Rust implementation of NextGraph, a Decentralized and local-first web 3.0 ecosystem https://nextgraph.org
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nextgraph-rs/p2p-net/src/connection.rs

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/*
* Copyright (c) 2022-2023 Niko Bonnieure, Par le Peuple, NextGraph.org developers
* All rights reserved.
* Licensed under the Apache License, Version 2.0
* <LICENSE-APACHE2 or http://www.apache.org/licenses/LICENSE-2.0>
* or the MIT license <LICENSE-MIT or http://opensource.org/licenses/MIT>,
* at your option. All files in the project carrying such
* notice may not be copied, modified, or distributed except
* according to those terms.
*/
//static NOISE_CONFIG: &'static str = "Noise_XK_25519_ChaChaPoly_BLAKE2b";
use std::collections::HashMap;
use std::fmt;
use std::sync::Arc;
use crate::actor::{Actor, SoS};
use crate::actors::*;
use crate::errors::NetError;
use crate::errors::ProtocolError;
use crate::log;
use crate::types::*;
use crate::utils::*;
use async_std::stream::StreamExt;
use async_std::sync::Mutex;
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use debug_print::debug_println;
use futures::{channel::mpsc, select, Future, FutureExt, SinkExt};
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use noise_protocol::U8Array;
use noise_protocol::{patterns::noise_xk, CipherState, HandshakeState};
use noise_rust_crypto::sensitive::Sensitive;
use noise_rust_crypto::*;
use p2p_repo::types::{PrivKey, PubKey};
use p2p_repo::utils::{sign, verify};
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use serde_bare::from_slice;
use unique_id::sequence::SequenceGenerator;
use unique_id::Generator;
use unique_id::GeneratorFromSeed;
#[derive(Debug, Clone)]
pub enum ConnectionCommand {
Msg(ProtocolMessage),
Error(NetError),
ProtocolError(ProtocolError),
Close,
}
#[cfg_attr(target_arch = "wasm32", async_trait::async_trait(?Send))]
#[cfg_attr(not(target_arch = "wasm32"), async_trait::async_trait)]
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pub trait IConnect: Send + Sync {
async fn open(
&self,
ip: IP,
peer_privk: Sensitive<[u8; 32]>,
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peer_pubk: PubKey,
remote_peer: DirectPeerId,
config: StartConfig,
) -> Result<ConnectionBase, NetError>;
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}
#[cfg_attr(target_arch = "wasm32", async_trait::async_trait(?Send))]
#[cfg_attr(not(target_arch = "wasm32"), async_trait::async_trait)]
pub trait IAccept: Send + Sync {
type Socket;
async fn accept(
&self,
peer_privk: Sensitive<[u8; 32]>,
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peer_pubk: PubKey,
socket: Self::Socket,
) -> Result<ConnectionBase, NetError>;
}
#[derive(PartialEq, Debug, Clone)]
pub enum ConnectionDir {
Server,
Client,
}
impl ConnectionDir {
pub fn is_server(&self) -> bool {
*self == ConnectionDir::Server
}
}
#[derive(Debug, PartialEq)]
pub enum FSMstate {
Local0,
Noise0,
Noise1,
Noise2,
Noise3,
ExtRequest,
ExtResponse,
ClientHello,
ServerHello,
ClientAuth,
AuthResult,
}
pub struct NoiseFSM {
state: FSMstate,
dir: ConnectionDir,
sender: Sender<ConnectionCommand>,
actors: Arc<Mutex<HashMap<i64, Sender<ConnectionCommand>>>>,
noise_handshake_state: Option<HandshakeState<X25519, ChaCha20Poly1305, Blake2b>>,
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noise_cipher_state_enc: Option<CipherState<ChaCha20Poly1305>>,
