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ZIm/crates/rpc_client/src/lib.rs
Nathan Sobo d5b60ad124 Rename zrpc to rpc 
Co-Authored-By: Max Brunsfeld <maxbrunsfeld@gmail.com>
2021-10-04 13:28:00 -06:00

761 lines
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Rust
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#[cfg(any(test, feature = "test-support"))]
pub mod test;
use anyhow::{anyhow, Context, Result};
use async_recursion::async_recursion;
use async_tungstenite::tungstenite::{
error::Error as WebsocketError,
http::{Request, StatusCode},
};
use gpui::{AsyncAppContext, Entity, ModelContext, Task};
use lazy_static::lazy_static;
use parking_lot::RwLock;
use postage::{prelude::Stream, watch};
use rand::prelude::*;
use rpc::proto::{AnyTypedEnvelope, EntityMessage, EnvelopedMessage, RequestMessage};
use std::{
any::TypeId,
collections::HashMap,
convert::TryFrom,
fmt::Write as _,
future::Future,
sync::{Arc, Weak},
time::{Duration, Instant},
};
use surf::Url;
use thiserror::Error;
use util::ResultExt;
pub use rpc::*;
lazy_static! {
static ref ZED_SERVER_URL: String =
std::env::var("ZED_SERVER_URL").unwrap_or("https://zed.dev:443".to_string());
static ref IMPERSONATE_LOGIN: Option<String> = std::env::var("ZED_IMPERSONATE")
.ok()
.and_then(|s| if s.is_empty() { None } else { Some(s) });
}
pub struct Client {
peer: Arc<Peer>,
state: RwLock<ClientState>,
authenticate:
Option<Box<dyn 'static + Send + Sync + Fn(&AsyncAppContext) -> Task<Result<Credentials>>>>,
establish_connection: Option<
Box<
dyn 'static
+ Send
+ Sync
+ Fn(
&Credentials,
&AsyncAppContext,
) -> Task<Result<Connection, EstablishConnectionError>>,
>,
>,
}
#[derive(Error, Debug)]
pub enum EstablishConnectionError {
#[error("upgrade required")]
UpgradeRequired,
#[error("unauthorized")]
Unauthorized,
#[error("{0}")]
Other(#[from] anyhow::Error),
#[error("{0}")]
Io(#[from] std::io::Error),
#[error("{0}")]
Http(#[from] async_tungstenite::tungstenite::http::Error),
}
impl From<WebsocketError> for EstablishConnectionError {
fn from(error: WebsocketError) -> Self {
if let WebsocketError::Http(response) = &error {
match response.status() {
StatusCode::UNAUTHORIZED => return EstablishConnectionError::Unauthorized,
StatusCode::UPGRADE_REQUIRED => return EstablishConnectionError::UpgradeRequired,
_ => {}
}
}
EstablishConnectionError::Other(error.into())
}
}
impl EstablishConnectionError {
pub fn other(error: impl Into<anyhow::Error> + Send + Sync) -> Self {
Self::Other(error.into())
}
}
#[derive(Copy, Clone, Debug)]
pub enum Status {
SignedOut,
UpgradeRequired,
Authenticating,
Connecting,
ConnectionError,
Connected { connection_id: ConnectionId },
ConnectionLost,
Reauthenticating,
Reconnecting,
ReconnectionError { next_reconnection: Instant },
}
struct ClientState {
credentials: Option<Credentials>,
status: (watch::Sender<Status>, watch::Receiver<Status>),
entity_id_extractors: HashMap<TypeId, Box<dyn Send + Sync + Fn(&dyn AnyTypedEnvelope) -> u64>>,
model_handlers: HashMap<
(TypeId, u64),
Box<dyn Send + Sync + FnMut(Box<dyn AnyTypedEnvelope>, &mut AsyncAppContext)>,
>,
_maintain_connection: Option<Task<()>>,
heartbeat_interval: Duration,
}
#[derive(Clone)]
pub struct Credentials {
pub user_id: u64,
pub access_token: String,
}
impl Default for ClientState {
fn default() -> Self {
Self {
credentials: None,
status: watch::channel_with(Status::SignedOut),
