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use_prelude!();
use ::std::{
future::Future,
sync::{Mutex, OnceLock, Weak},
};
pub use super::connection_request_handler::{ConnectionRequest, ConnectionRequestAuthorization};
use super::{
presence_observer::{
PeersObserver, PeersObserverCtx, PresenceObserver, PresenceObserverCtx,
WeakPresenceObserver,
},
v2::V2Presence,
v3::PresenceGraph,
};
pub type JsonObject = ::serde_json::Map<String, ::serde_json::Value>;
/// # `Presence` to visualize the mesh.
///
/// Even if Ditto works as a standalone, other peers are needed to exploit it
/// at its maximum extend : syncing data and merging it.
///
/// The [`Presence`] struct allows you to get and monitor known peers.
/// The peers are regrouped inside a [`PresenceGraph`].
///
/// You can get [`Presence`] using the [`Ditto::presence`] method.
/// To have an immediate graph of peers, use [`Presence::graph`]:
/// ```
/// # use dittolive_ditto::prelude::*;
/// # fn test_presence(ditto: Ditto) {
/// let presence_graph = ditto.presence().graph();
/// # }
/// ```
/// To monitor peers, use [`Presence::observe`] to call a callback each time peers are updated:
/// ```
/// # use dittolive_ditto::prelude::*;
/// # fn test_presence(ditto: Ditto) {
/// let handle = ditto.presence().observe(|presence_graph| {
/// // Do something with peers
/// });
/// # }
/// ```
pub struct Presence {
ditto: Arc<ffi_sdk::BoxedDitto>,
observers_v2: Mutex<Vec<Weak<PeersObserverCtx>>>,
observers_v3: Mutex<Vec<WeakPresenceObserver>>,
registered: Mutex<bool>,
peer_metadata_cache: Mutex<PeerMetadataCache>,
}
impl Presence {
pub(crate) fn new(ditto: Arc<ffi_sdk::BoxedDitto>) -> Self {
Self {
ditto,
observers_v2: <_>::default(),
observers_v3: <_>::default(),
registered: false.into(),
peer_metadata_cache: <_>::default(),
}
}
/// `ctx` is, conceptually-speaking a `&'short_lived Weak< DiskUsageObserverCtx<F> >`.
///
/// This scoped/callback API embodies that.
#[track_caller]
unsafe fn borrowing_from_ctx(ctx: *const c_void, yielding: impl FnOnce(&Weak<Presence>)) {
let weak_ctx = ::core::mem::ManuallyDrop::new(Weak::from_raw(ctx.cast::<Presence>()));
yielding(&weak_ctx)
}
unsafe extern "C" fn retain(ctx: *mut c_void) {
Self::borrowing_from_ctx(ctx, |weak_ctx| _ = Weak::into_raw(weak_ctx.clone()))
}
unsafe extern "C" fn release(ctx: *mut c_void) {
drop(Weak::<Presence>::from_raw(ctx.cast()))
}
/// C wrapper for calling the real callback on Presence
unsafe extern "C" fn on_event_v2(ctx: *mut c_void, json: char_p::Ref<'_>) {
Self::borrowing_from_ctx(ctx, |weak_ctx| {
if let Some(strong_ctx) = weak_ctx.upgrade() {
let presence_json_str = json.to_str();
strong_ctx.on_presence_v2(presence_json_str);
}
})
}
/// C wrapper for calling the real callback on Presence
unsafe extern "C" fn on_event_v3(ctx: *mut c_void, json: char_p::Ref<'_>) {
Self::borrowing_from_ctx(ctx, |weak_ctx| {
if let Some(strong_ctx) = weak_ctx.upgrade() {
let presence_json_str = json.to_str();
strong_ctx.on_presence_v3(presence_json_str);
}
})
}
fn on_presence_v2(&self, json_str: &str) {
// v2 presence
let mut observers_v2 = self.observers_v2.lock().unwrap();
if observers_v2.is_empty() {
return;
}
if let Ok(presence_v2) = serde_json::from_str::<V2Presence>(json_str) {
observers_v2.retain(|weak_observer| {
if let Some(observer) = weak_observer.upgrade() {
(observer.on_presence)(presence_v2.clone());
true
} else {
false
}
})
}
}
fn on_presence_v3(&self, json_str: &str) {
// v3 presence
let mut observers_v3 = self.observers_v3.lock().unwrap();
if observers_v3.is_empty() {
return;
}
if let Ok(presence_graph) = serde_json::from_str(json_str) {
observers_v3.retain(|weak_observer| {
if let Some(observer) = weak_observer.upgrade() {
(observer.on_presence)(&presence_graph);
true
} else {
false
}
})
}
}
fn subscribe(self: &Arc<Self>) {
unsafe {
let weak_self = Arc::downgrade(self);
ffi_sdk::ditto_register_presence_v2_callback(
&self.ditto,
weak_self.as_ptr() as *mut _,
Some(Presence::retain),
Some(Presence::release),
Some(<unsafe extern "C" fn(_, char_p::Ref<'_>)>::into(
Presence::on_event_v2,
)),
);
ffi_sdk::ditto_register_presence_callback_v3(
&self.ditto,
weak_self.as_ptr() as *mut _,
Some(Presence::retain),
Some(Presence::release),
Some(<unsafe extern "C" fn(_, char_p::Ref<'_>)>::into(
Presence::on_event_v3,
)),
);
// Guards against mistakes such as using `.into_raw()` rather than `.as_ptr()`.