noise_cipher_state_dec: Option<CipherState<ChaCha20Poly1305>>,
from: Option<Sensitive<[u8; 32]>>,
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to: Option<PubKey>,
nonce_for_hello: Vec<u8>,
config: Option<StartConfig>,
}
impl fmt::Debug for NoiseFSM {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_struct("NoiseFSM")
.field("state", &self.state)
.field("dir", &self.dir)
.finish()
}
}
pub enum StepReply {
Responder(ProtocolMessage),
Response(ProtocolMessage),
NONE,
}
pub struct ClientConfig {
pub user: PubKey,
pub client: PubKey,
pub client_priv: PrivKey,
}
pub struct ExtConfig {}
pub struct CoreConfig {}
pub struct AdminConfig {}
pub enum StartConfig {
Client(ClientConfig),
Ext(ExtConfig),
Core(CoreConfig),
Admin(AdminConfig),
}
impl NoiseFSM {
pub fn new(
tp: TransportProtocol,
dir: ConnectionDir,
actors: Arc<Mutex<HashMap<i64, Sender<ConnectionCommand>>>>,
sender: Sender<ConnectionCommand>,
from: Sensitive<[u8; 32]>,
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to: Option<PubKey>,
) -> Self {
Self {
state: if tp == TransportProtocol::Local {
FSMstate::Local0
} else {
FSMstate::Noise0
},
dir,
actors,
sender,
noise_handshake_state: None,
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noise_cipher_state_enc: None,
noise_cipher_state_dec: None,
from: Some(from),
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to,
nonce_for_hello: vec![],
config: None,
}
}
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fn decrypt(&mut self, ciphertext: &Noise) -> Result<ProtocolMessage, ProtocolError> {
let ser = self
.noise_cipher_state_dec
.as_mut()
.unwrap()
.decrypt_vec(ciphertext.data())
.map_err(|e| ProtocolError::DecryptionError)?;
Ok(from_slice::<ProtocolMessage>(&ser)?)
}
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fn encrypt(&mut self, plaintext: ProtocolMessage) -> Result<Noise, ProtocolError> {
let ser = serde_bare::to_vec(&plaintext)?;
let cipher = self
.noise_cipher_state_enc
.as_mut()
.unwrap()
.encrypt_vec(&ser);
Ok(Noise::V0(NoiseV0 { data: cipher }))
}
pub async fn remove_actor(&self, id: i64) {
self.actors.lock().await.remove(&id);
}
pub async fn send(&mut self, msg: ProtocolMessage) -> Result<(), ProtocolError> {
log!("SENDING: {:?}", msg);
if self.noise_cipher_state_enc.is_some() {
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let cipher = self.encrypt(msg)?;
self.sender
.send(ConnectionCommand::Msg(ProtocolMessage::Noise(cipher)))
.await
.map_err(|e| ProtocolError::IoError)?;
return Ok(());
} else {
self.sender
.send(ConnectionCommand::Msg(msg))
.await
.map_err(|e| ProtocolError::IoError)?;
return Ok(());
}
}
// pub async fn receive(
// &mut self,
// msg: ProtocolMessage,
// ) -> Result<ProtocolMessage, ProtocolError> {
// if self.state == FSMstate::AuthResult && self.noise_cipher_state.is_some() {
// if let ProtocolMessage::Noise(noise) = msg {
// let new = self.decrypt(&noise);
// Ok(new)
// } else {
// Err(ProtocolError::MustBeEncrypted)
// }
// } else {
// Err(ProtocolError::InvalidState)
// }
// }
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pub async fn step(
&mut self,
mut msg_opt: Option<ProtocolMessage>,
) -> Result<StepReply, ProtocolError> {
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if self.noise_cipher_state_dec.is_some() {
if let Some(ProtocolMessage::Noise(noise)) = msg_opt.as_ref() {
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let new = self.decrypt(noise)?;
msg_opt.replace(new);
} else {