entity_id_extractors: Default::default(),
model_handlers: Default::default(),
_maintain_connection: None,
heartbeat_interval: Duration::from_secs(5),
}
}
}
pub struct Subscription {
client: Weak<Client>,
id: (TypeId, u64),
}
impl Drop for Subscription {
fn drop(&mut self) {
if let Some(client) = self.client.upgrade() {
drop(
client
.state
.write()
.model_handlers
.remove(&self.id)
.unwrap(),
);
}
}
}
impl Client {
pub fn new() -> Arc<Self> {
Arc::new(Self {
peer: Peer::new(),
state: Default::default(),
authenticate: None,
establish_connection: None,
})
}
#[cfg(any(test, feature = "test-support"))]
pub fn override_authenticate<F>(&mut self, authenticate: F) -> &mut Self
where
F: 'static + Send + Sync + Fn(&AsyncAppContext) -> Task<Result<Credentials>>,
{
self.authenticate = Some(Box::new(authenticate));
self
}
#[cfg(any(test, feature = "test-support"))]
pub fn override_establish_connection<F>(&mut self, connect: F) -> &mut Self
where
F: 'static
+ Send
+ Sync
+ Fn(&Credentials, &AsyncAppContext) -> Task<Result<Connection, EstablishConnectionError>>,
{
self.establish_connection = Some(Box::new(connect));
self
}
pub fn user_id(&self) -> Option<u64> {
self.state
.read()
.credentials
.as_ref()
.map(|credentials| credentials.user_id)
}
pub fn status(&self) -> watch::Receiver<Status> {
self.state.read().status.1.clone()
}
fn set_status(self: &Arc<Self>, status: Status, cx: &AsyncAppContext) {
let mut state = self.state.write();
*state.status.0.borrow_mut() = status;
match status {
Status::Connected { .. } => {
let heartbeat_interval = state.heartbeat_interval;
let this = self.clone();
let foreground = cx.foreground();
state._maintain_connection = Some(cx.foreground().spawn(async move {
loop {
foreground.timer(heartbeat_interval).await;
let _ = this.request(proto::Ping {}).await;
}
}));
}
Status::ConnectionLost => {
let this = self.clone();
let foreground = cx.foreground();
let heartbeat_interval = state.heartbeat_interval;
state._maintain_connection = Some(cx.spawn(|cx| async move {
let mut rng = StdRng::from_entropy();
let mut delay = Duration::from_millis(100);
while let Err(error) = this.authenticate_and_connect(&cx).await {
log::error!("failed to connect {}", error);
this.set_status(
Status::ReconnectionError {
next_reconnection: Instant::now() + delay,
},
&cx,
);
foreground.timer(delay).await;
delay = delay
.mul_f32(rng.gen_range(1.0..=2.0))
.min(heartbeat_interval);
}
}));
}
Status::SignedOut | Status::UpgradeRequired => {
state._maintain_connection.take();
}
_ => {}
}
}
pub fn subscribe<T, M, F>(
self: &Arc<Self>,
cx: &mut ModelContext<M>,
mut handler: F,
) -> Subscription
where
T: EnvelopedMessage,
M: Entity,
F: 'static
+ Send
+ Sync
+ FnMut(&mut M, TypedEnvelope<T>, Arc<Self>, &mut ModelContext<M>) -> Result<()>,
{
let subscription_id = (TypeId::of::<T>(), Default::default());
let client = self.clone();
let mut state = self.state.write();
let model = cx.handle().downgrade();
let prev_extractor = state
.entity_id_extractors
.insert(subscription_id.0, Box::new(|_| Default::default()));
if prev_extractor.is_some() {
panic!("registered a handler for the same entity twice")
}
state.model_handlers.insert(
subscription_id,
Box::new(move |envelope, cx| {
if let Some(model) = model.upgrade(cx) {
let envelope = envelope.into_any().downcast::<TypedEnvelope<T>>().unwrap();