drop(weak_self);
}
*self.registered.lock().unwrap() = true;
}
/// Add a peer observer and return a PresenceObserver to be able to drop it when desired.
pub(crate) fn add_observer(
self: &Arc<Self>,
handler: impl Fn(V2Presence) + Send + Sync + 'static,
) -> PeersObserver {
let context = PeersObserverCtx::new(Box::new(handler));
let arc_context = Arc::new(context);
let weak_context = Arc::downgrade(&arc_context);
if !*self.registered.lock().unwrap() {
self.subscribe();
}
{
// New scope to minimize the time we hold the lock.
let mut observers = self.observers_v2.lock().unwrap();
observers.push(weak_context);
}
::std::thread::spawn({
let this = self.retain();
move || {
// Initial event.
let str_box = ffi_sdk::ditto_presence_v2(&this.ditto);
this.on_presence_v2(str_box.to_str())
}
});
PeersObserver::new(arc_context)
}
/// Allow to call a callback each time there is a change in known peers.
/// The returned [`PresenceObserver`] must be kept in scope to keep receiving updates.
pub fn observe(
self: &Arc<Self>,
callback: impl Fn(&PresenceGraph) + Send + Sync + 'static,
) -> PresenceObserver {
if !*self.registered.lock().unwrap() {
self.subscribe();
}
let context = PresenceObserverCtx::new(Box::new(callback));
let arc_context = Arc::new(context);
let weak_context = Arc::downgrade(&arc_context);
{
// New scope to minimize the time we hold the lock.
let mut observers = self.observers_v3.lock().unwrap();
observers.push(weak_context);
}
::std::thread::spawn({
let this = self.retain();
move || {
// Initial event.
let str_box = ffi_sdk::ditto_presence_v3(&this.ditto);
this.on_presence_v3(str_box.to_str())
}
});
PresenceObserver::new(arc_context)
}
#[doc(hidden)]
#[deprecated(note = "Use `.graph()` instead")]
pub fn exec(&self) -> PresenceGraph {
self.graph()
}
/// Return an immediate representation of known peers
pub fn graph(&self) -> PresenceGraph {
let raw_string = ffi_sdk::ditto_presence_v3(&self.ditto);
let json_str = raw_string.to_str();
::serde_json::from_str(json_str).unwrap()
}
}
#[derive(Debug, Default)]
pub(crate) struct PeerMetadataCache {
json_str: String,
value: Arc<JsonObject>,
}
// Peer Metadata & on-connecting API.
impl Presence {
/// Set a dictionary of arbitrary data about this device to be shared with peers in the mesh.
///
/// This data is gossiped in the presence collection across the mesh. This can be useful to
/// include extra metadata like app versions,capabilities, etc., to help peers decide who to
/// interact with.
///
/// This peer information is persisted in the SDK, and thus needn't be set at every start
/// of Ditto.
///
/// # Security (and caveats)
/// This peer info will be signed by your peer key to prevent forgery of this info by other
/// peers.
///
/// However, for compatibility, there is no attestation of the *lack* of peer info -- that
/// is, participants in the mesh could maliciously remove peer info. If this is a concern
/// for your application, a workaround for this is to have your application require that
/// peers have a signed peer info dictionary present.
///
/// Similarly, as there is no monotonic version counter or timestamp/expiration of the
/// signed peer info, replay attacks (replacing the current info with previously, possibly
/// outdated, signed info) are possible without counter-measures. If this is a concern
/// for your application, you might consider including a counter or creation timestamp
/// to prevent replays, depending on your use-case.
