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|
use super::SESSION_ID_LENGTH;
use crate::{services, utils, Error, Result, Ruma};
use futures_util::{stream::FuturesUnordered, StreamExt};
use ruma::{
api::{
client::{
error::ErrorKind,
keys::{
claim_keys, get_key_changes, get_keys, upload_keys, upload_signatures,
upload_signing_keys,
},
uiaa::{AuthFlow, AuthType, UiaaInfo},
},
federation,
},
serde::Raw,
DeviceKeyAlgorithm, OwnedDeviceId, OwnedUserId, UserId,
};
use serde_json::json;
use std::collections::{BTreeMap, HashMap, HashSet};
/// # `POST /_matrix/client/r0/keys/upload`
///
/// Publish end-to-end encryption keys for the sender device.
///
/// - Adds one time keys
/// - If there are no device keys yet: Adds device keys (TODO: merge with existing keys?)
pub async fn upload_keys_route(
body: Ruma<upload_keys::v3::Request>,
) -> Result<upload_keys::v3::Response> {
let sender_user = body.sender_user.as_ref().expect("user is authenticated");
let sender_device = body.sender_device.as_ref().expect("user is authenticated");
for (key_key, key_value) in &body.one_time_keys {
services()
.users
.add_one_time_key(sender_user, sender_device, key_key, key_value)?;
}
if let Some(device_keys) = &body.device_keys {
// TODO: merge this and the existing event?
// This check is needed to assure that signatures are kept
if services()
.users
.get_device_keys(sender_user, sender_device)?
.is_none()
{
services()
.users
.add_device_keys(sender_user, sender_device, device_keys)?;
}
}
Ok(upload_keys::v3::Response {
one_time_key_counts: services()
.users
.count_one_time_keys(sender_user, sender_device)?,
})
}
/// # `POST /_matrix/client/r0/keys/query`
///
/// Get end-to-end encryption keys for the given users.
///
/// - Always fetches users from other servers over federation
/// - Gets master keys, self-signing keys, user signing keys and device keys.
/// - The master and self-signing keys contain signatures that the user is allowed to see
pub async fn get_keys_route(body: Ruma<get_keys::v3::Request>) -> Result<get_keys::v3::Response> {
let sender_user = body.sender_user.as_ref().expect("user is authenticated");
let response =
get_keys_helper(Some(sender_user), &body.device_keys, |u| u == sender_user).await?;
Ok(response)
}
/// # `POST /_matrix/client/r0/keys/claim`
///
/// Claims one-time keys
pub async fn claim_keys_route(
body: Ruma<claim_keys::v3::Request>,
) -> Result<claim_keys::v3::Response> {
let response = claim_keys_helper(&body.one_time_keys).await?;
Ok(response)
}
/// # `POST /_matrix/client/r0/keys/device_signing/upload`
///
/// Uploads end-to-end key information for the sender user.
///
/// - Requires UIAA to verify password
pub async fn upload_signing_keys_route(
body: Ruma<upload_signing_keys::v3::Request>,
) -> Result<upload_signing_keys::v3::Response> {
let sender_user = body.sender_user.as_ref().expect("user is authenticated");
let sender_device = body.sender_device.as_ref().expect("user is authenticated");
// UIAA
let mut uiaainfo = UiaaInfo {
flows: vec![AuthFlow {
stages: vec![AuthType::Password],
}],
completed: Vec::new(),
params: Default::default(),
session: None,
auth_error: None,
};
if let Some(auth) = &body.auth {
let (worked, uiaainfo) =
services()
.uiaa
.try_auth(sender_user, sender_device, auth, &uiaainfo)?;
if !worked {
return Err(Error::Uiaa(uiaainfo));
}
// Success!
} else if let Some(json) = body.json_body {
uiaainfo.session = Some(utils::random_string(SESSION_ID_LENGTH));
services()
.uiaa
.create(sender_user, sender_device, &uiaainfo, &json)?;
return Err(Error::Uiaa(uiaainfo));
} else {
return Err(Error::BadRequest(ErrorKind::NotJson, "Not json."));
}
if let Some(master_key) = &body.master_key {
services().users.add_cross_signing_keys(
sender_user,
master_key,
&body.self_signing_key,
&body.user_signing_key,
)?;
}
Ok(upload_signing_keys::v3::Response {})
}
/// # `POST /_matrix/client/r0/keys/signatures/upload`
///
/// Uploads end-to-end key signatures from the sender user.
pub async fn upload_signatures_route(
body: Ruma<upload_signatures::v3::Request>,
) -> Result<upload_signatures::v3::Response> {
let sender_user = body.sender_user.as_ref().expect("user is authenticated");
for (user_id, keys) in &body.signed_keys {
for (key_id, key) in keys {
let key = serde_json::to_value(key)
.map_err(|_| Error::BadRequest(ErrorKind::InvalidParam, "Invalid key JSON"))?;
for signature in key
.get("signatures")
.ok_or(Error::BadRequest(
ErrorKind::InvalidParam,
"Missing signatures field.",
))?