model.update(cx, |model, cx| {
if let Err(error) = handler(model, *envelope, client.clone(), cx) {
log::error!("error handling message: {}", error)
}
});
}
}),
);
Subscription {
client: Arc::downgrade(self),
id: subscription_id,
}
}
pub fn subscribe_to_entity<T, M, F>(
self: &Arc<Self>,
remote_id: u64,
cx: &mut ModelContext<M>,
mut handler: F,
) -> Subscription
where
T: EntityMessage,
M: Entity,
F: 'static
+ Send
+ Sync
+ FnMut(&mut M, TypedEnvelope<T>, Arc<Self>, &mut ModelContext<M>) -> Result<()>,
{
let subscription_id = (TypeId::of::<T>(), remote_id);
let client = self.clone();
let mut state = self.state.write();
let model = cx.handle().downgrade();
state
.entity_id_extractors
.entry(subscription_id.0)
.or_insert_with(|| {
Box::new(|envelope| {
let envelope = envelope
.as_any()
.downcast_ref::<TypedEnvelope<T>>()
.unwrap();
envelope.payload.remote_entity_id()
})
});
let prev_handler = state.model_handlers.insert(
subscription_id,
Box::new(move |envelope, cx| {
if let Some(model) = model.upgrade(cx) {
let envelope = envelope.into_any().downcast::<TypedEnvelope<T>>().unwrap();
model.update(cx, |model, cx| {
if let Err(error) = handler(model, *envelope, client.clone(), cx) {
log::error!("error handling message: {}", error)
}
});
}
}),
);
if prev_handler.is_some() {
panic!("registered a handler for the same entity twice")
}
Subscription {
client: Arc::downgrade(self),
id: subscription_id,
}
}
#[async_recursion(?Send)]
pub async fn authenticate_and_connect(
self: &Arc<Self>,
cx: &AsyncAppContext,
) -> anyhow::Result<()> {
let was_disconnected = match *self.status().borrow() {
Status::SignedOut => true,
Status::ConnectionError | Status::ConnectionLost | Status::ReconnectionError { .. } => {
false
}
Status::Connected { .. }
| Status::Connecting { .. }
| Status::Reconnecting { .. }
| Status::Authenticating
| Status::Reauthenticating => return Ok(()),
Status::UpgradeRequired => return Err(EstablishConnectionError::UpgradeRequired)?,
};
if was_disconnected {
self.set_status(Status::Authenticating, cx);
} else {
self.set_status(Status::Reauthenticating, cx)
}
let mut used_keychain = false;
let credentials = self.state.read().credentials.clone();
let credentials = if let Some(credentials) = credentials {
credentials
} else if let Some(credentials) = read_credentials_from_keychain(cx) {
used_keychain = true;
credentials
} else {
let credentials = match self.authenticate(&cx).await {
Ok(credentials) => credentials,
Err(err) => {
self.set_status(Status::ConnectionError, cx);
return Err(err);
}
};
credentials
};
if was_disconnected {
self.set_status(Status::Connecting, cx);
} else {
self.set_status(Status::Reconnecting, cx);
}
match self.establish_connection(&credentials, cx).await {
Ok(conn) => {
log::info!("connected to rpc address {}", *ZED_SERVER_URL);
self.state.write().credentials = Some(credentials.clone());
if !used_keychain && IMPERSONATE_LOGIN.is_none() {
write_credentials_to_keychain(&credentials, cx).log_err();
}
self.set_connection(conn, cx).await;
Ok(())
}
Err(EstablishConnectionError::Unauthorized) => {
self.state.write().credentials.take();
if used_keychain {
cx.platform().delete_credentials(&ZED_SERVER_URL).log_err();
self.set_status(Status::SignedOut, cx);
self.authenticate_and_connect(cx).await
} else {
self.set_status(Status::ConnectionError, cx);
Err(EstablishConnectionError::Unauthorized)?
