// VpnCloud - Peer-to-Peer VPN // Copyright (C) 2015-2021 Dennis Schwerdel // This software is licensed under GPL-3 or newer (see LICENSE.md) use ring::digest; use std::{ fs::{self, File, Permissions}, io::{self, Read, Write}, marker::PhantomData, mem, num::Wrapping, os::unix::fs::PermissionsExt, path::Path, process::{Command, Stdio}, sync::{ atomic::{AtomicBool, Ordering}, Arc, Mutex, }, thread, }; use super::util::{from_base62, to_base62, Encoder, TimeSource}; use smallvec::SmallVec; use std::net::{Ipv4Addr, Ipv6Addr, SocketAddr, SocketAddrV4, SocketAddrV6}; const TYPE_BEGIN: u8 = 0; const TYPE_END: u8 = 1; const TYPE_DATA: u8 = 2; const TYPE_SEED: u8 = 3; fn base_62_sanitize(data: &str) -> String { data.chars().filter(|c| c.is_ascii_alphanumeric()).collect() } fn sha512(data: &[u8]) -> SmallVec<[u8; 64]> { digest::digest(&digest::SHA512, data).as_ref().into() } struct FutureResult { has_result: AtomicBool, result: Mutex, } #[derive(Clone)] pub struct BeaconSerializer { shared_key: Vec, future_peers: Arc>>, _dummy_ts: PhantomData, } impl BeaconSerializer { pub fn new(shared_key: &[u8]) -> Self { Self { shared_key: shared_key.to_owned(), future_peers: Arc::new(FutureResult { has_result: AtomicBool::new(false), result: Mutex::new(Vec::new()) }), _dummy_ts: PhantomData, } } fn now_hour_16() -> u16 { ((TS::now() / 3600) & 0xffff) as u16 } fn get_keystream(&self, type_: u8, seed: u8, iter: u8) -> SmallVec<[u8; 64]> { let mut data = SmallVec::<[u8; 128]>::new(); data.extend_from_slice(&[type_, seed, iter]); data.extend_from_slice(&self.shared_key); sha512(&data) } #[allow(clippy::needless_range_loop)] fn mask_with_keystream(&self, data: &mut [u8], type_: u8, seed: u8) { let mut iter = 0; let mut mask = self.get_keystream(type_, seed, iter); let mut pos = 0; for i in 0..data.len() { data[i] ^= mask[pos]; pos += 1; if pos == 16 { pos = 0; iter += 1; mask = self.get_keystream(type_, seed, iter); } } } fn begin(&self) -> String { to_base62(&self.get_keystream(TYPE_BEGIN, 0, 0))[0..5].to_string() } fn end(&self) -> String { to_base62(&self.get_keystream(TYPE_END, 0, 0))[0..5].to_string() } fn encrypt_data(&self, data: &mut Vec) { // Note: the 1 byte seed is only meant to protect from random changes, // not malicious ones. For full protection, at least 8 bytes (~12 // characters) would be needed. let seed = sha512(data as &[u8])[0]; self.mask_with_keystream(data as &mut [u8], TYPE_DATA, seed); data.push(seed ^ self.get_keystream(TYPE_SEED, 0, 0)[0]); } fn decrypt_data(&self, data: &mut Vec) -> bool { if data.is_empty() { return false; } let seed = data.pop().unwrap() ^ self.get_keystream(TYPE_SEED, 0, 0)[0]; self.mask_with_keystream(data as &mut [u8], TYPE_DATA, seed); seed == sha512(data as &[u8])[0] } fn peerlist_encode(&self, peers: &[SocketAddr]) -> String { let mut data = Vec::new(); // Add timestamp data.extend_from_slice(&Self::now_hour_16().to_be_bytes()); // Split addresses into v4 and v6 let mut v4addrs = SmallVec::<[SocketAddrV4; 256]>::new(); let mut v6addrs = SmallVec::<[SocketAddrV6; 256]>::new(); for p in peers { match *p { SocketAddr::V4(addr) => v4addrs.push(addr), SocketAddr::V6(addr) => v6addrs.push(addr), } } // Add count of v4 addresses data.push(v4addrs.len() as u8); // Add v4 addresses for addr in v4addrs { let mut dat = [0u8; 6]; dat[0..4].copy_from_slice(&addr.ip().octets()); Encoder::write_u16(addr.port(), &mut dat[4..]); data.extend_from_slice(&dat); } // Add