return Err(ProtocolError::MustBeEncrypted);
}
}
if msg_opt.is_some() {
log!("RECEIVED: {:?}", msg_opt.as_ref().unwrap());
}
match self.state {
// TODO verify that ID is zero
FSMstate::Local0 => {
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// CLIENT LOCAL
if !self.dir.is_server() && msg_opt.is_none() {
self.state = FSMstate::ClientHello;
Box::new(Actor::<ClientHello, ServerHello>::new(0, true));
return Ok(StepReply::NONE);
}
// SERVER LOCAL
else if let Some(msg) = msg_opt.as_ref() {
if self.dir.is_server() && msg.type_id() == ClientHello::Local.type_id() {
self.state = FSMstate::ServerHello;
Box::new(Actor::<ClientHello, ServerHello>::new(msg.id(), false));
return Ok(StepReply::NONE);
}
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}
}
FSMstate::Noise0 => {
// CLIENT INITIALIZE NOISE
if !self.dir.is_server() && msg_opt.is_none() {
let mut handshake = HandshakeState::<X25519, ChaCha20Poly1305, Blake2b>::new(
noise_xk(),
true,
&[],
Some(self.from.take().unwrap()),
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None,
Some(*self.to.unwrap().slice()),
None,
);
let payload = handshake
.write_message_vec(&[])
.map_err(|e| ProtocolError::NoiseHandshakeFailed)?;
let noise = Noise::V0(NoiseV0 { data: payload });
self.send(noise.into()).await?;
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self.noise_handshake_state = Some(handshake);
self.state = FSMstate::Noise1;
return Ok(StepReply::NONE);
}
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// SERVER INITIALIZE NOISE
else if let Some(msg) = msg_opt.as_ref() {
if self.dir.is_server() {
if let ProtocolMessage::Noise(noise) = msg {
let mut handshake =
HandshakeState::<X25519, ChaCha20Poly1305, Blake2b>::new(
noise_xk(),
false,
&[],
Some(self.from.take().unwrap()),
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None,
None,
None,
);
let mut payload =
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handshake.read_message_vec(noise.data()).map_err(|e| {
debug_println!("{:?}", e);
ProtocolError::NoiseHandshakeFailed
})?;
payload = handshake.write_message_vec(&payload).map_err(|e| {
debug_println!("{:?}", e);
ProtocolError::NoiseHandshakeFailed
})?;
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let noise = Noise::V0(NoiseV0 { data: payload });
self.send(noise.into()).await?;
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self.noise_handshake_state = Some(handshake);
self.state = FSMstate::Noise2;
return Ok(StepReply::NONE);
}
}
}
}
FSMstate::Noise1 => {
// CLIENT second round NOISE
if let Some(msg) = msg_opt.as_ref() {
if !self.dir.is_server() {
if let ProtocolMessage::Noise(noise) = msg {
let handshake = self.noise_handshake_state.as_mut().unwrap();
let mut payload = handshake
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.read_message_vec(noise.data())
.map_err(|e| ProtocolError::NoiseHandshakeFailed)?;
payload = handshake.write_message_vec(&payload).map_err(|e| {
debug_println!("{:?}", e);
ProtocolError::NoiseHandshakeFailed
})?;
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if !handshake.completed() {
return Err(ProtocolError::NoiseHandshakeFailed);
}
let ciphers = handshake.get_ciphers();
match self.config.as_ref().unwrap() {
StartConfig::Client(client_config) => {
let noise3 =
ClientHello::Noise3(Noise::V0(NoiseV0 { data: payload }));
self.send(noise3.into()).await?;
self.state = FSMstate::ClientHello;
}
StartConfig::Ext(ext_config) => {
todo!();
}
