Newer
Older
api::client::{
error::ErrorKind,
session::{
get_login_types::{
self,
v3::{ApplicationServiceLoginType, PasswordLoginType},
},
login::{
self,
v3::{DiscoveryInfo, HomeserverInfo},
},
logout, logout_all,
},
uiaa::UserIdentifier,
},
UserId,
use tracing::{debug, info, warn};
use super::{DEVICE_ID_LENGTH, TOKEN_LENGTH};
use crate::{utils, utils::hash, Error, Result, Ruma};
#[derive(Debug, Deserialize)]
struct Claims {
/// # `GET /_matrix/client/v3/login`
/// Get the supported login types of this server. One of these should be used as
/// the `type` field when logging in.
#[tracing::instrument(skip_all, fields(%client), name = "register")]
InsecureClientIp(client): InsecureClientIp, _body: Ruma<get_login_types::v3::Request>,
) -> Result<get_login_types::v3::Response> {
Ok(get_login_types::v3::Response::new(vec![
get_login_types::v3::LoginType::Password(PasswordLoginType::default()),
get_login_types::v3::LoginType::ApplicationService(ApplicationServiceLoginType::default()),
]))
/// # `POST /_matrix/client/v3/login`
/// Authenticates the user and returns an access token it can use in subsequent
/// requests.
/// - The user needs to authenticate using their password (or if enabled using a
/// json web token)
/// - If `device_id` is known: invalidates old access token of that device
/// - If `device_id` is unknown: creates a new device
/// - Returns access token that is associated with the user and device
/// Note: You can use [`GET
/// /_matrix/client/r0/login`](fn.get_supported_versions_route.html) to see
#[tracing::instrument(skip_all, fields(%client), name = "register")]
State(services): State<crate::State>, InsecureClientIp(client): InsecureClientIp, body: Ruma<login::v3::Request>,
// Validate login method
// TODO: Other login methods
let user_id = match &body.login_info {
#[allow(deprecated)]
login::v3::LoginInfo::Password(login::v3::Password {
identifier,
password,
user,
..
}) => {
debug!("Got password login type");
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let user_id = if let Some(UserIdentifier::UserIdOrLocalpart(user_id)) = identifier {
UserId::parse_with_server_name(user_id.to_lowercase(), services.globals.server_name())
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} else if let Some(user) = user {
UserId::parse(user)
} else {
warn!("Bad login type: {:?}", &body.login_info);
return Err(Error::BadRequest(ErrorKind::forbidden(), "Bad login type."));
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}
.map_err(|_| Error::BadRequest(ErrorKind::InvalidUsername, "Username is invalid."))?;
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.ok_or(Error::BadRequest(ErrorKind::forbidden(), "Wrong username or password."))?;
if hash.is_empty() {
return Err(Error::BadRequest(ErrorKind::UserDeactivated, "The user has been deactivated"));
}
if hash::verify_password(password, &hash).is_err() {
return Err(Error::BadRequest(ErrorKind::forbidden(), "Wrong username or password."));
user_id
},
login::v3::LoginInfo::Token(login::v3::Token {
token,
}) => {
debug!("Got token login type");
if let Some(jwt_decoding_key) = services.globals.jwt_decoding_key() {
let token =
jsonwebtoken::decode::<Claims>(token, jwt_decoding_key, &jsonwebtoken::Validation::default())
.map_err(|e| {
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warn!("Failed to parse JWT token from user logging in: {e}");
Error::BadRequest(ErrorKind::InvalidUsername, "Token is invalid.")
})?;
let username = token.claims.sub.to_lowercase();
UserId::parse_with_server_name(username, services.globals.server_name()).map_err(|e| {
warn!("Failed to parse username from user logging in: {e}");
Error::BadRequest(ErrorKind::InvalidUsername, "Username is invalid.")
})?
