Some improvements

src/cloud.rs

@@ -738,22 +738,15 @@ impl<D: Device, P: Protocol, S: Socket, TS: TimeSource> GenericCloud<D, P, S, TS
         self.traffic.count_in_traffic(src, buffer.len());
         if let Err(e) = self.handle_net_message(src, buffer) {
             error!("Error: {}", e);
-            match e {
-                Error::Crypto(_) => {
-                    info!("Closing connection to {} due to error", addr_nice(src));
-                    self.remove_peer(src);
-                }
-                Error::CryptoInit(_) => {
-                    info!("Closing pending connection to {} due to error", addr_nice(src));
-                    self.pending_inits.remove(&src);
-                }
-                _ => ()
+            if let Error::CryptoInit(_) = e {
+                info!("Closing pending connection to {} due to error", addr_nice(src));
+                self.pending_inits.remove(&src);
             }
         }
     }
 
     fn handle_device_event(&mut self, buffer: &mut MsgBuffer) {
-        try_fail!(self.device.read(buffer), "Failed to read from tap device: {}");
+        try_fail!(self.device.read(buffer), "Failed to read from device: {}");
         if let Err(e) = self.handle_interface_data(buffer) {
             error!("Error: {}", e);
         }

src/crypto/core.rs

@@ -176,13 +176,13 @@ impl CryptoCore {
 
     fn decrypt_with_key<'a>(key: &mut CryptoKey, nonce: Nonce, data_and_tag: &'a mut [u8]) -> Result<(), Error> {
         if nonce < key.min_nonce {
-            return Err(Error::Unauthorized("Old nonce rejected"))
+            return Err(Error::Crypto("Old nonce rejected"))
         }
         // decrypt
         let crypto_nonce = aead::Nonce::assume_unique_for_key(*nonce.as_bytes());
         key.key
             .open_in_place(crypto_nonce, aead::Aad::empty(), data_and_tag)
-            .map_err(|_| Error::Unauthorized("Failed to decrypt data"))?;
+            .map_err(|_| Error::Crypto("Failed to decrypt data"))?;
         // last seen nonce
         if key.seen_nonce < nonce {
             key.seen_nonce = nonce;
@@ -230,12 +230,17 @@ impl CryptoCore {
 }
 
 
+pub fn create_dummy_pair(algo: &'static aead::Algorithm) -> (CryptoCore, CryptoCore) {
+    let key_data = random_data(algo.key_len());
+    let sender = CryptoCore::new(LessSafeKey::new(UnboundKey::new(algo, &key_data).unwrap()), true);
+    let receiver = CryptoCore::new(LessSafeKey::new(UnboundKey::new(algo, &key_data).unwrap()), false);
+    (sender, receiver)
+}
+
 pub fn test_speed(algo: &'static aead::Algorithm, max_time: &Duration) -> f64 {
     let mut buffer = MsgBuffer::new(EXTRA_LEN);
     buffer.set_length(1000);
-    let key_data = random_data(algo.key_len());
-    let mut sender = CryptoCore::new(LessSafeKey::new(UnboundKey::new(algo, &key_data).unwrap()), true);
-    let mut receiver = CryptoCore::new(LessSafeKey::new(UnboundKey::new(algo, &key_data).unwrap()), false);
+    let (mut sender, mut receiver) = create_dummy_pair(algo);
     let mut iterations = 0;
     let start = Instant::now();
     while (Instant::now() - start).as_nanos() < max_time.as_nanos() {
@@ -256,14 +261,6 @@ mod tests {
     use super::*;
     use ring::aead::{self, LessSafeKey, UnboundKey};
 
-
-    fn setup_pair(algo: &'static aead::Algorithm) -> (CryptoCore, CryptoCore) {
-        let key = random_data(algo.key_len());
-        let crypto1 = CryptoCore::new(LessSafeKey::new(UnboundKey::new(algo, &key).unwrap()), false);
-        let crypto2 = CryptoCore::new(LessSafeKey::new(UnboundKey::new(algo, &key).unwrap()), true);
-        (crypto1, crypto2)
-    }
-
     #[test]
     fn test_nonce() {
         let mut nonce = Nonce::zero();
@@ -275,7 +272,7 @@ mod tests {
     }
 
     fn test_encrypt_decrypt(algo: &'static aead::Algorithm) {
-        let (mut sender, mut receiver) = setup_pair(algo);
+        let (mut sender, mut receiver) = create_dummy_pair(algo);
         let plain = random_data(1000);
         let mut buffer = MsgBuffer::new(EXTRA_LEN);
         buffer.clone_from(&plain);
@@ -303,7 +300,7 @@ mod tests {
 
