//! Event parsing and validation use crate::error::Error::*; use crate::error::Result; use crate::nip05; use crate::utils::unix_time; use bitcoin_hashes::{sha256, Hash}; use lazy_static::lazy_static; use log::*; use secp256k1::{schnorr, Secp256k1, VerifyOnly, XOnlyPublicKey}; use serde::{Deserialize, Deserializer, Serialize}; use serde_json::value::Value; use serde_json::Number; use std::collections::HashMap; use std::collections::HashSet; use std::str::FromStr; lazy_static! { /// Secp256k1 verification instance. pub static ref SECP: Secp256k1 = Secp256k1::verification_only(); } /// Event command in network format. #[derive(Serialize, Deserialize, PartialEq, Debug, Clone)] pub struct EventCmd { cmd: String, // expecting static "EVENT" event: Event, } /// Parsed nostr event. #[derive(Serialize, Deserialize, PartialEq, Debug, Clone)] pub struct Event { pub id: String, pub(crate) pubkey: String, pub(crate) created_at: u64, pub(crate) kind: u64, #[serde(deserialize_with = "tag_from_string")] // NOTE: array-of-arrays may need to be more general than a string container pub(crate) tags: Vec>, pub(crate) content: String, pub(crate) sig: String, // Optimization for tag search, built on demand. #[serde(skip)] pub(crate) tagidx: Option>>, } /// Simple tag type for array of array of strings. type Tag = Vec>; /// Deserializer that ensures we always have a [`Tag`]. fn tag_from_string<'de, D>(deserializer: D) -> Result where D: Deserializer<'de>, { let opt = Option::deserialize(deserializer)?; Ok(opt.unwrap_or_default()) } /// Attempt to form a single-char tag name. pub fn single_char_tagname(tagname: &str) -> Option { // We return the tag character if and only if the tagname consists // of a single char. let mut tagnamechars = tagname.chars(); let firstchar = tagnamechars.next(); match firstchar { Some(_) => { // check second char if tagnamechars.next().is_none() { firstchar } else { None } } None => None, } } /// Convert network event to parsed/validated event. impl From for Result { fn from(ec: EventCmd) -> Result { // ensure command is correct if ec.cmd != "EVENT" { Err(CommandUnknownError) } else if ec.event.is_valid() { let mut e = ec.event; e.build_index(); Ok(e) } else { Err(EventInvalid) } } } impl Event { pub fn is_kind_metadata(&self) -> bool { self.kind == 0 } /// Pull a NIP-05 Name out of the event, if one exists pub fn get_nip05_addr(&self) -> Option { if self.is_kind_metadata() { // very quick check if we should attempt to parse this json if self.content.contains("\"nip05\"") { // Parse into JSON let md_parsed: Value = serde_json::from_str(&self.content).ok()?; let md_map = md_parsed.as_object()?; let nip05_str = md_map.get("nip05")?.as_str()?; return nip05::Nip05Name::try_from(nip05_str).ok(); } } None } /// Build an event tag index fn build_index(&mut self) { // if there are no tags; just leave the index as None if self.tags.is_empty() { return; } // otherwise, build an index let mut idx: HashMap> = HashMap::new(); // iterate over tags that have at least 2 elements for t in self.tags.iter().filter(|x| x.len() > 1) { let tagname = t.get(0).unwrap(); let tagnamechar_opt = single_char_tagname(tagname); if tagnamechar_opt.is_none() { continue; } let tagnamechar = tagnamechar_opt.unwrap(); let tagval = t.get(1).unwrap(); // ensure a vector exists for this tag idx.entry(tagnamechar).or_insert_with(HashSet::new); // get the tag vec and insert entry let tidx = idx.get_mut(&tagnamechar).expect("could not get tag vector"); tidx.insert(tagval.clone()); } // save the tag structure self.tagidx = Some(idx); } /// Create a