use crate::{utils, Error, Result}; use ruma_identifiers::UserId; use std::convert::TryFrom; pub struct Users { pub(super) userid_password: sled::Tree, pub(super) userid_displayname: sled::Tree, pub(super) userid_avatarurl: sled::Tree, pub(super) userdeviceids: sled::Tree, pub(super) userdeviceid_token: sled::Tree, pub(super) token_userid: sled::Tree, } impl Users { /// Check if a user has an account on this homeserver. pub fn exists(&self, user_id: &UserId) -> Result { Ok(self.userid_password.contains_key(user_id.to_string())?) } /// Create a new user account on this homeserver. pub fn create(&self, user_id: &UserId, hash: &str) -> Result<()> { self.userid_password.insert(user_id.to_string(), hash)?; Ok(()) } /// Find out which user an access token belongs to. pub fn find_from_token(&self, token: &str) -> Result> { self.token_userid.get(token)?.map_or(Ok(None), |bytes| { utils::string_from_bytes(&bytes) .and_then(|string| Ok(UserId::try_from(string)?)) .map(Some) }) } /// Returns an iterator over all users on this homeserver. pub fn iter(&self) -> impl Iterator> { self.userid_password.iter().keys().map(|r| { utils::string_from_bytes(&r?).and_then(|string| Ok(UserId::try_from(&*string)?)) }) } /// Returns the password hash for the given user. pub fn password_hash(&self, user_id: &UserId) -> Result> { self.userid_password .get(user_id.to_string())? .map_or(Ok(None), |bytes| utils::string_from_bytes(&bytes).map(Some)) } /// Returns the displayname of a user on this homeserver. pub fn displayname(&self, user_id: &UserId) -> Result> { self.userid_displayname .get(user_id.to_string())? .map_or(Ok(None), |bytes| utils::string_from_bytes(&bytes).map(Some)) } /// Sets a new displayname or removes it if displayname is None. You still need to nofify all rooms of this change. pub fn set_displayname(&self, user_id: &UserId, displayname: Option) -> Result<()> { if let Some(displayname) = displayname { self.userid_displayname .insert(user_id.to_string(), &*displayname)?; } else { self.userid_displayname.remove(user_id.to_string())?; } Ok(()) } /// Get a the avatar_url of a user. pub fn avatar_url(&self, user_id: &UserId) -> Result> { self.userid_avatarurl .get(user_id.to_string())? .map_or(Ok(None), |bytes| utils::string_from_bytes(&bytes).map(Some)) } /// Sets a new avatar_url or removes it if avatar_url is None. pub fn set_avatar_url(&self, user_id: &UserId, avatar_url: Option) -> Result<()> { if let Some(avatar_url) = avatar_url { self.userid_avatarurl .insert(user_id.to_string(), &*avatar_url)?; } else { self.userid_avatarurl.remove(user_id.to_string())?; } Ok(()) } /// Adds a new device to a user. pub fn create_device(&self, user_id: &UserId, device_id: &str, token: &str) -> Result<()> { if !self.exists(user_id)? { return Err(Error::BadRequest( "tried to create device for nonexistent user", )); } let mut key = user_id.to_string().as_bytes().to_vec(); key.push(0xff); key.extend_from_slice(device_id.as_bytes()); self.userdeviceids.insert(key, &[])?; self.set_token(user_id, device_id, token)?; Ok(()) } /// Replaces the access token of one device. pub fn set_token(&self, user_id: &UserId, device_id: &str, token: &str) -> Result<()> { let mut key = user_id.to_string().as_bytes().to_vec(); key.push(0xff); key.extend_from_slice(device_id.as_bytes()); if self.userdeviceids.get(&key)?.is_none() { return Err(Error::BadRequest( "Tried to set token for nonexistent device", )); } // Remove old token if let Some(old_token) = self.userdeviceid_token.get(&key)? { self.token_userid.remove(old_token)?; // It will be removed from userdeviceid_token by the insert later } // Assign token to device_id self.userdeviceid_token.insert(key, &*token)?; // Assign token to user self.token_userid.insert(token, &*user_id.to_string())?; Ok(()) } }