///
/// # Performance caveats
/// Because this information is included in the presence data that is gossiped among peers,
/// the size of this peer info and the frequency it is updated can *drastically* affect
/// performance if it is too large.
///
/// # Errors
/// Because of the performance implications, the serialized info dictionary is currently
/// limited to 4KiB.
///
/// # Examples
/// ```
/// # use std::collections::HashMap;
/// use dittolive_ditto::prelude::*;
/// use serde_json::json;
/// # |ditto: Ditto| -> Result<(), Box<dyn std::error::Error>> {
/// ditto.presence().set_peer_metadata(&json!({
/// "app_version": "1.0.0",
/// }))?;
/// # Ok(())
/// # };
/// ```
pub fn set_peer_metadata(&self, peer_metadata: &impl Serialize) -> Result<(), DittoError> {
let payload = ::serde_json::to_string(peer_metadata)?;
self.set_peer_metadata_json_str(&payload)
}
/// Set arbitrary metadata formatted as JSON to be associated with the
/// current peer.
///
/// The metadata must not exceed 4 KB in size. Expects JSON.
///
/// - See also: [`Self::set_peer_metadata()`] for details on usage of metadata.
pub fn set_peer_metadata_json_str(&self, json: &str) -> Result<(), DittoError> {
ffi_sdk::dittoffi_presence_try_set_peer_metadata_json(&self.ditto, json.as_bytes().into())
.into_rust_result()?;
Ok(())
}
/// Metadata associated with the current peer as JSON-encoded data.
///
/// Other peers in the same mesh can access this user-provided dictionary of
/// metadata via the presence graph at [`Self::graph()`] and when
/// evaluating connection requests using
/// [`Self::set_connection_request_handler()`]. Use [`Self::set_peer_metadata()`]
/// or [`Self::set_peer_metadata_json_str()`] to set this value.
pub fn peer_metadata_json_str(&self) -> String {
String::from_utf8(From::<Box<[u8]>>::from(
ffi_sdk::dittoffi_presence_peer_metadata_json(&self.ditto).into(),
))
.expect("UTF-8")
}
/// [`DeserializeOwned`] convenience around [`Self::peer_metadata_json_str()`].
pub fn peer_metadata_serde<T: DeserializeOwned>(&self) -> Result<T> {
let value = ::serde_json::from_str(&self.peer_metadata_json_str())?;
Ok(value)
}
/// Metadata associated with the current peer.
///
/// Other peers in the same mesh can access this user-provided dictionary of
/// metadata via the presence graph at [`Self::graph()`] and when
/// evaluating connection requests using
/// [`Self::set_connection_request_handler()`]. Use [`Self::set_peer_metadata()`]
/// or [`Self::set_peer_metadata_json_str()`] to set this value.
///
/// This is a convenience property that wraps [`Self::peer_metadata_json_str()`].
pub fn peer_metadata(&self) -> Arc<JsonObject> {
let json_str = self.peer_metadata_json_str();
let mut cache = self
.peer_metadata_cache
.lock()
.unwrap_or_else(|it| it.into_inner());
if json_str != cache.json_str {
*cache = PeerMetadataCache {
value: Arc::new(
::serde_json::from_str(&json_str).expect("incorrect json from `dittoffi`"),
),
json_str,
};
}
cache.value.retain()
}
/// Set this handler to control which peers in a Ditto mesh can connect to
/// the current peer.
///
/// Each peer in a Ditto mesh will attempt to connect to other peers that it
/// can reach. By default, the mesh will try and establish connections that
/// optimize for the best overall connectivity between peers. However, you
/// can set this handler to assert some control over which peers you connect
/// to.
///
/// If set, this handler is called for every incoming connection request
/// from a remote peer and is passed the other peer's `peer_key`,
/// `peer_metadata`, and `identity_service_metadata`. The handler can then
/// accept or reject the request by returning an according
/// [`ConnectionRequestAuthorization`] value. When the connection
/// request is rejected, the remote peer may retry the connection request
/// after a short delay.
///
/// Connection request handlers must reliably respond to requests within a
/// short time: **if a handler takes too long to return, the connection
/// request will fall back to being denied**. The response –currently— times
/// out after 10 seconds, but this exact value may be subject to change in
/// future releases.
///
/// - Note: the handler is called from a different thread ("background hook").
