diff --git a/services/identity/src/database.rs b/services/identity/src/database.rs index 515e0e3af..c240e4a2b 100644 --- a/services/identity/src/database.rs +++ b/services/identity/src/database.rs @@ -1,1599 +1,1600 @@ use constant_time_eq::constant_time_eq; use std::collections::{HashMap, HashSet}; use std::str::FromStr; use std::sync::Arc; use crate::ddb_utils::{ create_one_time_key_partition_key, into_one_time_put_requests, OlmAccountType, }; use crate::error::{consume_error, DBItemAttributeError, DBItemError, Error}; use aws_config::SdkConfig; use aws_sdk_dynamodb::model::{AttributeValue, PutRequest, WriteRequest}; use aws_sdk_dynamodb::output::{ DeleteItemOutput, GetItemOutput, PutItemOutput, QueryOutput, }; use aws_sdk_dynamodb::{types::Blob, Client}; use chrono::{DateTime, Utc}; use serde::{Deserialize, Serialize}; use tracing::{debug, error, info, warn}; use crate::client_service::{FlattenedDeviceKeyUpload, UserRegistrationInfo}; use crate::config::CONFIG; use crate::constants::{ ACCESS_TOKEN_SORT_KEY, ACCESS_TOKEN_TABLE, ACCESS_TOKEN_TABLE_AUTH_TYPE_ATTRIBUTE, ACCESS_TOKEN_TABLE_CREATED_ATTRIBUTE, ACCESS_TOKEN_TABLE_PARTITION_KEY, ACCESS_TOKEN_TABLE_TOKEN_ATTRIBUTE, ACCESS_TOKEN_TABLE_VALID_ATTRIBUTE, CONTENT_ONE_TIME_KEY, NONCE_TABLE, NONCE_TABLE_CREATED_ATTRIBUTE, NONCE_TABLE_EXPIRATION_TIME_ATTRIBUTE, NONCE_TABLE_EXPIRATION_TIME_UNIX_ATTRIBUTE, NONCE_TABLE_PARTITION_KEY, NOTIF_ONE_TIME_KEY, RESERVED_USERNAMES_TABLE, RESERVED_USERNAMES_TABLE_PARTITION_KEY, USERS_TABLE, USERS_TABLE_DEVICES_ATTRIBUTE, USERS_TABLE_DEVICES_MAP_CONTENT_ONE_TIME_KEYS_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_CONTENT_PREKEY_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_CONTENT_PREKEY_SIGNATURE_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_DEVICE_TYPE_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_KEY_PAYLOAD_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_KEY_PAYLOAD_SIGNATURE_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_NOTIF_ONE_TIME_KEYS_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_NOTIF_PREKEY_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_NOTIF_PREKEY_SIGNATURE_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_SOCIAL_PROOF_ATTRIBUTE_NAME, USERS_TABLE_PARTITION_KEY, USERS_TABLE_REGISTRATION_ATTRIBUTE, USERS_TABLE_USERNAME_ATTRIBUTE, USERS_TABLE_USERNAME_INDEX, USERS_TABLE_WALLET_ADDRESS_ATTRIBUTE, USERS_TABLE_WALLET_ADDRESS_INDEX, }; use crate::error::{AttributeValueFromHashMap, FromAttributeValue}; use crate::id::generate_uuid; use crate::nonce::NonceData; use crate::token::{AccessTokenData, AuthType}; pub use grpc_clients::identity::DeviceType; mod device_list; +pub use device_list::DeviceListRow; #[derive(Serialize, Deserialize)] pub struct OlmKeys { pub curve25519: String, pub ed25519: String, } #[derive(Serialize, Deserialize)] #[serde(rename_all = "camelCase")] pub struct KeyPayload { pub notification_identity_public_keys: OlmKeys, pub primary_identity_public_keys: OlmKeys, } impl FromStr for KeyPayload { type Err = serde_json::Error; // The payload is held in the database as an escaped JSON payload. // Escaped double quotes need to be trimmed before attempting to serialize fn from_str(payload: &str) -> Result { serde_json::from_str(&payload.replace(r#"\""#, r#"""#)) } } pub struct DBDeviceTypeInt(pub i32); impl TryFrom for DeviceType { type Error = crate::error::Error; fn try_from(value: DBDeviceTypeInt) -> Result { let device_result = DeviceType::try_from(value.0); device_result.map_err(|_| { Error::Attribute(DBItemError { attribute_name: USERS_TABLE_DEVICES_MAP_DEVICE_TYPE_ATTRIBUTE_NAME .to_string(), attribute_value: Some(AttributeValue::N(value.0.to_string())), attribute_error: DBItemAttributeError::InvalidValue, }) }) } } // This is very similar to the protobuf definitions, however, // coupling the protobuf schema to the database API should be avoided. pub struct PreKey { pub prekey: String, pub prekey_signature: String, } pub struct OutboundKeys { pub key_payload: String, pub key_payload_signature: String, pub social_proof: Option, pub content_prekey: PreKey, pub notif_prekey: PreKey, pub content_one_time_key: Option, pub notif_one_time_key: Option, } #[derive(Clone)] pub struct DatabaseClient { client: Arc, } impl DatabaseClient { pub fn new(aws_config: &SdkConfig) -> Self { let client = match &CONFIG.localstack_endpoint { Some(endpoint) => { info!