v6 addresses for addr in v6addrs { let mut dat = [0u8; 18]; let ip = addr.ip().segments(); Encoder::write_u16(ip[0], &mut dat[0..]); Encoder::write_u16(ip[1], &mut dat[2..]); Encoder::write_u16(ip[2], &mut dat[4..]); Encoder::write_u16(ip[3], &mut dat[6..]); Encoder::write_u16(ip[4], &mut dat[8..]); Encoder::write_u16(ip[5], &mut dat[10..]); Encoder::write_u16(ip[6], &mut dat[12..]); Encoder::write_u16(ip[7], &mut dat[14..]); Encoder::write_u16(addr.port(), &mut dat[16..]); data.extend_from_slice(&dat); } self.encrypt_data(&mut data); to_base62(&data) } fn peerlist_decode(&self, data: &str, ttl_hours: Option) -> Vec { let mut data = from_base62(data).expect("Invalid input"); let mut peers = Vec::new(); let mut pos = 0; if data.len() < 4 { return peers; } if !self.decrypt_data(&mut data) { return peers; } let then = Wrapping(Encoder::read_u16(&data[pos..=pos + 1])); if let Some(ttl) = ttl_hours { let now = Wrapping(Self::now_hour_16()); if now - then > Wrapping(ttl) && then - now > Wrapping(ttl) { return peers; } } pos += 2; let v4count = data[pos] as usize; pos += 1; if v4count * 6 > data.len() - pos || (data.len() - pos - v4count * 6) % 18 > 0 { return peers; } for _ in 0..v4count { assert!(data.len() >= pos + 6); let dat = &data[pos..pos + 6]; pos += 6; let port = Encoder::read_u16(&dat[4..]); let addr = SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::new(dat[0], dat[1], dat[2], dat[3]), port)); peers.push(addr); } let v6count = (data.len() - pos) / 18; for _ in 0..v6count { assert!(data.len() >= pos + 18); let dat = &data[pos..pos + 18]; pos += 18; let mut ip = [0u16; 8]; for i in 0..8 { ip[i] = Encoder::read_u16(&dat[i * 2..i * 2 + 2]); } let port = Encoder::read_u16(&dat[16..]); let addr = SocketAddr::V6(SocketAddrV6::new( Ipv6Addr::new(ip[0], ip[1], ip[2], ip[3], ip[4], ip[5], ip[6], ip[7]), port, 0, 0, )); peers.push(addr); } peers } pub fn encode(&self, peers: &[SocketAddr]) -> String { format!("{}{}{}", self.begin(), self.peerlist_encode(peers), self.end()) } pub fn write_to_file>(&self, peers: &[SocketAddr], path: P) -> Result<(), io::Error> { let beacon = self.encode(peers); debug!("Beacon: {}", beacon); let path = path.as_ref(); if path.exists() { fs::remove_file(path)? } let mut f = File::create(path)?; writeln!(&mut f, "{}", beacon)?; fs::set_permissions(path, Permissions::from_mode(0o444))?; Ok(()) } pub fn write_to_cmd(&self, peers: &[SocketAddr], cmd: &str) -> Result<(), io::Error> { let begin = self.begin(); let data = self.peerlist_encode(peers); let end = self.end(); let beacon = format!("{}{}{}", begin, data, end); debug!("Calling beacon command: {}", cmd); let process = Command::new("sh") .args(["-c", cmd]) .env("begin", begin) .env("data", data) .env("end", end) .env("beacon", beacon) .stdout(Stdio::piped()) .stderr(Stdio::piped()) .spawn()?; thread::spawn(move || { let output = process.wait_with_output().expect("Failed to wait on child"); if !output.status.success() { error!("Beacon command failed: {}", String::from_utf8_lossy(&output.stderr)); } else { debug!