use crate::{utils, Error, Result};
use js_int::UInt;
use ruma_client_api::r0::keys::{AlgorithmAndDeviceId, DeviceKeys, KeyAlgorithm, OneTimeKey};
use ruma_events::{to_device::AnyToDeviceEvent, EventJson, EventType};
use ruma_identifiers::{DeviceId, UserId};
use std::{collections::BTreeMap, 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_userdeviceid: sled::Tree,
pub(super) onetimekeyid_onetimekeys: sled::Tree, // OneTimeKeyId = UserId + AlgorithmAndDeviceId
pub(super) userdeviceid_devicekeys: sled::Tree,
pub(super) devicekeychangeid_userid: sled::Tree, // DeviceKeyChangeId = Count
pub(super) todeviceid_events: sled::Tree, // ToDeviceId = UserId + DeviceId + Count
}
impl Users {
/// Check if a user has an account on this homeserver.
pub fn exists(&self, user_id: &UserId) -> Result<bool> {
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<Option<(UserId, String)>> {
self.token_userdeviceid
.get(token)?
.map_or(Ok(None), |bytes| {
let mut parts = bytes.split(|&b| b == 0xff);
let user_bytes = parts
.next()
.ok_or(Error::BadDatabase("token_userdeviceid value invalid"))?;
let device_bytes = parts
.next()
.ok_or(Error::BadDatabase("token_userdeviceid value invalid"))?;
Ok(Some((
UserId::try_from(utils::string_from_bytes(&user_bytes)?)?,
utils::string_from_bytes(&device_bytes)?,
)))
})
}
/// Returns an iterator over all users on this homeserver.
pub fn iter(&self) -> impl Iterator<Item = Result<UserId>> {
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<Option<String>> {
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<Option<String>> {
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<String>) -> 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<Option<String>> {
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<String>) -> 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: &DeviceId, 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(())
}
/// Returns an iterator over all device ids of this user.
pub fn all_device_ids(&self, user_id: &UserId) -> impl Iterator<Item = Result<DeviceId>> {
let mut prefix = user_id.to_string().as_bytes().to_vec();
prefix.push(0xff);
self.userdeviceids.scan_prefix(prefix).keys().map(|bytes| {
Ok(utils::string_from_bytes(
&*bytes?
.rsplit(|&b| b == 0xff)
.next()
.ok_or(Error::BadDatabase("userdeviceid is invalid"))?,
)?)
})
}
/// Replaces the access token of one device.
pub fn set_token(&self, user_id: &UserId, device_id: &DeviceId, token: &str) -> Result<()> {
let mut userdeviceid = user_id.to_string().as_bytes().to_vec();
userdeviceid.push(0xff);
userdeviceid.extend_from_slice(device_id.as_bytes());
if self.userdeviceids.get(&userdeviceid)?.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(&userdeviceid)? {
self.token_userdeviceid.remove(old_token)?;
// It will be removed from userdeviceid_token by the insert later
}
// Assign token to user device combination
self.userdeviceid_token.insert(&userdeviceid, &*token)?;
self.token_userdeviceid.insert(token, userdeviceid)?;
Ok(())
}
pub fn add_one_time_key(
&self,
user_id: &UserId,
device_id: &DeviceId,
one_time_key_key: &AlgorithmAndDeviceId,
one_time_key_value: &OneTimeKey,
) -> 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",
));
}
key.push(0xff);
// TODO: Use AlgorithmAndDeviceId::to_string when it's available (and update everything,
// because there are no wrapping quotation marks anymore)
key.extend_from_slice(&serde_json::to_string(one_time_key_key)?.as_bytes());
self.onetimekeyid_onetimekeys
.insert(&key, &*serde_json::to_string(&one_time_key_value)?)?;
Ok(())
}
pub fn take_one_time_key(
&self,
user_id: &UserId,
device_id: &DeviceId,
key_algorithm: &KeyAlgorithm,
) -> Result<Option<(AlgorithmAndDeviceId, OneTimeKey)>> {
let mut prefix = user_id.to_string().as_bytes().to_vec();
prefix.push(0xff);
prefix.extend_from_slice(device_id.as_bytes());
prefix.push(0xff);
prefix.push(b'"'); // Annoying quotation mark
prefix.extend_from_slice(key_algorithm.to_string().as_bytes());
prefix.push(b':');
self.onetimekeyid_onetimekeys
.scan_prefix(&prefix)
.next()
.map(|r| {
let (key, value) = r?;
self.onetimekeyid_onetimekeys.remove(&key)?;
Ok((
serde_json::from_slice(
&*key
.rsplit(|&b| b == 0xff)
.next()
.ok_or(Error::BadDatabase("onetimekeyid is invalid"))?,
)?,
serde_json::from_slice(&*value)?,
))
})
.transpose()
}
pub fn count_one_time_keys(
&self,
user_id: &UserId,
device_id: &DeviceId,
) -> Result<BTreeMap<KeyAlgorithm, UInt>> {
let mut userdeviceid = user_id.to_string().as_bytes().to_vec();
userdeviceid.push(0xff);
userdeviceid.extend_from_slice(device_id.as_bytes());
let mut counts = BTreeMap::new();
for algorithm in self
.onetimekeyid_onetimekeys
.scan_prefix(&userdeviceid)
.keys()
.map(|bytes| {
Ok::<_, Error>(
serde_json::from_slice::<AlgorithmAndDeviceId>(
&*bytes?