} else {
return Err(Error::BadRequest(
ErrorKind::Unknown,
"Token login is not supported (server has no jwt decoding key).",
));
}
},
#[allow(deprecated)]
login::v3::LoginInfo::ApplicationService(login::v3::ApplicationService {
identifier,
user,
}) => {
debug!("Got appservice login type");
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let user_id = if let Some(UserIdentifier::UserIdOrLocalpart(user_id)) = identifier {
UserId::parse_with_server_name(user_id.to_lowercase(), services.globals.server_name())
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} else if let Some(user) = user {
UserId::parse(user)
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warn!("Bad login type: {:?}", &body.login_info);
return Err(Error::BadRequest(ErrorKind::forbidden(), "Bad login type."));
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}
.map_err(|e| {
warn!("Failed to parse username from appservice logging in: {e}");
Error::BadRequest(ErrorKind::InvalidUsername, "Username is invalid.")
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})?;
if let Some(ref info) = body.appservice_info {
if !info.is_user_match(&user_id) {
return Err(Error::BadRequest(ErrorKind::Exclusive, "User is not in namespace."));
}
} else {
return Err(Error::BadRequest(ErrorKind::MissingToken, "Missing appservice token."));
}
user_id
},
_ => {
warn!("Unsupported or unknown login type: {:?}", &body.login_info);
debug!("JSON body: {:?}", &body.json_body);
return Err(Error::BadRequest(ErrorKind::Unknown, "Unsupported or unknown login type."));
},
};
// Generate new device id if the user didn't specify one
let device_id = body
.device_id
.clone()
.unwrap_or_else(|| utils::random_string(DEVICE_ID_LENGTH).into());
// Generate a new token for the device
let token = utils::random_string(TOKEN_LENGTH);
// Determine if device_id was provided and exists in the db for this user
let device_exists = body.device_id.as_ref().map_or(false, |device_id| {
.users
.all_device_ids(&user_id)
.any(|x| x.as_ref().map_or(false, |v| v == device_id))
services.users.set_token(&user_id, &device_id, &token)?;
services.users.create_device(
&user_id,
&device_id,
&token,
body.initial_device_display_name.clone(),
Some(client.to_string()),
)?;
// send client well-known if specified so the client knows to reconfigure itself
let client_discovery_info: Option<DiscoveryInfo> = services
.globals
.well_known_client()
.as_ref()
.map(|server| DiscoveryInfo::new(HomeserverInfo::new(server.to_string())));
info!("{user_id} logged in");
// home_server is deprecated but apparently must still be sent despite it being
// deprecated over 6 years ago. initially i thought this macro was unnecessary,
// but ruma uses this same macro for the same reason so...
#[allow(deprecated)]
Ok(login::v3::Response {
user_id,
access_token: token,
device_id,
well_known: client_discovery_info,
home_server: Some(services.globals.server_name().to_owned()),
/// # `POST /_matrix/client/v3/logout`
///
/// Log out the current device.
///
/// - Deletes device metadata (device id, device display name, last seen ip,
/// last seen ts)
/// - Forgets to-device events
/// - Triggers device list updates
#[tracing::instrument(skip_all, fields(%client), name = "register")]
State(services): State<crate::State>, InsecureClientIp(client): InsecureClientIp, body: Ruma<logout::v3::Request>,
let sender_user = body.sender_user.as_ref().expect("user is authenticated");
let sender_device = body.sender_device.as_ref().expect("user is authenticated");
services.users.remove_device(sender_user, sender_device)?;
// send device list update for user after logout
services.users.mark_device_key_update(sender_user)?;
/// # `POST /_matrix/client/r0/logout/all`
///
/// Log out all devices of this user.
///
/// - Invalidates all access tokens
/// - Deletes all device metadata (device id, device display name, last seen ip,
/// last seen ts)
/// - Forgets all to-device events
/// - Triggers device list updates
/// Note: This is equivalent to calling [`GET
/// /_matrix/client/r0/logout`](fn.logout_route.html) from each device of this
/// user.
#[tracing::instrument(skip_all, fields(%client), name = "register")]
State(services): State<crate::State>, InsecureClientIp(client): InsecureClientIp,
body: Ruma<logout_all::v3::Request>,
let sender_user = body.sender_user.as_ref().expect("user is authenticated");
for device_id in services.users.all_device_ids(sender_user).flatten() {
services.users.remove_device(sender_user, &device_id)?;
// send device list update for user after logout
services.users.mark_device_key_update(sender_user)?;