("Beacon command succeeded"); } }); Ok(()) } pub fn decode(&self, data: &str, ttl_hours: Option) -> Vec { let data = base_62_sanitize(data); let mut peers = Vec::new(); let begin = self.begin(); let end = self.end(); let mut pos = 0; while let Some(found) = data[pos..].find(&begin) { pos += found; let start_pos = pos + begin.len(); if let Some(found) = data[pos..].find(&end) { let end_pos = pos + found; peers.append(&mut self.peerlist_decode(&data[start_pos..end_pos], ttl_hours)); pos = start_pos } else { break; } } peers } pub fn read_from_file>( &self, path: P, ttl_hours: Option, ) -> Result, io::Error> { let mut f = File::open(&path)?; let mut contents = String::new(); f.read_to_string(&mut contents)?; Ok(self.decode(&contents, ttl_hours)) } pub fn read_from_cmd(&self, cmd: &str, ttl_hours: Option) -> Result<(), io::Error> { let begin = self.begin(); let end = self.end(); debug!("Calling beacon command: {}", cmd); let process = Command::new("sh") .args(["-c", cmd]) .env("begin", begin) .env("end", end) .stdout(Stdio::piped()) .stderr(Stdio::piped()) .spawn()?; let this = self.clone(); thread::spawn(move || { let output = process.wait_with_output().expect("Failed to wait on child"); if output.status.success() { let data = String::from_utf8_lossy(&output.stdout); let mut peers = this.decode(&data, ttl_hours); debug!("Beacon command succeeded with {} peers", peers.len()); mem::swap(&mut peers, &mut this.future_peers.result.lock().expect("Lock poisoned")); this.future_peers.has_result.store(true, Ordering::Relaxed); } else { error!("Beacon command failed: {}", String::from_utf8_lossy(&output.stderr)); } }); Ok(()) } pub fn get_cmd_results(&self) -> Option> { if self.future_peers.has_result.load(Ordering::Relaxed) { let mut peers = Vec::new(); mem::swap(&mut peers, &mut self.future_peers.result.lock().expect("Lock poisoned")); self.future_peers.has_result.store(false, Ordering::Relaxed); Some(peers) } else { None } } } #[cfg(test)] use crate::util::MockTimeSource; #[cfg(test)] use std::str::FromStr; #[cfg(test)] use std::time::Duration; #[test] fn encode() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); let mut peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:53").unwrap()]; assert_eq!("WsHI31EWDMBYxvITiILIrm2k9gEik22E", ser.encode(&peers)); peers.push(SocketAddr::from_str("[::1]:5678").unwrap()); assert_eq!("WsHI3GXKaXCveo6uejmZizZ72kR6Y0L9T7h49TXONp1ugfKvvvEik22E", ser.encode(&peers)); let peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:54").unwrap()]; assert_eq!("WsHI32gm9eMSHP3Lm1GXcdP7rD3ik22E", ser.encode(&peers)); } #[test] fn decode() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); let mut peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:53").unwrap()]; assert_eq!(format!("{:?}", peers), format!("{:?}", ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", None))); peers.push(SocketAddr::from_str("[::1]:5678").unwrap()); assert_eq!( format!("{:?}", peers), format!("{:?}", ser.decode("WsHI3GXKaXCveo6uejmZizZ72kR6Y0L9T7h49TXONp1ugfKvvvEik22E", None)) ); } #[test] fn decode_split() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); let peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:53").unwrap()]; assert_eq!( format!("{:?}", peers), format!("{:?}", ser.decode("WsHI3-1E.WD:MB Yx\tvI\nTi(IL)Ir[m2]k9ügEäik22E", None)) ); assert_eq!( format!("{:?}", peers), format!("{:?}", ser.decode("W -, \nsH--I31EWDMBYxvITiILIrm2k9gEi(k)2ÖÄÜ\n2E", None)) ); } #[test] fn decode_offset() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); let peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:53").unwrap()]; assert_eq!( format!("{:?}", peers), format!("{:?}", ser.decode("Hello World: WsHI31EWDMBYxvITiILIrm2k9gEik22E! End of the World", None)) ); } #[test] fn decode_multiple() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); let peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:53").unwrap()]; assert_eq!