( "Configuring DynamoDB client to use LocalStack endpoint: {}", endpoint ); let ddb_config_builder = aws_sdk_dynamodb::config::Builder::from(aws_config) .endpoint_url(endpoint); Client::from_conf(ddb_config_builder.build()) } None => Client::new(aws_config), }; DatabaseClient { client: Arc::new(client), } } pub async fn add_password_user_to_users_table( &self, registration_state: UserRegistrationInfo, password_file: Vec, ) -> Result { self .add_user_to_users_table( registration_state.flattened_device_key_upload, Some((registration_state.username, Blob::new(password_file))), None, None, registration_state.user_id, ) .await } pub async fn add_wallet_user_to_users_table( &self, flattened_device_key_upload: FlattenedDeviceKeyUpload, wallet_address: String, social_proof: String, user_id: Option, ) -> Result { self .add_user_to_users_table( flattened_device_key_upload, None, Some(wallet_address), Some(social_proof), user_id, ) .await } async fn add_user_to_users_table( &self, flattened_device_key_upload: FlattenedDeviceKeyUpload, username_and_password_file: Option<(String, Blob)>, wallet_address: Option, social_proof: Option, user_id: Option, ) -> Result { let user_id = user_id.unwrap_or_else(generate_uuid); let device_info = create_device_info(flattened_device_key_upload.clone(), social_proof); let devices = HashMap::from([( flattened_device_key_upload.device_id_key.clone(), AttributeValue::M(device_info), )]); let mut user = HashMap::from([ ( USERS_TABLE_PARTITION_KEY.to_string(), AttributeValue::S(user_id.clone()), ), ( USERS_TABLE_DEVICES_ATTRIBUTE.to_string(), AttributeValue::M(devices), ), ]); if let Some((username, password_file)) = username_and_password_file { user.insert( USERS_TABLE_USERNAME_ATTRIBUTE.to_string(), AttributeValue::S(username), ); user.insert( USERS_TABLE_REGISTRATION_ATTRIBUTE.to_string(), AttributeValue::B(password_file), ); } if let Some(address) = wallet_address { user.insert( USERS_TABLE_WALLET_ADDRESS_ATTRIBUTE.to_string(), AttributeValue::S(address), ); } self .client .put_item() .table_name(USERS_TABLE) .set_item(Some(user)) // make sure we don't accidentaly overwrite existing row .condition_expression("attribute_not_exists(#pk)") .expression_attribute_names("#pk", USERS_TABLE_PARTITION_KEY) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; self .append_one_time_prekeys( flattened_device_key_upload.device_id_key, flattened_device_key_upload.content_one_time_keys, flattened_device_key_upload.notif_one_time_keys, ) .await?; Ok(user_id) } pub async fn add_password_user_device_to_users_table( &self, user_id: String, flattened_device_key_upload: FlattenedDeviceKeyUpload, ) -> Result<(), Error> { self .add_device_to_users_table(user_id, flattened_device_key_upload, None) .await } pub async fn add_wallet_user_device_to_users_table( &self, user_id: String, flattened_device_key_upload: FlattenedDeviceKeyUpload, social_proof: String, ) -> Result<(), Error> { self .add_device_to_users_table( user_id, flattened_device_key_upload, Some(social_proof), ) .await } pub async fn get_keyserver_keys_for_user( &self, user_id: &str, ) -> Result, Error> { // DynamoDB doesn't have a way to "pop" a value from a list, so we must // first read in user info, then update one_time_keys with value we // gave to requester let user_info = self .get_item_from_users_table(user_id) .await? .item .ok_or(Error::MissingItem)?; let devices = user_info .get(USERS_TABLE_DEVICES_ATTRIBUTE) .ok_or(Error::MissingItem)? .to_hashmap(USERS_TABLE_DEVICES_ATTRIBUTE)?; let mut maybe_keyserver_id = None; for (device_id, device_info) in devices { let device_type = device_info .to_hashmap("device_id")? .get(USERS_TABLE_DEVICES_MAP_DEVICE_TYPE_ATTRIBUTE_NAME) .ok_or(Error::MissingItem)? .to_string(USERS_TABLE_DEVICES_MAP_DEVICE_TYPE_ATTRIBUTE_NAME)?; if device_type == "keyserver" { maybe_keyserver_id = Some(device_id); break; } } // Assert that the user has a keyserver, if they don't return None let keyserver_id = match maybe_keyserver_id { None => return Ok(None), Some(id) => id, }; let keyserver = devices.get_map(keyserver_id)?; let notif_one_time_key: Option = self .get_one_time_key(keyserver_id, OlmAccountType::Notification) .await?; let content_one_time_key: Option = self .get_one_time_key(keyserver_id, OlmAccountType::Content) .await?; debug!