.get(sender_user.to_string())
.ok_or(Error::BadRequest(
ErrorKind::InvalidParam,
"Invalid user in signatures field.",
))?
.as_object()
.ok_or(Error::BadRequest(
ErrorKind::InvalidParam,
"Invalid signature.",
))?
.clone()
.into_iter()
{
// Signature validation?
let signature = (
signature.0,
signature
.1
.as_str()
.ok_or(Error::BadRequest(
ErrorKind::InvalidParam,
"Invalid signature value.",
))?
.to_owned(),
);
services()
.users
.sign_key(user_id, key_id, signature, sender_user)?;
}
}
}
Ok(upload_signatures::v3::Response {
failures: BTreeMap::new(), // TODO: integrate
})
}
/// # `POST /_matrix/client/r0/keys/changes`
///
/// Gets a list of users who have updated their device identity keys since the previous sync token.
///
/// - TODO: left users
pub async fn get_key_changes_route(
body: Ruma<get_key_changes::v3::Request>,
) -> Result<get_key_changes::v3::Response> {
let sender_user = body.sender_user.as_ref().expect("user is authenticated");
let mut device_list_updates = HashSet::new();
device_list_updates.extend(
services()
.users
.keys_changed(
sender_user.as_str(),
body.from
.parse()
.map_err(|_| Error::BadRequest(ErrorKind::InvalidParam, "Invalid `from`."))?,
Some(
body.to
.parse()
.map_err(|_| Error::BadRequest(ErrorKind::InvalidParam, "Invalid `to`."))?,
),
)
.filter_map(|r| r.ok()),
);
for room_id in services()
.rooms
.state_cache
.rooms_joined(sender_user)
.filter_map(|r| r.ok())
{
device_list_updates.extend(
services()
.users
.keys_changed(
room_id.as_ref(),
body.from.parse().map_err(|_| {
Error::BadRequest(ErrorKind::InvalidParam, "Invalid `from`.")
})?,
Some(body.to.parse().map_err(|_| {
Error::BadRequest(ErrorKind::InvalidParam, "Invalid `to`.")
})?),
)
.filter_map(|r| r.ok()),
);
}
Ok(get_key_changes::v3::Response {
changed: device_list_updates.into_iter().collect(),
left: Vec::new(), // TODO
})
}
pub(crate) async fn get_keys_helper<F: Fn(&UserId) -> bool>(
sender_user: Option<&UserId>,
device_keys_input: &BTreeMap<OwnedUserId, Vec<OwnedDeviceId>>,
allowed_signatures: F,
) -> Result<get_keys::v3::Response> {
let mut master_keys = BTreeMap::new();
let mut self_signing_keys = BTreeMap::new();
let mut user_signing_keys = BTreeMap::new();
let mut device_keys = BTreeMap::new();
let mut get_over_federation = HashMap::new();
for (user_id, device_ids) in device_keys_input {
let user_id: &UserId = user_id;
if user_id.server_name() != services().globals.server_name() {
get_over_federation
.entry(user_id.server_name())
.or_insert_with(Vec::new)
.push((user_id, device_ids));
continue;
}
if device_ids.is_empty() {
let mut container = BTreeMap::new();
for device_id in services().users.all_device_ids(user_id) {
let device_id = device_id?;
if let Some(mut keys) = services().users.get_device_keys(user_id, &device_id)? {
let metadata = services()
.users
.get_device_metadata(user_id, &device_id)?
.ok_or_else(|| {
Error::bad_database("all_device_keys contained nonexistent device.")
})?;
add_unsigned_device_display_name(&mut keys, metadata)
.map_err(|_| Error::bad_database("invalid device keys in database"))?;
container.insert(device_id, keys);
}
}
device_keys.insert(user_id.to_owned(), container);
} else {
for device_id in device_ids {
let mut container = BTreeMap::new();
if let Some(mut keys) = services().users.get_device_keys(user_id, device_id)? {
let metadata = services()
.users
.get_device_metadata(user_id, device_id)?
.ok_or(Error::BadRequest(
ErrorKind::InvalidParam,
"Tried to get keys for nonexistent device.",
))?;
add_unsigned_device_display_name(&mut keys, metadata)
.map_err(|_| Error::bad_database("invalid device keys in database"))?;
container.insert(device_id.to_owned(), keys);
}
device_keys.insert(user_id.to_owned(), container);
}
}
if let Some(master_key) =
services()
.users
.get_master_key(sender_user, user_id, &allowed_signatures)?
