SocketList: arcswap the list of SocketList
faster socket add/remove, so that we can search this list to find with wich socket we should send Signed-off-by: Luca Fulchir <luca.fulchir@runesauth.com>
This commit is contained in:
parent
c3aff3e8df
commit
0d33033c0b
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@ -25,4 +25,7 @@ pub enum Error {
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/// Can not decrypt. Either corrupted or malicious data
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#[error("decrypt: corrupted data")]
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Decrypt,
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/// Can not encrypt. library failure
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#[error("can't encrypt")]
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Encrypt,
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}
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@ -151,28 +151,44 @@ impl Cipher {
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}
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}
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}
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fn overhead(&self) -> usize {
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match self {
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Cipher::XChaCha20Poly1305(cipher) => {
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let cipher = CipherKind::XChaCha20Poly1305;
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cipher.nonce_len() + cipher.tag_len()
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}
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}
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}
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fn encrypt(
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&self,
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nonce: &Nonce,
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aad: AAD,
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nonce: Nonce,
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data: &mut [u8],
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data: &mut Data,
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) -> Result<(), Error> {
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// No need to check for minimum buffer size since `Data` assures we
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// already went through that
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match self {
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Cipher::XChaCha20Poly1305(cipher) => {
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use ::chacha20poly1305::{
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aead::generic_array::GenericArray, AeadInPlace,
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};
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let min_len: usize = CipherKind::XChaCha20Poly1305.nonce_len()
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+ CipherKind::XChaCha20Poly1305.tag_len()
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+ 1;
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if data.len() < min_len {
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return Err(Error::InsufficientBuffer);
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}
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// write Nonce, then advance it
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// write nonce
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data.get_slice_full()[..Nonce::len()]
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.copy_from_slice(nonce.as_bytes());
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// encrypt data
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match cipher.cipher.encrypt_in_place_detached(
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nonce.as_bytes().into(),
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aad.0,
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data.get_slice(),
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) {
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Ok(tag) => {
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// add tag
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data.get_tag_slice().copy_from_slice(tag.as_slice());
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Ok(())
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}
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Err(_) => Err(Error::Encrypt),
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};
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}
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}
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todo!()
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@ -203,6 +219,35 @@ impl CipherRecv {
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}
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}
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/// Allocate some data, with additional indexes to track
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/// where nonce and tags are
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#[derive(Debug, Clone)]
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pub struct Data {
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data: Vec<u8>,
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skip_start: usize,
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skip_end: usize,
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}
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impl Data {
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/// Get the slice where you will write the actual data
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/// this will skip the actual nonce and AEAD tag and give you
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/// only the space for the data
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pub fn get_slice(&mut self) -> &mut [u8] {
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&mut self.data[self.skip_start..self.skip_end]
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}
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fn get_tag_slice(&mut self) -> &mut [u8] {
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let start = self.data.len() - self.skip_end;
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&mut self.data[start..]
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}
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fn get_slice_full(&mut self) -> &mut [u8] {
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&mut self.data
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}
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/// Consume the data and return the whole raw vector
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pub fn get_raw(self) -> Vec<u8> {
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self.data
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}
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}
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/// Send only cipher
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#[allow(missing_debug_implementations)]
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pub struct CipherSend {
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@ -218,9 +263,19 @@ impl CipherSend {
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cipher: Cipher::new(kind, secret),
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}
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}
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/// Get the current nonce as &[u8]
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pub fn nonce_as_bytes(&self) -> &[u8] {
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self.nonce.as_bytes()
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/// Allocate the memory for the data that will be encrypted
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pub fn make_data(&self, length: usize) -> Data {
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Data {
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data: Vec::with_capacity(length + self.cipher.overhead()),
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skip_start: self.cipher.nonce_len(),
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skip_end: self.cipher.tag_len(),
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}
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}
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/// Encrypt the given data
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pub fn encrypt(&mut self, aad: AAD, data: &mut Data) -> Result<(), Error> {
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self.cipher.encrypt(&self.nonce, aad, data)?;
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self.nonce.advance();
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Ok(())
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}
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}
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186
src/lib.rs
186
src/lib.rs
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@ -179,13 +179,85 @@ type TokenChecker =
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domain: auth::Domain,
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) -> ::futures::future::BoxFuture<'static, Result<bool, ()>>;
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// PERF: move to arcswap:
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// We use multiple UDP sockets.
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// We need a list of them all and to scan this list.
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// But we want to be able to update this list without locking everyone
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// So we should wrap into ArcSwap, and use unsafe `as_raf_fd()` and
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// `from_raw_fd` to update the list.