}
}
Err(EstablishConnectionError::UpgradeRequired) => {
self.set_status(Status::UpgradeRequired, cx);
Err(EstablishConnectionError::UpgradeRequired)?
}
Err(error) => {
self.set_status(Status::ConnectionError, cx);
Err(error)?
}
}
}
async fn set_connection(self: &Arc<Self>, conn: Connection, cx: &AsyncAppContext) {
let (connection_id, handle_io, mut incoming) = self.peer.add_connection(conn).await;
cx.foreground()
.spawn({
let mut cx = cx.clone();
let this = self.clone();
async move {
while let Some(message) = incoming.recv().await {
let mut state = this.state.write();
if let Some(extract_entity_id) =
state.entity_id_extractors.get(&message.payload_type_id())
{
let payload_type_id = message.payload_type_id();
let entity_id = (extract_entity_id)(message.as_ref());
let handler_key = (payload_type_id, entity_id);
if let Some(mut handler) = state.model_handlers.remove(&handler_key) {
drop(state); // Avoid deadlocks if the handler interacts with rpc::Client
let start_time = Instant::now();
log::info!("RPC client message {}", message.payload_type_name());
(handler)(message, &mut cx);
log::info!(
"RPC message handled. duration:{:?}",
start_time.elapsed()
);
this.state
.write()
.model_handlers
.insert(handler_key, handler);
} else {
log::info!("unhandled message {}", message.payload_type_name());
}
} else {
log::info!("unhandled message {}", message.payload_type_name());
}
}
}
})
.detach();
self.set_status(Status::Connected { connection_id }, cx);
let handle_io = cx.background().spawn(handle_io);
let this = self.clone();
let cx = cx.clone();
cx.foreground()
.spawn(async move {
match handle_io.await {
Ok(()) => this.set_status(Status::SignedOut, &cx),
Err(err) => {
log::error!("connection error: {:?}", err);
this.set_status(Status::ConnectionLost, &cx);
}
}
})
.detach();
}
fn authenticate(self: &Arc<Self>, cx: &AsyncAppContext) -> Task<Result<Credentials>> {
if let Some(callback) = self.authenticate.as_ref() {
callback(cx)
} else {
self.authenticate_with_browser(cx)
}
}
fn establish_connection(
self: &Arc<Self>,
credentials: &Credentials,
cx: &AsyncAppContext,
) -> Task<Result<Connection, EstablishConnectionError>> {
if let Some(callback) = self.establish_connection.as_ref() {
callback(credentials, cx)
} else {
self.establish_websocket_connection(credentials, cx)
}
}
fn establish_websocket_connection(
self: &Arc<Self>,
credentials: &Credentials,
cx: &AsyncAppContext,
) -> Task<Result<Connection, EstablishConnectionError>> {
let request = Request::builder()
.header(
"Authorization",
format!("{} {}", credentials.user_id, credentials.access_token),
)
.header("X-Zed-Protocol-Version", rpc::PROTOCOL_VERSION);
cx.background().spawn(async move {
if let Some(host) = ZED_SERVER_URL.strip_prefix("https://") {
let stream = smol::net::TcpStream::connect(host).await?;
let request = request.uri(format!("wss://{}/rpc", host)).body(())?;
let (stream, _) =
async_tungstenite::async_tls::client_async_tls(request, stream).await?;
Ok(Connection::new(stream))
} else if let Some(host) = ZED_SERVER_URL.strip_prefix("http://") {
let stream = smol::net::TcpStream::connect(host).await?;
let request = request.uri(format!("ws://{}/rpc", host)).body(())?;
let (stream, _) = async_tungstenite::client_async(request, stream).await?;
Ok(Connection::new(stream))
} else {
Err(anyhow!("invalid server url: {}", *ZED_SERVER_URL))?