.rsplit(|&b| b == 0xff)
.next()
.ok_or(Error::BadDatabase("onetimekeyid is invalid"))?,
)?
.0,
)
})
{
*counts.entry(algorithm?).or_default() += UInt::from(1_u32);
}
Ok(counts)
}
pub fn add_device_keys(
&self,
user_id: &UserId,
device_id: &DeviceId,
device_keys: &DeviceKeys,
globals: &super::globals::Globals,
) -> Result<()> {
let mut userdeviceid = user_id.to_string().as_bytes().to_vec();
userdeviceid.push(0xff);
userdeviceid.extend_from_slice(device_id.as_bytes());
self.userdeviceid_devicekeys
.insert(&userdeviceid, &*serde_json::to_string(&device_keys)?)?;
self.devicekeychangeid_userid
.insert(globals.next_count()?.to_be_bytes(), &*user_id.to_string())?;
Ok(())
}
pub fn get_device_keys(
&self,
user_id: &UserId,
device_id: &DeviceId,
) -> impl Iterator<Item = Result<DeviceKeys>> {
let mut key = user_id.to_string().as_bytes().to_vec();
key.push(0xff);
key.extend_from_slice(device_id.as_bytes());
self.userdeviceid_devicekeys
.scan_prefix(key)
.values()
.map(|bytes| Ok(serde_json::from_slice(&bytes?)?))
}
pub fn device_keys_changed(&self, since: u64) -> impl Iterator<Item = Result<UserId>> {
self.devicekeychangeid_userid
.range(since.to_be_bytes()..)
.values()
.map(|bytes| Ok(UserId::try_from(utils::string_from_bytes(&bytes?)?)?))
}
pub fn all_device_keys(
&self,
user_id: &UserId,
) -> impl Iterator<Item = Result<(String, DeviceKeys)>> {
let mut key = user_id.to_string().as_bytes().to_vec();
key.push(0xff);
self.userdeviceid_devicekeys.scan_prefix(key).map(|r| {
let (key, value) = r?;
Ok((
utils::string_from_bytes(
key.rsplit(|&b| b == 0xff)
.next()
.ok_or(Error::BadDatabase("userdeviceid is invalid"))?,
)?,
serde_json::from_slice(&*value)?,
))
})
}
pub fn add_to_device_event(
&self,
sender: &UserId,
target_user_id: &UserId,
target_device_id: &DeviceId,
event_type: &EventType,
content: serde_json::Value,
globals: &super::globals::Globals,
) -> Result<()> {
let mut key = target_user_id.to_string().as_bytes().to_vec();
key.push(0xff);
key.extend_from_slice(target_device_id.as_bytes());
key.push(0xff);
key.extend_from_slice(&globals.next_count()?.to_be_bytes());
let mut json = serde_json::Map::new();
json.insert("type".to_owned(), event_type.to_string().into());
json.insert("sender".to_owned(), sender.to_string().into());
json.insert("content".to_owned(), content);
self.todeviceid_events
.insert(&key, &*serde_json::to_string(&json)?)?;
Ok(())
}
pub fn take_to_device_events(
&self,
user_id: &UserId,
device_id: &DeviceId,
max: usize,
) -> Result<Vec<EventJson<AnyToDeviceEvent>>> {
let mut events = Vec::new();
let mut prefix = user_id.to_string().as_bytes().to_vec();
prefix.push(0xff);
prefix.extend_from_slice(device_id.as_bytes());
prefix.push(0xff);
for result in self.todeviceid_events.scan_prefix(&prefix).take(max) {
let (key, value) = result?;
events.push(serde_json::from_slice(&*value)?);
self.todeviceid_events.remove(key)?;
}
Ok(events)
}
}