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// This means that we will have multiple `UdpSocket` per actual socket
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// so we have to handle `drop()` manually, and garbage-collect the ones we
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// are no longer using in the background. sigh.
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// Just go with a ArcSwapAny<Arc<Vec<Arc< ...
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struct SocketList {
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sockets:
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ArcSwap<Vec<(Arc<UdpSocket>, Arc<JoinHandle<::std::io::Result<()>>>)>>,
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}
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impl SocketList {
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fn new() -> Self {
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Self {
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sockets: ArcSwap::new(Arc::new(Vec::new())),
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}
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}
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// TODO: fn rm_socket()
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fn rm_all(&self) -> Self {
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let new_list = Arc::new(Vec::new());
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let old_list = self.sockets.swap(new_list);
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Self {
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sockets: old_list.into(),
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}
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}
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async fn add_socket(
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&self,
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socket: Arc<UdpSocket>,
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handle: JoinHandle<::std::io::Result<()>>,
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) {
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let mut new_list;
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{
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let old_list = self.sockets.load();
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new_list = Arc::new(Vec::with_capacity(old_list.len() + 1));
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new_list = old_list.to_vec().into();
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}
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Arc::get_mut(&mut new_list)
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.unwrap()
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.push((socket, Arc::new(handle)));
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self.sockets.swap(new_list);
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}
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async fn find(&self, sock: SocketAddr) -> Option<Arc<UdpSocket>> {
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let list = self.sockets.load();
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match list.iter().find(|&(s, _)| s.local_addr().unwrap() == sock) {
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Some((sock, _)) => Some(sock.clone()),
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None => None,
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}
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}
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async fn stop_all(mut self) {
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let mut arc_list = self.sockets.into_inner();
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let list = loop {
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match Arc::try_unwrap(arc_list) {
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Ok(list) => break list,
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Err(arc_retry) => {
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arc_list = arc_retry;
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::tokio::time::sleep(::core::time::Duration::from_millis(
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50,
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))
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.await;
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}
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}
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};
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for (_socket, mut handle) in list.into_iter() {
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Arc::get_mut(&mut handle).unwrap().await;
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}
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}
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}
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/// Instance of a fenrir endpoint
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#[allow(missing_copy_implementations, missing_debug_implementations)]
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pub struct Fenrir {
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/// library Configuration
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cfg: Config,
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/// listening udp sockets
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sockets: Vec<(Arc<UdpSocket>, JoinHandle<::std::io::Result<()>>)>,
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//sockets: Vec<(Arc<UdpSocket>, JoinHandle<::std::io::Result<()>>)>,
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sockets: SocketList,
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/// DNSSEC resolver, with failovers
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dnssec: Option<dnssec::Dnssec>,
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/// Broadcast channel to tell workers to stop working
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@ -211,7 +283,7 @@ impl Fenrir {
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let (sender, _) = ::tokio::sync::broadcast::channel(1);
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let endpoint = Fenrir {
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cfg: config.clone(),
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sockets: Vec::with_capacity(listen_num),
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sockets: SocketList::new(),
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dnssec: None,
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stop_working: sender,
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_inner: Arc::new(FenrirInner {
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@ -239,9 +311,11 @@ impl Fenrir {
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/// asyncronous version for Drop
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fn stop_sync(&mut self) {
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let _ = self.stop_working.send(true);
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let mut toempty_socket = Vec::new();
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::std::mem::swap(&mut self.sockets, &mut toempty_socket);
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let task = ::tokio::task::spawn(Self::stop_sockets(toempty_socket));
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let mut toempty_sockets = self.sockets.rm_all();
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let task = ::tokio::task::spawn(Self::stop_sockets(toempty_sockets));
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//let mut toempty_socket = Vec::new();
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//::std::mem::swap(&mut self.sockets, &mut toempty_socket);
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//let task = ::tokio::task::spawn(Self::stop_sockets(toempty_socket));
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let _ = ::futures::executor::block_on(task);
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self.dnssec = None;
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}
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@ -249,19 +323,19 @@ impl Fenrir {
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/// Stop all workers, listeners
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pub async fn stop(&mut self) {
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let _ = self.stop_working.send(true);
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let mut toempty_socket = Vec::new();
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::std::mem::swap(&mut self.sockets, &mut toempty_socket);
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Self::stop_sockets(toempty_socket).await;
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let mut toempty_sockets = self.sockets.rm_all();
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Self::stop_sockets(toempty_sockets).await;
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self.dnssec = None;
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}
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/// actually do the work of stopping resolvers and listeners
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async fn stop_sockets(
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sockets: Vec<(Arc<UdpSocket>, JoinHandle<::std::io::Result<()>>)>,
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) {
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async fn stop_sockets(sockets: SocketList) {
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sockets.stop_all().await;
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/*
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for s in sockets.into_iter() {
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let _ = s.1.await;
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}
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*/
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}
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/// Enable some common socket options. This is just the unsafe part