StartConfig::Core(core_config) => {
todo!();
}
StartConfig::Admin(admin_config) => {
todo!();
}
}
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self.noise_cipher_state_enc = Some(ciphers.0);
self.noise_cipher_state_dec = Some(ciphers.1);
self.noise_handshake_state = None;
return Ok(StepReply::NONE);
}
}
}
}
FSMstate::Noise2 => {
// SERVER second round NOISE
if let Some(msg) = msg_opt.as_ref() {
if self.dir.is_server() {
if let ProtocolMessage::Start(StartProtocol::Client(ClientHello::Noise3(
noise,
))) = msg
{
let handshake = self.noise_handshake_state.as_mut().unwrap();
let _ = handshake
.read_message_vec(noise.data())
.map_err(|e| ProtocolError::NoiseHandshakeFailed)?;
if !handshake.completed() {
return Err(ProtocolError::NoiseHandshakeFailed);
}
self.to = Some(PubKey::Ed25519PubKey(handshake.get_rs().unwrap()));
let ciphers = handshake.get_ciphers();
self.noise_cipher_state_enc = Some(ciphers.1);
self.noise_cipher_state_dec = Some(ciphers.0);
self.noise_handshake_state = None;
let mut nonce_buf = [0u8; 32];
getrandom::getrandom(&mut nonce_buf).unwrap();
self.nonce_for_hello = nonce_buf.to_vec();
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let server_hello = ServerHello::V0(ServerHelloV0 {
nonce: self.nonce_for_hello.clone(),
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});
self.state = FSMstate::ServerHello;
self.send(server_hello.into()).await?;
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return Ok(StepReply::NONE);
}
}
}
}
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FSMstate::Noise3 => {}
FSMstate::ExtRequest => {}
FSMstate::ExtResponse => {}
FSMstate::ClientHello => {
if let Some(msg) = msg_opt.as_ref() {
if !self.dir.is_server() {
if let ProtocolMessage::ServerHello(hello) = msg {
if let StartConfig::Client(client_config) =
self.config.as_ref().unwrap()
{
let content = ClientAuthContentV0 {
user: client_config.user,
client: client_config.client,
/// Nonce from ServerHello
nonce: hello.nonce().clone(),
};
let ser = serde_bare::to_vec(&content)?;
let sig =
sign(client_config.client_priv, client_config.client, &ser)?;
let client_auth = ClientAuth::V0(ClientAuthV0 {
content,
/// Signature by client key
sig,
});
self.state = FSMstate::ClientAuth;
self.send(client_auth.into()).await?;
return Ok(StepReply::NONE);
}
}
}
}
}
FSMstate::ServerHello => {
if let Some(msg) = msg_opt.as_ref() {
if self.dir.is_server() {
if let ProtocolMessage::ClientAuth(client_auth) = msg {
if *client_auth.nonce() != self.nonce_for_hello {
return Err(ProtocolError::InvalidNonce);
}
let ser = serde_bare::to_vec(&client_auth.content_v0())?;
let mut result = ProtocolError::NoError;
let verif = verify(&ser, client_auth.sig(), client_auth.client());
if verif.is_err() {
result = verif.unwrap_err().into();
} else {
// TODO check that the device has been registered for this user. if not, set result = AccessDenied
}
let auth_result = AuthResult::V0(AuthResultV0 {
result: result.clone() as u16,
metadata: vec![],
});
self.send(auth_result.into()).await?;
if (result.is_err()) {
return Err(result);
}
log!("AUTHENTICATION SUCCESSFUL ! waiting for requests on the server side");
self.state = FSMstate::AuthResult;
return Ok(StepReply::NONE);
}
}
}
}
FSMstate::ClientAuth => {
if let Some(msg) = msg_opt.as_ref() {
if !self.dir.is_server() {
if let ProtocolMessage::AuthResult(auth_res) = msg {
if let StartConfig::Client(client_config) =
self.config.as_ref().unwrap()
{