{
master_keys.insert(user_id.to_owned(), master_key);
}
if let Some(self_signing_key) =
services()
.users
.get_self_signing_key(sender_user, user_id, &allowed_signatures)?
{
self_signing_keys.insert(user_id.to_owned(), self_signing_key);
}
if Some(user_id) == sender_user {
if let Some(user_signing_key) = services().users.get_user_signing_key(user_id)? {
user_signing_keys.insert(user_id.to_owned(), user_signing_key);
}
}
}
let mut failures = BTreeMap::new();
let mut futures: FuturesUnordered<_> = get_over_federation
.into_iter()
.map(|(server, vec)| async move {
let mut device_keys_input_fed = BTreeMap::new();
for (user_id, keys) in vec {
device_keys_input_fed.insert(user_id.to_owned(), keys.clone());
}
(
server,
services()
.sending
.send_federation_request(
server,
federation::keys::get_keys::v1::Request {
device_keys: device_keys_input_fed,
},
)
.await,
)
})
.collect();
while let Some((server, response)) = futures.next().await {
match response {
Ok(response) => {
for (user, masterkey) in response.master_keys {
let (master_key_id, mut master_key) =
services().users.parse_master_key(&user, &masterkey)?;
if let Some(our_master_key) = services().users.get_key(
&master_key_id,
sender_user,
&user,
&allowed_signatures,
)? {
let (_, our_master_key) =
services().users.parse_master_key(&user, &our_master_key)?;
master_key.signatures.extend(our_master_key.signatures);
}
let json = serde_json::to_value(master_key).expect("to_value always works");
let raw = serde_json::from_value(json).expect("Raw::from_value always works");
master_keys.insert(user, raw);
}
self_signing_keys.extend(response.self_signing_keys);
device_keys.extend(response.device_keys);
}
Err(_e) => {
failures.insert(server.to_string(), json!({}));
}
}
}
Ok(get_keys::v3::Response {
master_keys,
self_signing_keys,
user_signing_keys,
device_keys,
failures,
})
}
fn add_unsigned_device_display_name(
keys: &mut Raw<ruma::encryption::DeviceKeys>,
metadata: ruma::api::client::device::Device,
) -> serde_json::Result<()> {
if let Some(display_name) = metadata.display_name {
let mut object = keys.deserialize_as::<serde_json::Map<String, serde_json::Value>>()?;
let unsigned = object.entry("unsigned").or_insert_with(|| json!({}));
if let serde_json::Value::Object(unsigned_object) = unsigned {
unsigned_object.insert("device_display_name".to_owned(), display_name.into());
}
*keys = Raw::from_json(serde_json::value::to_raw_value(&object)?);
}
Ok(())
}
pub(crate) async fn claim_keys_helper(
one_time_keys_input: &BTreeMap<OwnedUserId, BTreeMap<OwnedDeviceId, DeviceKeyAlgorithm>>,
) -> Result<claim_keys::v3::Response> {
let mut one_time_keys = BTreeMap::new();
let mut get_over_federation = BTreeMap::new();
for (user_id, map) in one_time_keys_input {
if user_id.server_name() != services().globals.server_name() {
get_over_federation
.entry(user_id.server_name())
.or_insert_with(Vec::new)
.push((user_id, map));
}
let mut container = BTreeMap::new();
for (device_id, key_algorithm) in map {
if let Some(one_time_keys) =
services()
.users
.take_one_time_key(user_id, device_id, key_algorithm)?
{
let mut c = BTreeMap::new();
c.insert(one_time_keys.0, one_time_keys.1);
container.insert(device_id.clone(), c);
}
}
one_time_keys.insert(user_id.clone(), container);
}
let mut failures = BTreeMap::new();
let mut futures: FuturesUnordered<_> = get_over_federation
.into_iter()
.map(|(server, vec)| async move {
let mut one_time_keys_input_fed = BTreeMap::new();
for (user_id, keys) in vec {
one_time_keys_input_fed.insert(user_id.clone(), keys.clone());
}
(
server,
services()
.sending
.send_federation_request(
server,
federation::keys::claim_keys::v1::Request {
one_time_keys: one_time_keys_input_fed,
},
)
.await,
)
})
.collect();
while let Some((server, response)) = futures.next().await {
match response {
Ok(keys) => {
one_time_keys.extend(keys.one_time_keys);
}
Err(_e) => {
failures.insert(server.to_string(), json!({}));
}
}
}
Ok(claim_keys::v3::Response {
failures,
one_time_keys,
})
}
|