 
     fn test_tampering(algo: &'static aead::Algorithm) {
-        let (mut sender, mut receiver) = setup_pair(algo);
+        let (mut sender, mut receiver) = create_dummy_pair(algo);
         let plain = random_data(1000);
         let mut buffer = MsgBuffer::new(EXTRA_LEN);
         buffer.clone_from(&plain);
@@ -343,7 +340,7 @@ mod tests {
     }
 
     fn test_nonce_pinning(algo: &'static aead::Algorithm) {
-        let (mut sender, mut receiver) = setup_pair(algo);
+        let (mut sender, mut receiver) = create_dummy_pair(algo);
         let plain = random_data(1000);
         let mut buffer = MsgBuffer::new(EXTRA_LEN);
         buffer.clone_from(&plain);
@@ -384,7 +381,7 @@ mod tests {
     }
 
     fn test_key_rotation(algo: &'static aead::Algorithm) {
-        let (mut sender, mut receiver) = setup_pair(algo);
+        let (mut sender, mut receiver) = create_dummy_pair(algo);
         let plain = random_data(1000);
         let mut buffer = MsgBuffer::new(EXTRA_LEN);
         buffer.clone_from(&plain);
@@ -466,9 +463,7 @@ mod benches {
     fn crypto_bench(b: &mut Bencher, algo: &'static aead::Algorithm) {
         let mut buffer = MsgBuffer::new(EXTRA_LEN);
         buffer.set_length(1400);
-        let key_data = random_data(algo.key_len());
-        let mut sender = CryptoCore::new(LessSafeKey::new(UnboundKey::new(algo, &key_data).unwrap()), true);
-        let mut receiver = CryptoCore::new(LessSafeKey::new(UnboundKey::new(algo, &key_data).unwrap()), false);
+        let (mut sender, mut receiver) = create_dummy_pair(algo);
         b.iter(|| {
             sender.encrypt(&mut buffer);
             receiver.decrypt(&mut buffer).unwrap();

src/crypto/init.rs

@@ -84,7 +84,6 @@ pub type SaltedNodeIdHash = [u8; SALTED_NODE_ID_HASH_LEN];
 
 #[allow(clippy::large_enum_variant)]
 pub enum InitMsg {
-    // TODO: include only salted hashes of node_id and use public_key for leader election
     Ping {
         salted_node_id_hash: SaltedNodeIdHash,
         ecdh_public_key: EcdhPublicKey,
@@ -153,7 +152,7 @@ impl InitMsg {
             }
         }
         if !found_key {
-            return Err(Error::Unauthorized("untrusted peer"))
+            return Err(Error::Crypto("untrusted peer"))
         }
 
         let mut stage = None;
@@ -233,7 +232,7 @@ impl InitMsg {
         let signed_data = &r.into_inner()[0..pos];
         let public_key = signature::UnparsedPublicKey::new(&ED25519, &public_key_data);
         if public_key.verify(&signed_data, &signature).is_err() {
-            return Err(Error::Unauthorized("invalid signature"))
+            return Err(Error::Crypto("invalid signature"))
         }
 
         let stage = match stage {
@@ -420,17 +419,15 @@ impl<P: Payload> InitState<P> {
         }
     }
 
-    pub fn send_ping(&mut self, out: &mut MsgBuffer) -> Result<(), Error> {
+    pub fn send_ping(&mut self, out: &mut MsgBuffer) {
         // create ecdh ephemeral key
         let (ecdh_private_key, ecdh_public_key) = self.create_ecdh_keypair();
         self.ecdh_private_key = Some(ecdh_private_key);
 
         // create stage 1 msg
-        self.send_message(STAGE_PING, Some(ecdh_public_key), out)?;
+        self.send_message(STAGE_PING, Some(ecdh_public_key), out);
 
         self.next_stage = STAGE_PONG;
-
-        Ok(())
     }
 
     pub fn stage(&self) -> u8 {
@@ -449,7 +446,7 @@ impl<P: Payload> InitState<P> {
             Ok(())
         } else if self.failed_retries < 5 {
             self.failed_retries += 1;
-            self.repeat_last_message(out)?;
+            self.repeat_last_message(out);
             Ok(())
         } else {
             Err(Error::CryptoInit("Initialization timeout"))
@@ -473,13 +470,13 @@ impl<P: Payload> InitState<P> {
         (ecdh_private_key, ecdh_public_key)
     }
 