short event identifier, suitable for logging. pub fn get_event_id_prefix(&self) -> String { self.id.chars().take(8).collect() } pub fn get_author_prefix(&self) -> String { self.pubkey.chars().take(8).collect() } /// Retrieve tag values pub fn tag_values_by_name(&self, tag_name: &str) -> Vec { self.tags .iter() .filter(|x| x.len() > 1) .filter(|x| x.get(0).unwrap() == tag_name) .map(|x| x.get(1).unwrap().to_owned()) .collect() } pub fn is_valid_timestamp(&self, reject_future_seconds: Option) -> bool { if let Some(allowable_future) = reject_future_seconds { let curr_time = unix_time(); // calculate difference, plus how far future we allow if curr_time + (allowable_future as u64) < self.created_at { let delta = self.created_at - curr_time; debug!( "event is too far in the future ({} seconds), rejecting", delta ); return false; } } true } /// Check if this event has a valid signature. fn is_valid(&self) -> bool { // TODO: return a Result with a reason for invalid events // validation is performed by: // * parsing JSON string into event fields // * create an array: // ** [0, pubkey-hex-string, created-at-num, kind-num, tags-array-of-arrays, content-string] // * serialize with no spaces/newlines let c_opt = self.to_canonical(); if c_opt.is_none() { debug!("event could not be canonicalized"); return false; } let c = c_opt.unwrap(); // * compute the sha256sum. let digest: sha256::Hash = sha256::Hash::hash(c.as_bytes()); let hex_digest = format!("{:x}", digest); // * ensure the id matches the computed sha256sum. if self.id != hex_digest { debug!("event id does not match digest"); return false; } // * validate the message digest (sig) using the pubkey & computed sha256 message hash. let sig = schnorr::Signature::from_str(&self.sig).unwrap(); if let Ok(msg) = secp256k1::Message::from_slice(digest.as_ref()) { if let Ok(pubkey) = XOnlyPublicKey::from_str(&self.pubkey) { let verify = SECP.verify_schnorr(&sig, &msg, &pubkey); matches!(verify, Ok(())) } else { debug!("client sent malformed pubkey"); false } } else { info!("error converting digest to secp256k1 message"); false } } /// Convert event to canonical representation for signing. fn to_canonical(&self) -> Option { // create a JsonValue for each event element let mut c: Vec = vec![]; // id must be set to 0 let id = Number::from(0_u64); c.push(serde_json::Value::Number(id)); // public key c.push(Value::String(self.pubkey.to_owned())); // creation time let created_at = Number::from(self.created_at); c.push(serde_json::Value::Number(created_at)); // kind let kind = Number::from(self.kind); c.push(serde_json::Value::Number(kind)); // tags c.push(self.tags_to_canonical()); // content c.push(Value::String(self.content.to_owned())); serde_json::to_string(&Value::Array(c)).ok() } /// Convert tags to a canonical form for signing. fn tags_to_canonical(&self) -> Value { let mut tags = Vec::::new(); // iterate over self tags, for t in self.tags.iter() { // each tag is a vec of strings let mut a = Vec::::new(); for v in t.iter() { a.push(serde_json::Value::String(v.to_owned())); } tags.push(serde_json::Value::Array(a)); } serde_json::Value::Array(tags) } /// Determine if the given tag and value set intersect with tags in this event. pub fn generic_tag_val_intersect(&self, tagname: char, check: &HashSet) -> bool { match &self.tagidx { // check if this is indexable tagname Some(idx) => match idx.get(&tagname) { Some(valset) => { let common = valset.intersection(check); common.count() > 0 } None => false, }, None => false, } } } #[cfg(test)] mod tests { use super::*; fn simple_event() -> Event { Event { id: "0".to_owned(), pubkey: "0".to_owned(), created_at: 0, kind: 0, tags: vec![], content: "".to_owned(), sig: "0".to_owned(), tagidx: None, } } #[test] fn event_creation() { // create an event let event = simple_event(); assert_eq!