if auth_res.result() != 0 {
return Err(ProtocolError::AccessDenied);
}
self.state = FSMstate::AuthResult;
log!("AUTHENTICATION SUCCESSFUL ! waiting for requests on the client side");
return Ok(StepReply::NONE);
}
}
}
}
}
FSMstate::AuthResult => {
if let Some(msg) = msg_opt {
let id = msg.id();
if self.dir.is_server() && id > 0 || !self.dir.is_server() && id < 0 {
return Ok(StepReply::Responder(msg));
} else if id != 0 {
return Ok(StepReply::Response(msg));
}
}
}
}
Err(ProtocolError::InvalidState)
}
}
#[derive(Debug)]
pub struct ConnectionBase {
fsm: Option<Arc<Mutex<NoiseFSM>>>,
sender: Option<Receiver<ConnectionCommand>>,
receiver: Option<Sender<ConnectionCommand>>,
sender_tx: Option<Sender<ConnectionCommand>>,
receiver_tx: Option<Sender<ConnectionCommand>>,
shutdown: Option<Receiver<NetError>>,
dir: ConnectionDir,
next_request_id: SequenceGenerator,
tp: TransportProtocol,
actors: Arc<Mutex<HashMap<i64, Sender<ConnectionCommand>>>>,
}
impl ConnectionBase {
pub fn new(dir: ConnectionDir, tp: TransportProtocol) -> Self {
Self {
fsm: None,
receiver: None,
sender: None,
sender_tx: None,
receiver_tx: None,
shutdown: None,
next_request_id: SequenceGenerator::new(1),
dir,
tp,
actors: Arc::new(Mutex::new(HashMap::new())),
}
}
pub fn transport_protocol(&self) -> TransportProtocol {
self.tp
}
pub fn take_shutdown(&mut self) -> Receiver<NetError> {
self.shutdown.take().unwrap()
}
pub async fn join_shutdown(&mut self) -> Result<(), NetError> {
match self.take_shutdown().next().await {
Some(error) => Err(error),
None => Ok(()),
}
}
pub fn set_shutdown(&mut self) -> Sender<NetError> {
let (shutdown_sender, shutdown_receiver) = mpsc::unbounded::<NetError>();
self.shutdown = Some(shutdown_receiver);
shutdown_sender
}
pub fn take_sender(&mut self) -> Receiver<ConnectionCommand> {
self.sender.take().unwrap()
}
pub fn take_receiver(&mut self) -> Sender<ConnectionCommand> {
self.receiver.take().unwrap()
}
pub fn guard(&mut self, dir: ConnectionDir) -> Result<(), NetError> {
if self.dir == dir {
Ok(())
} else {
Err(NetError::DirectionAlreadySet)
}
}
async fn read_loop(
mut receiver: Receiver<ConnectionCommand>,
mut sender: Sender<ConnectionCommand>,
actors: Arc<Mutex<HashMap<i64, Sender<ConnectionCommand>>>>,
fsm: Arc<Mutex<NoiseFSM>>,
) -> ResultSend<()> {
while let Some(msg) = receiver.next().await {
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match msg {
ConnectionCommand::Close
| ConnectionCommand::Error(_)
| ConnectionCommand::ProtocolError(_) => {
log!("EXIT READ LOOP because : {:?}", msg);
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break;
}
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ConnectionCommand::Msg(proto_msg) => {
let res;
{
let mut locked_fsm = fsm.lock().await;
res = locked_fsm.step(Some(proto_msg)).await;
}
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match res {
Err(e) => {
if sender
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.send(ConnectionCommand::ProtocolError(e))
.await
.is_err()
{
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break; //TODO test that sending a ProtocolError effectively closes the connection (with ConnectionCommand::Close)
}
}
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Ok(StepReply::NONE) => {}
Ok(StepReply::Responder(responder)) => {
let r = responder
.get_actor()
.respond(responder, Arc::clone(&fsm))
.await;
if r.is_err() {
if sender
.send(ConnectionCommand::ProtocolError(r.unwrap_err()))