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}
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Ok(())
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}
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/// Add all UDP sockets found in config
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/// and start listening for packets
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async fn add_sockets(&mut self) -> ::std::io::Result<()> {
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let sockets = self.cfg.listen.iter().map(|s_addr| async {
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let socket =
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::tokio::spawn(Self::bind_udp(s_addr.clone())).await??;
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Ok(socket)
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});
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let sockets = ::futures::future::join_all(sockets).await;
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for s_res in sockets.into_iter() {
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match s_res {
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Ok(s) => {
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let stop_working = self.stop_working.subscribe();
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let arc_s = Arc::new(s);
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let join = ::tokio::spawn(Self::listen_udp(
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stop_working,
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self._inner.clone(),
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self.token_check.clone(),
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arc_s.clone(),
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));
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self.sockets.add_socket(arc_s, join);
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}
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Err(e) => {
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return Err(e);
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}
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}
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}
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Ok(())
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}
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/// Add an async udp listener
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async fn bind_udp(sock: SocketAddr) -> ::std::io::Result<UdpSocket> {
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let socket = UdpSocket::bind(sock).await?;
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@ -319,9 +424,10 @@ impl Fenrir {
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socket: Arc<UdpSocket>,
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) -> ::std::io::Result<()> {
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// jumbo frames are 9K max
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let sock_receiver = socket.local_addr()?;
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let mut buffer: [u8; 9000] = [0; 9000];
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loop {
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let (bytes, sock_from) = ::tokio::select! {
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let (bytes, sock_sender) = ::tokio::select! {
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_done = stop_working.recv() => {
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break;
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}
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@ -333,42 +439,14 @@ impl Fenrir {
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fenrir.clone(),
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token_check.clone(),
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&buffer[0..bytes],
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sock_from,
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sock_receiver,
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sock_sender,
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)
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.await;
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}
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Ok(())
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}
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/// Add all UDP sockets found in config
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/// and start listening for packets
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async fn add_sockets(&mut self) -> ::std::io::Result<()> {
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let sockets = self.cfg.listen.iter().map(|s_addr| async {
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let socket =
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::tokio::spawn(Self::bind_udp(s_addr.clone())).await??;
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Ok(Arc::new(socket))
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});
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let sockets = ::futures::future::join_all(sockets).await;
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for s_res in sockets.into_iter() {
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match s_res {
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Ok(s) => {
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let stop_working = self.stop_working.subscribe();
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let join = ::tokio::spawn(Self::listen_udp(
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stop_working,
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self._inner.clone(),
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self.token_check.clone(),
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s.clone(),
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));
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self.sockets.push((s, join));
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}
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Err(e) => {
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return Err(e);
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}
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}
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}
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Ok(())
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}
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/// Get the raw TXT record of a Fenrir domain
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pub async fn resolv_str(&self, domain: &str) -> Result<String, Error> {
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match &self.dnssec {
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@ -389,7 +467,8 @@ impl Fenrir {
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fenrir: Arc<FenrirInner>,
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token_check: Arc<ArcSwapOption<TokenChecker>>,
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buffer: &[u8],
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_sock_from: SocketAddr,
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_sock_receiver: SocketAddr,
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_sock_sender: SocketAddr,
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) {
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if buffer.len() < Self::MIN_PACKET_BYTES {
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return;
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@ -484,20 +563,25 @@ impl Fenrir {
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// build response
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let secret_send =
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authinfo.hkdf.get_secret(b"to_client");
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let cipher_send = CipherRecv::new(
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let mut cipher_send = CipherSend::new(
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authinfo.cipher,
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secret_send,
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);
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use crate::enc::sym::AAD;
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let aad = AAD(&mut []); // no aad for now
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/*
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match cipher_send.encrypt(aad, &mut req.data.ciphertext()) {
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Ok(()) => req.data.mark_as_cleartext(),
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Err(e) => {
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return Err(handshake::Error::Key(e).into());
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let mut data = cipher_send
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.make_data(dirsync::RespData::len());
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if let Err(e) =
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cipher_send.encrypt(aad, &mut data)
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{
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::tracing::error!("can't encrypt: {:?}", e);
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return;
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}
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}
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*/
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let resp = dirsync::Resp {
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client_key_id: req_data.client_key_id,
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enc: data.get_raw(),
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};
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todo!()
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}
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_ => {
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