(event.id, "0"); } #[test] fn event_serialize() -> Result<()> { // serialize an event to JSON string let event = simple_event(); let j = serde_json::to_string(&event)?; assert_eq!(j, "{\"id\":\"0\",\"pubkey\":\"0\",\"created_at\":0,\"kind\":0,\"tags\":[],\"content\":\"\",\"sig\":\"0\"}"); Ok(()) } #[test] fn empty_event_tag_match() -> Result<()> { let event = simple_event(); assert!(!event .generic_tag_val_intersect('e', &HashSet::from(["foo".to_owned(), "bar".to_owned()]))); Ok(()) } #[test] fn single_event_tag_match() -> Result<()> { let mut event = simple_event(); event.tags = vec![vec!["e".to_owned(), "foo".to_owned()]]; event.build_index(); assert_eq!( event.generic_tag_val_intersect( 'e', &HashSet::from(["foo".to_owned(), "bar".to_owned()]) ), true ); Ok(()) } #[test] fn event_tags_serialize() -> Result<()> { // serialize an event with tags to JSON string let mut event = simple_event(); event.tags = vec![ vec![ "e".to_owned(), "xxxx".to_owned(), "wss://example.com".to_owned(), ], vec![ "p".to_owned(), "yyyyy".to_owned(), "wss://example.com:3033".to_owned(), ], ]; let j = serde_json::to_string(&event)?; assert_eq!(j, "{\"id\":\"0\",\"pubkey\":\"0\",\"created_at\":0,\"kind\":0,\"tags\":[[\"e\",\"xxxx\",\"wss://example.com\"],[\"p\",\"yyyyy\",\"wss://example.com:3033\"]],\"content\":\"\",\"sig\":\"0\"}"); Ok(()) } #[test] fn event_deserialize() -> Result<()> { let raw_json = r#"{"id":"1384757da583e6129ce831c3d7afc775a33a090578f888dd0d010328ad047d0c","pubkey":"bbbd9711d357df4f4e498841fd796535c95c8e751fa35355008a911c41265fca","created_at":1612650459,"kind":1,"tags":null,"content":"hello world","sig":"59d0cc47ab566e81f72fe5f430bcfb9b3c688cb0093d1e6daa49201c00d28ecc3651468b7938642869ed98c0f1b262998e49a05a6ed056c0d92b193f4e93bc21"}"#; let e: Event = serde_json::from_str(raw_json)?; assert_eq!(e.kind, 1); assert_eq!(e.tags.len(), 0); Ok(()) } #[test] fn event_canonical() { let e = Event { id: "999".to_owned(), pubkey: "012345".to_owned(), created_at: 501234, kind: 1, tags: vec![], content: "this is a test".to_owned(), sig: "abcde".to_owned(), tagidx: None, }; let c = e.to_canonical(); let expected = Some(r#"[0,"012345",501234,1,[],"this is a test"]"#.to_owned()); assert_eq!(c, expected); } #[test] fn event_tag_select() { let e = Event { id: "999".to_owned(), pubkey: "012345".to_owned(), created_at: 501234, kind: 1, tags: vec![ vec!["j".to_owned(), "abc".to_owned()], vec!["e".to_owned(), "foo".to_owned()], vec!["e".to_owned(), "bar".to_owned()], vec!["e".to_owned(), "baz".to_owned()], vec![ "p".to_owned(), "aaaa".to_owned(), "ws://example.com".to_owned(), ], ], content: "this is a test".to_owned(), sig: "abcde".to_owned(), tagidx: None, }; let v = e.tag_values_by_name("e"); assert_eq!(v, vec!["foo", "bar", "baz"]); } #[test] fn event_canonical_with_tags() { let e = Event { id: "999".to_owned(), pubkey: "012345".to_owned(), created_at: 501234, kind: 1, tags: vec![ vec!["#e".to_owned(), "aoeu".to_owned()], vec![ "#p".to_owned(), "aaaa".to_owned(), "ws://example.com".to_owned(), ], ], content: "this is a test".to_owned(), sig: "abcde".to_owned(), tagidx: None, }; let c = e.to_canonical(); let expected_json = r###"[0,"012345",501234,1,[["#e","aoeu"],["#p","aaaa","ws://example.com"]],"this is a test"]"###; let expected = Some(expected_json.to_owned()); assert_eq!(c, expected); } }