//! Matrix user identifiers. use std::{convert::TryFrom, fmt, num::NonZeroU8}; use crate::ServerName; /// A Matrix user ID. /// /// A `UserId` is generated randomly or converted from a string slice, and can be converted back /// into a string as needed. /// /// ``` /// # use std::convert::TryFrom; /// # use ruma_identifiers::UserId; /// assert_eq!( /// UserId::try_from("@carl:example.com").unwrap().as_ref(), /// "@carl:example.com" /// ); /// ``` #[derive(Clone)] pub struct UserId { full_id: Box, colon_idx: NonZeroU8, /// Whether this user id is a historical one. /// /// A historical user id is one that is not legal per the regular user id rules, but was /// accepted by previous versions of the spec and thus has to be supported because users with /// these kinds of ids still exist. is_historical: bool, } impl fmt::Debug for UserId { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.write_str(&self.full_id) } } impl UserId { /// Attempts to generate a `UserId` for the given origin server with a localpart consisting of /// 12 random ASCII characters. #[cfg(feature = "rand")] #[cfg_attr(docsrs, doc(cfg(feature = "rand")))] pub fn new(server_name: &ServerName) -> Self { use crate::generate_localpart; let full_id = format!("@{}:{}", generate_localpart(12).to_lowercase(), server_name).into(); Self { full_id, colon_idx: NonZeroU8::new(13).unwrap(), is_historical: false } } /// Attempts to complete a user ID, by adding the colon + server name and `@` prefix, if not /// present already. /// /// This is a convenience function for the login API, where a user can supply either their full /// user ID or just the localpart. It only supports a valid user ID or a valid user ID /// localpart, not the localpart plus the `@` prefix, or the localpart plus server name without /// the `@` prefix. pub fn parse_with_server_name( id: impl AsRef + Into>, server_name: &ServerName, ) -> Result { let id_str = id.as_ref(); if id_str.starts_with('@') { try_from(id.into()) } else { let is_fully_conforming = localpart_is_fully_comforming(id_str)?; Ok(Self { full_id: format!("@{}:{}", id_str, server_name).into(), colon_idx: NonZeroU8::new(id_str.len() as u8 + 1).unwrap(), is_historical: !is_fully_conforming, }) } } } impl UserId { /// Returns the user's localpart. pub fn localpart(&self) -> &str { &self.full_id[1..self.colon_idx.get() as usize] } /// Returns the server name of the user ID. pub fn server_name(&self) -> &ServerName { <&ServerName>::try_from(&self.full_id[self.colon_idx.get() as usize + 1..]).unwrap() } /// Whether this user ID is a historical one, i.e. one that doesn't conform to the latest /// specification of the user ID grammar but is still accepted because it was previously /// allowed. pub fn is_historical(&self) -> bool { self.is_historical } } /// Attempts to create a new Matrix user ID from a string representation. /// /// The string must include the leading @ sigil, the localpart, a literal colon, and a server name. fn try_from(user_id: S) -> Result where S: AsRef + Into>, { let (colon_idx, is_historical) = ruma_identifiers_validation::user_id::validate(user_id.as_ref())?; Ok(UserId { full_id: user_id.into(), colon_idx, is_historical: !is_historical }) } common_impls!(UserId, try_from, "a Matrix user ID"); pub use ruma_identifiers_validation::user_id::localpart_is_fully_comforming; #[cfg(test)] mod tests { use std::convert::TryFrom; use super::UserId; use crate::{Error, ServerName}; #[test] fn valid_user_id_from_str() { let user_id = UserId::try_from("@carl:example.com").expect("Failed to create UserId."); assert_eq!(user_id.as_ref(), "@carl:example.com"); assert_eq!(user_id.localpart(), "carl"); assert_eq!(user_id.server_name(), "example.com"); assert!(!user_id.is_historical()); } #[test] fn parse_valid_user_id() { let server_name = <&ServerName>::try_from("example.com").unwrap(); let user_id = UserId::parse_with_server_name("@carl:example.com", server_name) .expect("Failed to create UserId."); assert_eq!