/// - See also: [`Self::peer_metadata()`]
///
/// ## Example
///
/// ```
/// # use dittolive_ditto::prelude::*;
/// # |ditto: Ditto| -> Result<(), Box<dyn std::error::Error>> {
/// /// Let's imagine the app we are maintaining has a bug in `1.2.3`:
/// const BUGGY_VERSION: &str = "1.2.3";
///
/// // We avoid problems in updated versions of our app with these ones by
/// // rejecting connections to them, like so:
/// ditto
/// .presence()
/// .set_connection_request_handler(|connection_request: ConnectionRequest| {
/// match connection_request
/// .peer_metadata()
/// .get("app_version")
/// .and_then(|it| it.as_str())
/// {
/// // Reject peers reporting a known buggy version or reporting no
/// // version at all.
/// Some(BUGGY_VERSION) | None => return ConnectionRequestAuthorization::Deny,
/// Some(_non_buggy_version) => { /* no reason to reject here */ }
/// }
/// // Potentially other checks/reasons to reject…
///
/// // Eventually:
/// ConnectionRequestAuthorization::Allow
/// });
///
/// // You can also unset the `connection_request_handler` by setting it to `None`.
/// // This uses the default handler, which accepts all requests.
/// ditto.presence().set_connection_request_handler(None);
/// # Ok(())
/// # };
/// ```
pub fn set_connection_request_handler<
F: sealed::IntoOption<
impl 'static + Send + Sync + Fn(ConnectionRequest) -> ConnectionRequestAuthorization,
>,
>(
&self,
handler_or_none: F,
) {
let ffi_callback = F::into_option(handler_or_none).map(|callback| {
Arc::new(move |raw: repr_c::Box<ffi_sdk::FfiConnectionRequest>| {
let connection_request = ConnectionRequest::new(raw);
let raw = connection_request.raw();
callback(connection_request).to_ffi(&raw);
})
.into()
});
ffi_sdk::dittoffi_presence_set_connection_request_handler(&self.ditto, ffi_callback)
}
/// Convenience around [`Self::set_connection_request_handler()`] that allows the callback to be
/// `async`.
///
/// Not responding in time will lead to a handshake timeout, effectively rejecting the peer.
pub fn set_connection_request_handler_async<ConnectionRequestAuthorizationFut>(
&self,
async_callback: impl 'static
+ Send
+ Sync
+ Fn(ConnectionRequest) -> ConnectionRequestAuthorizationFut,
) where
ConnectionRequestAuthorizationFut:
'static + Send + Future<Output = ConnectionRequestAuthorization>,
{
use ::tokio::{runtime, sync::mpsc};
let new_mini_runtime = || {
// Using an unbounded channel to implement `task::spawn()`, like tokio does.
let (tx, mut rx) = mpsc::unbounded_channel();
let runtime = runtime::Builder::new_current_thread()
.enable_all()
.build()
.expect("failed to build `async` runtime");
::std::thread::spawn(move || {
runtime.block_on(async move {
while let Some(task) = rx.recv().await {
() = task.await;
}
})
});
tx
};
ffi_sdk::dittoffi_presence_set_connection_request_handler(
&self.ditto,
Some(
Arc::new(move |raw| {
static MINI_RUNTIME: OnceLock<
mpsc::UnboundedSender<Pin<Box<dyn Send + Future<Output = ()>>>>,
> = OnceLock::new();
let connection_request = ConnectionRequest::new(raw);
let raw = connection_request.raw();
let task_to_spawn_detached = {
let async_callback_connection_request = async_callback(connection_request);
async move {
async_callback_connection_request.await.to_ffi(&raw);
}
};
MINI_RUNTIME
.get_or_init(new_mini_runtime)
.send(Box::pin(task_to_spawn_detached))
.ok()
.expect("dedicated async runtime to be alive");
})
.into(),
),
)
}
}
mod sealed {
use super::*;
/// A trait implemented for both `None` and instances of
/// `'static + Send + Sync + Fn(ConnectionRequest) -> ConnectionRequestAuthorization`.
///
/// Used to keep perfect API parity with that of other SDKs.
pub trait IntoOption<
F: 'static + Send + Sync + Fn(ConnectionRequest) -> ConnectionRequestAuthorization,
>
{
fn into_option(_: Self) -> Option<F>;
}
impl IntoOption<fn(ConnectionRequest) -> ConnectionRequestAuthorization>
for Option<::never_say_never::Never>
{
fn into_option(_: Self) -> Option<fn(ConnectionRequest) -> ConnectionRequestAuthorization> {
None
}
}
impl<F> IntoOption<F> for F
where
F: 'static + Send + Sync + Fn(ConnectionRequest) -> ConnectionRequestAuthorization,
{
fn into_option(f: Self) -> Option<Self> {
Some(f)
}
}
}