use crate::close::Close; use crate::error::{Error, Result}; use crate::event::Event; use crate::subscription::Subscription; use log::{debug, info}; use std::collections::HashMap; use uuid::Uuid; // A protocol handler/helper. Use one per client. pub struct Proto { client_id: Uuid, // current set of subscriptions subscriptions: HashMap, max_subs: usize, } const MAX_SUBSCRIPTION_ID_LEN: usize = 256; impl Proto { pub fn new() -> Self { let p = Proto { client_id: Uuid::new_v4(), subscriptions: HashMap::new(), max_subs: 128, }; debug!("New client: {:?}", p.client_id); p } // Error results will be transformed into client NOTICEs pub fn process_message(&mut self, cmd: String) -> Result<()> { info!( "Processing message in proto for client: {:?}", self.client_id ); let message = parse_cmd(cmd)?; info!("Parsed message: {:?}", message); match message { NostrRequest::EvReq(_) => {} NostrRequest::SubReq(sub) => self.subscribe(sub), NostrRequest::CloseReq(close) => self.unsubscribe(close), }; Ok(()) } pub fn subscribe(&mut self, s: Subscription) { // TODO: add NOTICE responses for error conditions. At the // moment, we are silently dropping subscription requests that // aren't perfect. // check if the subscription key is reasonable. let k = s.get_id(); let sub_id_len = k.len(); if sub_id_len > MAX_SUBSCRIPTION_ID_LEN { info!("Dropping subscription with huge ({}) length", sub_id_len); return; } // check if an existing subscription exists, and replace if so if self.subscriptions.contains_key(&k) { self.subscriptions.remove(&k); self.subscriptions.insert(k, s); info!("Replaced existing subscription"); return; } // check if there is room for another subscription. if self.subscriptions.len() >= self.max_subs { info!("Client has reached the maximum number of unique subscriptions"); return; } // add subscription self.subscriptions.insert(k, s); info!( "Registered new subscription, currently have {} active subs", self.subscriptions.len() ); } pub fn unsubscribe(&mut self, c: Close) { self.subscriptions.remove(&c.get_id()); info!( "Removed subscription, currently have {} active subs", self.subscriptions.len() ); } } // A raw message with the expected type #[derive(PartialEq, Debug)] pub enum NostrRawMessage { EvRaw(String), SubRaw(String), CloseRaw(String), } // A fully parsed request #[derive(PartialEq, Debug)] pub enum NostrRequest { EvReq(Event), SubReq(Subscription), CloseReq(Close), } // Wrap the message in the expected request type fn msg_type_wrapper(msg: String) -> Result { // check prefix. if msg.starts_with(r#"["EVENT","#) { Ok(NostrRawMessage::EvRaw(msg)) } else if msg.starts_with(r#"["REQ","#) { Ok(NostrRawMessage::SubRaw(msg)) } else if msg.starts_with(r#"["CLOSE","#) { Ok(NostrRawMessage::CloseRaw(msg)) } else { Err(Error::CommandNotFound) } } pub fn parse_cmd(msg: String) -> Result { // turn this raw string into a parsed request let typ = msg_type_wrapper(msg)?; match typ { NostrRawMessage::EvRaw(_) => Err(Error::EventParseFailed), NostrRawMessage::SubRaw(m) => Ok(NostrRequest::SubReq(Subscription::parse(&m)?)), NostrRawMessage::CloseRaw(m) => Ok(NostrRequest::CloseReq(Close::parse(&m)?)), } } // Parse the request into a fully deserialized type // The protocol-handling process looks something like: // Receive a message (bytes). // Determine the type. We could do this with an untagged deserialization in serde. Or we can peek at the prefix. // Wrap the message string in the client request type (either Event, Req, Close) // For Req/Close, we can fully parse these. // For Event, we want to be more cautious. // Before we admit an event, we should reject any duplicates. // duplicates in the datastore will have already been sent out to interested subscribers. // No point in verifying an event that we already have. // Event pipeline looks like: // Get message. (./) // Verify it is an event. (./) // Parse into string / number components from JSON. // Perform validation, re-serialize (or can we re-use the original?) // Publish to subscribers. // Push to datastore.