(user_id.as_ref(), "@carl:example.com"); assert_eq!(user_id.localpart(), "carl"); assert_eq!(user_id.server_name(), "example.com"); assert!(!user_id.is_historical()); } #[test] fn parse_valid_user_id_parts() { let server_name = <&ServerName>::try_from("example.com").unwrap(); let user_id = UserId::parse_with_server_name("carl", server_name).expect("Failed to create UserId."); assert_eq!(user_id.as_ref(), "@carl:example.com"); assert_eq!(user_id.localpart(), "carl"); assert_eq!(user_id.server_name(), "example.com"); assert!(!user_id.is_historical()); } #[test] fn valid_historical_user_id() { let user_id = UserId::try_from("@a%b[irc]:example.com").expect("Failed to create UserId."); assert_eq!(user_id.as_ref(), "@a%b[irc]:example.com"); assert_eq!(user_id.localpart(), "a%b[irc]"); assert_eq!(user_id.server_name(), "example.com"); assert!(user_id.is_historical()); } #[test] fn parse_valid_historical_user_id() { let server_name = <&ServerName>::try_from("example.com").unwrap(); let user_id = UserId::parse_with_server_name("@a%b[irc]:example.com", server_name) .expect("Failed to create UserId."); assert_eq!(user_id.as_ref(), "@a%b[irc]:example.com"); assert_eq!(user_id.localpart(), "a%b[irc]"); assert_eq!(user_id.server_name(), "example.com"); assert!(user_id.is_historical()); } #[test] fn parse_valid_historical_user_id_parts() { let server_name = <&ServerName>::try_from("example.com").unwrap(); let user_id = UserId::parse_with_server_name("a%b[irc]", server_name) .expect("Failed to create UserId."); assert_eq!(user_id.as_ref(), "@a%b[irc]:example.com"); assert_eq!(user_id.localpart(), "a%b[irc]"); assert_eq!(user_id.server_name(), "example.com"); assert!(user_id.is_historical()); } #[test] fn uppercase_user_id() { let user_id = UserId::try_from("@CARL:example.com").expect("Failed to create UserId."); assert_eq!(user_id.as_ref(), "@CARL:example.com"); assert!(user_id.is_historical()); } #[cfg(feature = "rand")] #[test] fn generate_random_valid_user_id() { let server_name = <&ServerName>::try_from("example.com").unwrap(); let user_id = UserId::new(server_name); assert_eq!(user_id.localpart().len(), 12); assert_eq!(user_id.server_name(), "example.com"); let id_str = user_id.as_str(); assert!(id_str.starts_with('@')); assert_eq!(id_str.len(), 25); } #[cfg(feature = "serde")] #[test] fn serialize_valid_user_id() { assert_eq!( serde_json::to_string( &UserId::try_from("@carl:example.com").expect("Failed to create UserId.") ) .expect("Failed to convert UserId to JSON."), r#""@carl:example.com""# ); } #[cfg(feature = "serde")] #[test] fn deserialize_valid_user_id() { assert_eq!( serde_json::from_str::(r#""@carl:example.com""#) .expect("Failed to convert JSON to UserId"), UserId::try_from("@carl:example.com").expect("Failed to create UserId.") ); } #[test] fn valid_user_id_with_explicit_standard_port() { assert_eq!( UserId::try_from("@carl:example.com:443").expect("Failed to create UserId.").as_ref(), "@carl:example.com:443" ); } #[test] fn valid_user_id_with_non_standard_port() { let user_id = UserId::try_from("@carl:example.com:5000").expect("Failed to create UserId."); assert_eq!(user_id.as_ref(), "@carl:example.com:5000"); assert!(!user_id.is_historical()); } #[test] #[cfg(not(feature = "compat"))] fn invalid_characters_in_user_id_localpart() { assert_eq!(UserId::try_from("@te\nst:example.com").unwrap_err(), Error::InvalidCharacters); } #[test] fn missing_user_id_sigil() { assert_eq!(UserId::try_from("carl:example.com").unwrap_err(), Error::MissingLeadingSigil); } #[test] fn missing_user_id_delimiter() { assert_eq!(UserId::try_from("@carl").unwrap_err(), Error::MissingDelimiter); } #[test] fn invalid_user_id_host() { assert_eq!(UserId::try_from("@carl:/").unwrap_err(), Error::InvalidServerName); } #[test] fn invalid_user_id_port() { assert_eq!( UserId::try_from("@carl:example.com:notaport").unwrap_err(), Error::InvalidServerName ); } }