.await
.is_err()
{
break;
}
}
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}
Ok(StepReply::Response(response)) => {
let mut lock = actors.lock().await;
let exists = lock.get_mut(&response.id());
match exists {
Some(actor_sender) => {
if actor_sender
.send(ConnectionCommand::Msg(response))
.await
.is_err()
{
break;
}
}
None => {
if sender
.send(ConnectionCommand::ProtocolError(
ProtocolError::ActorError,
))
.await
.is_err()
{
break;
}
}
}
}
}
}
}
}
log!("END OF READ LOOP");
Ok(())
}
pub async fn request<
A: Into<ProtocolMessage> + std::fmt::Debug + Sync + Send + 'static,
B: TryFrom<ProtocolMessage, Error = ProtocolError> + std::fmt::Debug + Sync + Send + 'static,
>(
&self,
msg: A,
) -> Result<SoS<B>, ProtocolError> {
if self.fsm.is_none() {
return Err(ProtocolError::FsmNotReady);
}
let mut id = self.next_request_id.next_id();
if self.dir == ConnectionDir::Server {
id = !id + 1;
}
let mut actor = Box::new(Actor::<A, B>::new(id, true));
self.actors.lock().await.insert(id, actor.get_receiver_tx());
let mut proto_msg: ProtocolMessage = msg.into();
proto_msg.set_id(id);
let res = actor
.request(proto_msg, Arc::clone(self.fsm.as_ref().unwrap()))
.await;
res
}
pub async fn send(&mut self, cmd: ConnectionCommand) {
let _ = self.sender_tx.as_mut().unwrap().send(cmd).await;
}
// pub async fn inject(&mut self, cmd: ConnectionCommand) {
// let _ = self.receiver_tx.as_mut().unwrap().send(cmd).await;
// }
// pub async fn close_streams(&mut self) {
// let _ = self.receiver_tx.as_mut().unwrap().close_channel();
// let _ = self.sender_tx.as_mut().unwrap().close_channel();
// }
pub async fn close(&mut self) {
log!("closing...");
self.send(ConnectionCommand::Close).await;
}
pub async fn start(&mut self, config: StartConfig) {
// BOOTSTRAP the protocol from client-side
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if !self.dir.is_server() {
let res;
{
let mut fsm = self.fsm.as_ref().unwrap().lock().await;
fsm.config = Some(config);
res = fsm.step(None).await;
}
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if let Err(err) = res {
self.send(ConnectionCommand::ProtocolError(err)).await;
}
} else {
panic!("cannot call start on a server-side connection");
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}
}
pub fn start_read_loop(&mut self, from: Sensitive<[u8; 32]>, to: Option<PubKey>) {
let (sender_tx, sender_rx) = mpsc::unbounded();
let (receiver_tx, receiver_rx) = mpsc::unbounded();
self.sender = Some(sender_rx);
self.receiver = Some(receiver_tx.clone());
self.sender_tx = Some(sender_tx.clone());
self.receiver_tx = Some(receiver_tx);
let fsm = Arc::new(Mutex::new(NoiseFSM::new(
self.tp,
self.dir.clone(),
Arc::clone(&self.actors),
sender_tx.clone(),
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from,
to,
)));
self.fsm = Some(Arc::clone(&fsm));
spawn_and_log_error(Self::read_loop(
receiver_rx,
sender_tx,
Arc::clone(&self.actors),
fsm,
));
}
}
mod test {
use crate::actor::*;
use crate::actors::*;
use crate::log;
use crate::types::*;
use std::any::{Any, TypeId};
#[async_std::test]
pub async fn test_connection() {}
#[async_std::test]
pub async fn test_typeid() {
log!(
"{:?}",
ClientHello::Noise3(Noise::V0(NoiseV0 { data: vec![] })).type_id()
);
let a = Noise::V0(NoiseV0 { data: [].to_vec() });
log!("{:?}", a.type_id());
log!("{:?}", TypeId::of::<Noise>());
log!("{:?}", ClientHello::Local.type_id());
log!("{:?}", TypeId::of::<ClientHello>());
}
}