( format!("{:?}", peers), format!("{:?}", ser.decode("WsHI31HVpqxFNMNSPrvik22E WsHI34yOBcZIulKdtn2ik22E", None)) ); } #[test] fn decode_ttl() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); MockTimeSource::set_time(2000 * 3600); assert_eq!(2, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", None).len()); MockTimeSource::set_time(2100 * 3600); assert_eq!(2, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", None).len()); MockTimeSource::set_time(2005 * 3600); assert_eq!(2, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", None).len()); MockTimeSource::set_time(1995 * 3600); assert_eq!(2, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", None).len()); MockTimeSource::set_time(2000 * 3600); assert_eq!(2, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", Some(24)).len()); MockTimeSource::set_time(1995 * 3600); assert_eq!(2, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", Some(24)).len()); MockTimeSource::set_time(2005 * 3600); assert_eq!(2, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", Some(24)).len()); MockTimeSource::set_time(2100 * 3600); assert_eq!(0, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", Some(24)).len()); MockTimeSource::set_time(1900 * 3600); assert_eq!(0, ser.decode("WsHI31EWDMBYxvITiILIrm2k9gEik22E", Some(24)).len()); } #[test] fn decode_invalid() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); assert_eq!(0, ser.decode("", None).len()); assert_eq!(0, ser.decode("WsHI3ik22E", None).len()); assert_eq!(0, ser.decode("WsHI3--", None).len()); assert_eq!(0, ser.decode("--ik22E", None).len()); assert_eq!(0, ser.decode("WsHI32EWDMBYxvITiILIrm2k9gEik22E", None).len()); assert_eq!(2, ser.decode("ik22EWsHI31EWDMBYxvITiILIrm2k9gEik22EWsHI3", None).len()); assert_eq!(2, ser.decode("WsHI3WsHI31EWDMBYxvITiILIrm2k9gEik22Eik22E", None).len()); } #[test] fn encode_decode() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); let peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:53").unwrap()]; let data = ser.encode(&peers); let peers2 = ser.decode(&data, None); assert_eq!(format!("{:?}", peers), format!("{:?}", peers2)); } #[test] fn encode_decode_file() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); let peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:53").unwrap()]; let file = tempfile::NamedTempFile::new().expect("Failed to create temp file"); assert!(ser.write_to_file(&peers, file.path()).is_ok()); let peers2 = ser.read_from_file(file.path(), None); assert!(peers2.is_ok()); assert_eq!(format!("{:?}", peers), format!("{:?}", peers2.unwrap())); } #[test] fn encode_decode_cmd() { MockTimeSource::set_time(2000 * 3600); let ser = BeaconSerializer::::new(b"mysecretkey"); let peers = vec![SocketAddr::from_str("1.2.3.4:5678").unwrap(), SocketAddr::from_str("6.6.6.6:53").unwrap()]; let file = tempfile::NamedTempFile::new().expect("Failed to create temp file"); assert!(ser.write_to_cmd(&peers, &format!("echo $beacon > {}", file.path().display())).is_ok()); thread::sleep(Duration::from_millis(100)); let res = ser.read_from_cmd(&format!("cat {}", file.path().display()), None); assert!(res.is_ok()); thread::sleep(Duration::from_millis(100)); let peers2 = ser.get_cmd_results(); assert!(peers2.is_some()); assert_eq!(format!("{:?}", peers), format!("{:?}", peers2.unwrap())); }