}
})
}
pub fn authenticate_with_browser(
self: &Arc<Self>,
cx: &AsyncAppContext,
) -> Task<Result<Credentials>> {
let platform = cx.platform();
let executor = cx.background();
executor.clone().spawn(async move {
// Generate a pair of asymmetric encryption keys. The public key will be used by the
// zed server to encrypt the user's access token, so that it can'be intercepted by
// any other app running on the user's device.
let (public_key, private_key) =
rpc::auth::keypair().expect("failed to generate keypair for auth");
let public_key_string =
String::try_from(public_key).expect("failed to serialize public key for auth");
// Start an HTTP server to receive the redirect from Zed's sign-in page.
let server = tiny_http::Server::http("127.0.0.1:0").expect("failed to find open port");
let port = server.server_addr().port();
// Open the Zed sign-in page in the user's browser, with query parameters that indicate
// that the user is signing in from a Zed app running on the same device.
let mut url = format!(
"{}/sign_in?native_app_port={}&native_app_public_key={}",
*ZED_SERVER_URL, port, public_key_string
);
if let Some(impersonate_login) = IMPERSONATE_LOGIN.as_ref() {
log::info!("impersonating user @{}", impersonate_login);
write!(&mut url, "&impersonate={}", impersonate_login).unwrap();
}
platform.open_url(&url);
// Receive the HTTP request from the user's browser. Retrieve the user id and encrypted
// access token from the query params.
//
// TODO - Avoid ever starting more than one HTTP server. Maybe switch to using a
// custom URL scheme instead of this local HTTP server.
let (user_id, access_token) = executor
.spawn(async move {
if let Some(req) = server.recv_timeout(Duration::from_secs(10 * 60))? {
let path = req.url();
let mut user_id = None;
let mut access_token = None;
let url = Url::parse(&format!("http://example.com{}", path))
.context("failed to parse login notification url")?;
for (key, value) in url.query_pairs() {
if key == "access_token" {
access_token = Some(value.to_string());
} else if key == "user_id" {
user_id = Some(value.to_string());
}
}
req.respond(
tiny_http::Response::from_string(LOGIN_RESPONSE).with_header(
tiny_http::Header::from_bytes("Content-Type", "text/html").unwrap(),
),
)
.context("failed to respond to login http request")?;
Ok((
user_id.ok_or_else(|| anyhow!("missing user_id parameter"))?,
access_token
.ok_or_else(|| anyhow!("missing access_token parameter"))?,
))
} else {
Err(anyhow!("didn't receive login redirect"))
}
})
.await?;
let access_token = private_key
.decrypt_string(&access_token)
.context("failed to decrypt access token")?;
platform.activate(true);
Ok(Credentials {
user_id: user_id.parse()?,
access_token,
})
})
}
pub async fn disconnect(self: &Arc<Self>, cx: &AsyncAppContext) -> Result<()> {
let conn_id = self.connection_id()?;
self.peer.disconnect(conn_id).await;
self.set_status(Status::SignedOut, cx);
Ok(())
}
fn connection_id(&self) -> Result<ConnectionId> {
if let Status::Connected { connection_id, .. } = *self.status().borrow() {
Ok(connection_id)
} else {
Err(anyhow!("not connected"))
}
}
pub async fn send<T: EnvelopedMessage>(&self, message: T) -> Result<()> {
self.peer.send(self.connection_id()?, message).await
}
pub async fn request<T: RequestMessage>(&self, request: T) -> Result<T::Response> {
self.peer.request(self.connection_id()?, request).await
}
pub fn respond<T: RequestMessage>(
&self,
receipt: Receipt<T>,
response: T::Response,
) -> impl Future<Output = Result<()>> {
self.peer.respond(receipt, response)
}
}
fn read_credentials_from_keychain(cx: &AsyncAppContext) -> Option<Credentials> {
