ); print!("{}", options.usage(&brief)); process::exit(if matches.free.len() != free.len() { 1 } else { 0 }) } matches } } } pub fn add_tuntap_options(opts: &mut Options, _free: &mut Vec<&str>) { opts.optopt("", "tun", "TUN interface to use", "tun0"); opts.optopt("", "tap", "TAP interface to use", "tap0"); } #[cfg(feature = "phy-tuntap_interface")] pub fn parse_tuntap_options(matches: &mut Matches) -> TunTapInterface { let tun = matches.opt_str("tun"); let tap = matches.opt_str("tap"); match (tun, tap) { (Some(tun), None) => TunTapInterface::new(&tun, Medium::Ip).unwrap(), (None, Some(tap)) => TunTapInterface::new(&tap, Medium::Ethernet).unwrap(), _ => panic!("You must specify exactly one of --tun or --tap"), } } pub fn add_middleware_options(opts: &mut Options, _free: &mut Vec<&str>) { opts.optopt("", "pcap", "Write a packet capture file", "FILE"); opts.optopt( "", "drop-chance", "Chance of dropping a packet (%)", "CHANCE", ); opts.optopt( "", "corrupt-chance", "Chance of corrupting a packet (%)", "CHANCE", ); opts.optopt( "", "size-limit", "Drop packets larger than given size (octets)", "SIZE", ); opts.optopt( "", "tx-rate-limit", "Drop packets after transmit rate exceeds given limit \ (packets per interval)", "RATE", ); opts.optopt( "", "rx-rate-limit", "Drop packets after transmit rate exceeds given limit \ (packets per interval)", "RATE", ); opts.optopt( "", "shaping-interval", "Sets the interval for rate limiting (ms)", "RATE", ); } pub fn parse_middleware_options( matches: &mut Matches, device: D, loopback: bool, ) -> FaultInjector>>> where D: for<'a> Device<'a>, { let drop_chance = matches .opt_str("drop-chance") .map(|s| u8::from_str(&s).unwrap()) .unwrap_or(0); let corrupt_chance = matches .opt_str("corrupt-chance") .map(|s| u8::from_str(&s).unwrap()) .unwrap_or(0); let size_limit = matches .opt_str("size-limit") .map(|s| usize::from_str(&s).unwrap()) .unwrap_or(0); let tx_rate_limit = matches .opt_str("tx-rate-limit") .map(|s| u64::from_str(&s).unwrap()) .unwrap_or(0); let rx_rate_limit = matches .opt_str("rx-rate-limit") .map(|s| u64::from_str(&s).unwrap()) .unwrap_or(0); let shaping_interval = matches .opt_str("shaping-interval") .map(|s| u64::from_str(&s).unwrap()) .unwrap_or(0); let pcap_writer: Box; if let Some(pcap_filename) = matches.opt_str("pcap") { pcap_writer = Box::new(File::create(pcap_filename).expect("cannot open file")) } else { pcap_writer = Box::new(io::sink()) } let seed = SystemTime::now() .duration_since(UNIX_EPOCH) .unwrap() .subsec_nanos(); let device = PcapWriter::new( device, pcap_writer, if loopback { PcapMode::TxOnly } else { PcapMode::Both }, ); let device = Tracer::new(device, |_timestamp, _printer| { #[cfg(feature = "log")] trace!("{}", _printer); }); let mut device = FaultInjector::new(device, seed); device.set_drop_chance(drop_chance); device.set_corrupt_chance(corrupt_chance); device.set_max_packet_size(size_limit); device.set_max_tx_rate(tx_rate_limit); device.set_max_rx_rate(rx_rate_limit); device.set_bucket_interval(Duration::from_millis(shaping_interval)); device }