mirror of
https://github.com/scsibug/nostr-rs-relay.git
synced 2024-05-19 21:24:08 -04:00
357 lines
11 KiB
Rust
357 lines
11 KiB
Rust
#[cfg(test)]
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mod tests {
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use bitcoin_hashes::hex::ToHex;
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use bitcoin_hashes::sha256;
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use bitcoin_hashes::Hash;
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use secp256k1::rand;
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use secp256k1::{KeyPair, Secp256k1, XOnlyPublicKey};
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use nostr_rs_relay::conn::ClientConn;
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use nostr_rs_relay::error::Error;
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use nostr_rs_relay::event::Event;
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use nostr_rs_relay::utils::unix_time;
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const RELAY: &str = "wss://nostr.example.com/";
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#[test]
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fn test_generate_auth_challenge() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let last_auth_challenge = client_conn.auth_challenge().cloned();
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_ne!(
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client_conn.auth_challenge().unwrap(),
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&last_auth_challenge.unwrap()
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);
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assert_eq!(client_conn.auth_pubkey(), None);
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}
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#[test]
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fn test_authenticate_with_valid_event() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let challenge = client_conn.auth_challenge().unwrap();
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let event = auth_event(challenge);
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Ok(())));
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), Some(&event.pubkey));
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}
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#[test]
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fn test_fail_to_authenticate_in_invalid_state() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let event = auth_event(&"challenge".into());
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_authenticate_when_already_authenticated() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let challenge = client_conn.auth_challenge().unwrap().clone();
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let event = auth_event(&challenge);
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Ok(())));
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), Some(&event.pubkey));
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let event1 = auth_event(&challenge);
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let result1 = client_conn.authenticate(&event1, RELAY);
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assert!(matches!(result1, Ok(())));
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), Some(&event.pubkey));
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assert_ne!(client_conn.auth_pubkey(), Some(&event1.pubkey));
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}
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#[test]
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fn test_fail_to_authenticate_with_invalid_event() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let challenge = client_conn.auth_challenge().unwrap();
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let mut event = auth_event(challenge);
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event.sig = event.sig.chars().rev().collect::<String>();
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_fail_to_authenticate_with_invalid_event_kind() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let challenge = client_conn.auth_challenge().unwrap();
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let event = auth_event_with_kind(challenge, 9999999999999999);
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_fail_to_authenticate_with_expired_timestamp() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let challenge = client_conn.auth_challenge().unwrap();
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let event = auth_event_with_created_at(challenge, unix_time() - 1200); // 20 minutes
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_fail_to_authenticate_with_future_timestamp() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let challenge = client_conn.auth_challenge().unwrap();
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let event = auth_event_with_created_at(challenge, unix_time() + 1200); // 20 minutes
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_fail_to_authenticate_without_tags() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let event = auth_event_without_tags();
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_fail_to_authenticate_without_challenge() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let event = auth_event_without_challenge();
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_fail_to_authenticate_without_relay() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let challenge = client_conn.auth_challenge().unwrap();
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let event = auth_event_without_relay(challenge);
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_fail_to_authenticate_with_invalid_challenge() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let event = auth_event(&"invalid challenge".into());
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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#[test]
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fn test_fail_to_authenticate_with_invalid_relay() {
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let mut client_conn = ClientConn::new("127.0.0.1".into());
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assert_eq!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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client_conn.generate_auth_challenge();
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assert_ne!(client_conn.auth_challenge(), None);
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assert_eq!(client_conn.auth_pubkey(), None);
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let challenge = client_conn.auth_challenge().unwrap();
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let event = auth_event_with_relay(challenge, &"xyz".into());
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let result = client_conn.authenticate(&event, RELAY);
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assert!(matches!(result, Err(Error::AuthFailure)));
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}
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fn auth_event(challenge: &String) -> Event {
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create_auth_event(Some(challenge), Some(&RELAY.into()), 22242, unix_time())
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}
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fn auth_event_with_kind(challenge: &String, kind: u64) -> Event {
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create_auth_event(Some(challenge), Some(&RELAY.into()), kind, unix_time())
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}
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fn auth_event_with_created_at(challenge: &String, created_at: u64) -> Event {
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create_auth_event(Some(challenge), Some(&RELAY.into()), 22242, created_at)
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}
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fn auth_event_without_challenge() -> Event {
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create_auth_event(None, Some(&RELAY.into()), 22242, unix_time())
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}
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fn auth_event_without_relay(challenge: &String) -> Event {
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create_auth_event(Some(challenge), None, 22242, unix_time())
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}
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fn auth_event_without_tags() -> Event {
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create_auth_event(None, None, 22242, unix_time())
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}
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fn auth_event_with_relay(challenge: &String, relay: &String) -> Event {
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create_auth_event(Some(challenge), Some(relay), 22242, unix_time())
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}
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fn create_auth_event(
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challenge: Option<&String>,
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relay: Option<&String>,
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kind: u64,
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created_at: u64,
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) -> Event {
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let secp = Secp256k1::new();
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let key_pair = KeyPair::new(&secp, &mut rand::thread_rng());
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let public_key = XOnlyPublicKey::from_keypair(&key_pair);
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let mut tags: Vec<Vec<String>> = vec![];
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if let Some(c) = challenge {
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let tag = vec!["challenge".into(), c.into()];
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tags.push(tag);
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}
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if let Some(r) = relay {
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let tag = vec!["relay".into(), r.into()];
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tags.push(tag);
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}
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let mut event = Event {
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id: "0".to_owned(),
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pubkey: public_key.to_hex(),
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delegated_by: None,
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created_at,
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kind,
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tags,
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content: "".to_owned(),
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sig: "0".to_owned(),
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tagidx: None,
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};
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let c = event.to_canonical().unwrap();
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let digest: sha256::Hash = sha256::Hash::hash(c.as_bytes());
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let msg = secp256k1::Message::from_slice(digest.as_ref()).unwrap();
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let sig = secp.sign_schnorr(&msg, &key_pair);
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event.id = format!("{digest:x}");
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event.sig = sig.to_hex();
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event
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}
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}
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