if IMPERSONATE_LOGIN.is_some() {
return None;
}
let (user_id, access_token) = cx
.platform()
.read_credentials(&ZED_SERVER_URL)
.log_err()
.flatten()?;
Some(Credentials {
user_id: user_id.parse().ok()?,
access_token: String::from_utf8(access_token).ok()?,
})
}
fn write_credentials_to_keychain(credentials: &Credentials, cx: &AsyncAppContext) -> Result<()> {
cx.platform().write_credentials(
&ZED_SERVER_URL,
&credentials.user_id.to_string(),
credentials.access_token.as_bytes(),
)
}
const WORKTREE_URL_PREFIX: &'static str = "zed://worktrees/";
pub fn encode_worktree_url(id: u64, access_token: &str) -> String {
format!("{}{}/{}", WORKTREE_URL_PREFIX, id, access_token)
}
pub fn decode_worktree_url(url: &str) -> Option<(u64, String)> {
let path = url.trim().strip_prefix(WORKTREE_URL_PREFIX)?;
let mut parts = path.split('/');
let id = parts.next()?.parse::<u64>().ok()?;
let access_token = parts.next()?;
if access_token.is_empty() {
return None;
}
Some((id, access_token.to_string()))
}
const LOGIN_RESPONSE: &'static str = "
<!DOCTYPE html>
<html>
<script>window.close();</script>
</html>
";
#[cfg(test)]
mod tests {
use super::*;
use crate::test::FakeServer;
use gpui::TestAppContext;
#[gpui::test(iterations = 10)]
async fn test_heartbeat(cx: TestAppContext) {
cx.foreground().forbid_parking();
let user_id = 5;
let mut client = Client::new();
let server = FakeServer::for_client(user_id, &mut client, &cx).await;
cx.foreground().advance_clock(Duration::from_secs(10));
let ping = server.receive::<proto::Ping>().await.unwrap();
server.respond(ping.receipt(), proto::Ack {}).await;
cx.foreground().advance_clock(Duration::from_secs(10));
let ping = server.receive::<proto::Ping>().await.unwrap();
server.respond(ping.receipt(), proto::Ack {}).await;
client.disconnect(&cx.to_async()).await.unwrap();
assert!(server.receive::<proto::Ping>().await.is_err());
}
#[gpui::test(iterations = 10)]
async fn test_reconnection(cx: TestAppContext) {
cx.foreground().forbid_parking();
let user_id = 5;
let mut client = Client::new();
let server = FakeServer::for_client(user_id, &mut client, &cx).await;
let mut status = client.status();
assert!(matches!(
status.recv().await,
Some(Status::Connected { .. })
));
assert_eq!(server.auth_count(), 1);
server.forbid_connections();
server.disconnect().await;
while !matches!(status.recv().await, Some(Status::ReconnectionError { .. })) {}
server.allow_connections();
cx.foreground().advance_clock(Duration::from_secs(10));
while !matches!(status.recv().await, Some(Status::Connected { .. })) {}
assert_eq!(server.auth_count(), 1); // Client reused the cached credentials when reconnecting
server.forbid_connections();
server.disconnect().await;
while !matches!(status.recv().await, Some(Status::ReconnectionError { .. })) {}
// Clear cached credentials after authentication fails
server.roll_access_token();
server.allow_connections();
cx.foreground().advance_clock(Duration::from_secs(10));
assert_eq!(server.auth_count(), 1);
cx.foreground().advance_clock(Duration::from_secs(10));
while !matches!(status.recv().await, Some(Status::Connected { .. })) {}
assert_eq!(server.auth_count(), 2); // Client re-authenticated due to an invalid token
}
#[test]
fn test_encode_and_decode_worktree_url() {
let url = encode_worktree_url(5, "deadbeef");
assert_eq!(decode_worktree_url(&url), Some((5, "deadbeef".to_string())));
assert_eq!(
decode_worktree_url(&format!("\n {}\t", url)),
Some((5, "deadbeef".to_string()))
);
assert_eq!(decode_worktree_url("not://the-right-format"), None);
}
}
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