-    fn encrypt_payload(&mut self) -> Result<MsgBuffer, Error> {
+    fn encrypt_payload(&mut self) -> MsgBuffer {
         let mut buffer = MsgBuffer::new(EXTRA_LEN);
         self.payload.write_to(&mut buffer);
         if let Some(crypto) = &mut self.crypto {
             crypto.encrypt(&mut buffer);
         }
-        Ok(buffer)
+        buffer
     }
 
     fn decrypt(&mut self, data: &mut MsgBuffer) -> Result<P, Error> {
@@ -499,7 +496,7 @@ impl<P: Payload> InitState<P> {
 
     fn send_message(
         &mut self, stage: u8, ecdh_public_key: Option<EcdhPublicKey>, out: &mut MsgBuffer
-    ) -> Result<(), Error> {
+    ) {
         debug!("Sending init with stage={}", stage);
         assert!(out.is_empty());
         let mut public_key = [0; ED25519_PUBLIC_KEY_LEN];
@@ -517,13 +514,13 @@ impl<P: Payload> InitState<P> {
                     salted_node_id_hash: self.salted_node_id_hash,
                     ecdh_public_key: ecdh_public_key.unwrap(),
                     algorithms: self.algorithms.clone(),
-                    encrypted_payload: self.encrypt_payload()?
+                    encrypted_payload: self.encrypt_payload()
                 }
             }
             STAGE_PENG => {
                 InitMsg::Peng {
                     salted_node_id_hash: self.salted_node_id_hash,
-                    encrypted_payload: self.encrypt_payload()?
+                    encrypted_payload: self.encrypt_payload()
                 }
             }
             _ => unreachable!()
@@ -532,17 +529,15 @@ impl<P: Payload> InitState<P> {
         let len = msg.write_to(&mut bytes, &self.key_pair).expect("Buffer too small");
         self.last_message = Some(bytes[0..len].to_vec());
         out.set_length(len);
-        Ok(())
     }
 
-    fn repeat_last_message(&self, out: &mut MsgBuffer) -> Result<(), Error> {
+    fn repeat_last_message(&self, out: &mut MsgBuffer) {
         if let Some(ref bytes) = self.last_message {
             debug!("Repeating last init message");
             let buffer = out.buffer();
             buffer[0..bytes.len()].copy_from_slice(bytes);
             out.set_length(bytes.len());
         }
-        Ok(())
     }
 
     fn select_algorithm(&self, peer_algos: &Algorithms) -> Result<Option<(&'static Algorithm, f32)>, Error> {
@@ -597,7 +592,7 @@ impl<P: Payload> InitState<P> {
             } else if self.next_stage == CLOSING {
                 return Ok(InitResult::Continue)
             } else if self.last_message.is_some() {
-                self.repeat_last_message(out)?;
+                self.repeat_last_message(out);
                 return Ok(InitResult::Continue)
             } else {
                 return Err(Error::CryptoInit("Received invalid stage as first message"))
@@ -617,7 +612,7 @@ impl<P: Payload> InitState<P> {
                 }
 
                 // create and send stage 2 reply
-                self.send_message(STAGE_PONG, Some(my_ecdh_public_key), out)?;
+                self.send_message(STAGE_PONG, Some(my_ecdh_public_key), out);
 
                 self.next_stage = STAGE_PENG;
                 Ok(InitResult::Continue)
@@ -636,7 +631,7 @@ impl<P: Payload> InitState<P> {
                     self.decrypt(&mut encrypted_payload).map_err(|_| Error::CryptoInit("Failed to decrypt payload"))?;
 
                 // create and send stage 3 reply
-                self.send_message(STAGE_PENG, None, out)?;
+                self.send_message(STAGE_PENG, None, out);
 
                 self.next_stage = WAITING_TO_CLOSE;
                 self.close_time = 60;
@@ -701,7 +696,7 @@ mod tests {
     fn normal_init() {
         let (mut sender, mut receiver) = create_pair();
         let mut out = MsgBuffer::new(8);
-        sender.send_ping(&mut out).unwrap();
+        sender.send_ping(&mut out);
         assert_eq!(sender.stage(), STAGE_PONG);
         let result = receiver.handle_init(&mut out).unwrap();
         assert_eq!(receiver.stage(), STAGE_PENG);

src/crypto/mod.rs

@@ -258,7 +258,7 @@ impl<P: Payload> PeerCrypto<P> {
         if init.stage() != init::STAGE_PING {
             Err(Error::InvalidCryptoState("Initialization already ongoing"))
         } else {
-            init.send_ping(out)?;
+            init.send_ping(out);
             out.prepend_byte(INIT_MESSAGE_FIRST_BYTE);
             Ok(())
         }

src/error.rs

@@ -5,12 +5,11 @@ use std::io;
 
 #[derive(Error, Debug)]
 pub enum Error {
-    #[error("Unauthorized message: {0}")]
-    Unauthorized(&'static str),
-
+    /// Crypto init error, this is fatal and the init needs to be aborted
     #[error("Crypto initialization error: {0}")]
     CryptoInit(&'static str),
 
+    /// Crypto error with this one message, no permanent error
     #[error("Crypto error: {0}")]
     Crypto(&'static str),