( "Able to get notif one-time key for keyserver {}: {}", keyserver_id, notif_one_time_key.is_some() ); debug!( "Able to get content one-time key for keyserver {}: {}", keyserver_id, content_one_time_key.is_some() ); let content_prekey = keyserver .get_string(USERS_TABLE_DEVICES_MAP_CONTENT_PREKEY_ATTRIBUTE_NAME)?; let content_prekey_signature = keyserver.get_string( USERS_TABLE_DEVICES_MAP_CONTENT_PREKEY_SIGNATURE_ATTRIBUTE_NAME, )?; let notif_prekey = keyserver .get_string(USERS_TABLE_DEVICES_MAP_NOTIF_PREKEY_ATTRIBUTE_NAME)?; let notif_prekey_signature = keyserver.get_string( USERS_TABLE_DEVICES_MAP_NOTIF_PREKEY_SIGNATURE_ATTRIBUTE_NAME, )?; let key_payload = keyserver .get_string(USERS_TABLE_DEVICES_MAP_KEY_PAYLOAD_ATTRIBUTE_NAME)? .to_string(); let key_payload_signature = keyserver .get_string(USERS_TABLE_DEVICES_MAP_KEY_PAYLOAD_SIGNATURE_ATTRIBUTE_NAME)? .to_string(); let social_proof = keyserver .get(USERS_TABLE_DEVICES_MAP_SOCIAL_PROOF_ATTRIBUTE_NAME) .and_then(|s| { s.to_string(USERS_TABLE_DEVICES_MAP_SOCIAL_PROOF_ATTRIBUTE_NAME) .ok() }) .map(|s| s.to_owned()); let full_content_prekey = PreKey { prekey: content_prekey.to_string(), prekey_signature: content_prekey_signature.to_string(), }; let full_notif_prekey = PreKey { prekey: notif_prekey.to_string(), prekey_signature: notif_prekey_signature.to_string(), }; let outbound_payload = OutboundKeys { key_payload, key_payload_signature, social_proof, content_prekey: full_content_prekey, notif_prekey: full_notif_prekey, content_one_time_key, notif_one_time_key, }; Ok(Some(outbound_payload)) } /// Will "mint" a single one-time key by attempting to successfully delete a /// key pub async fn get_one_time_key( &self, device_id: &str, account_type: OlmAccountType, ) -> Result, Error> { use crate::constants::one_time_keys_table as otk_table; use crate::constants::ONE_TIME_KEY_MINIMUM_THRESHOLD; let query_result = self.get_one_time_keys(device_id, account_type).await?; let items = query_result.items(); fn spawn_refresh_keys_task(device_id: &str) { // Clone the string slice to move into the async block let device_id = device_id.to_string(); tokio::spawn(async move { debug!("Attempting to request more keys for device: {}", &device_id); let result = crate::tunnelbroker::send_refresh_keys_request(&device_id).await; consume_error(result); }); } // If no one-time keys exist, or if there aren't enough, request more. // Additionally, if no one-time keys exist, return early. let item_vec = if let Some(items_list) = items { if items_list.len() < ONE_TIME_KEY_MINIMUM_THRESHOLD { spawn_refresh_keys_task(device_id); } items_list } else { debug!("Unable to find {:?} one-time key", account_type); spawn_refresh_keys_task(device_id); return Ok(None); }; let mut result = None; // Attempt to delete the one-time keys individually, a successful delete // mints the one-time key to the requester for item in item_vec { let pk = item.get_string(otk_table::PARTITION_KEY)?; let otk = item.get_string(otk_table::SORT_KEY)?; let composite_key = HashMap::from([ ( otk_table::PARTITION_KEY.to_string(), AttributeValue::S(pk.to_string()), ), ( otk_table::SORT_KEY.to_string(), AttributeValue::S(otk.to_string()), ), ]); debug!("Attempting to delete a {:?} one time key", account_type); match self .client .delete_item() .set_key(Some(composite_key)) .table_name(otk_table::NAME) .send() .await { Ok(_) => { result = Some(otk.to_string()); break; } // This err should only happen if a delete occurred between the read // above and this delete Err(e) => { debug!("Unable to delete key: {:?}", e); continue; } } } // Return deleted key Ok(result) } pub async fn get_one_time_keys( &self, device_id: &str, account_type: OlmAccountType, ) -> Result { use crate::constants::one_time_keys_table::*; // Add related prefix to partition key to grab the correct result set let partition_key = create_one_time_key_partition_key(device_id, account_type); self .client .query() .table_name(NAME) .key_condition_expression(format!("{} = :pk", PARTITION_KEY)) .expression_attribute_values(":pk", AttributeValue::S(partition_key)) .return_consumed_capacity( aws_sdk_dynamodb::model::ReturnConsumedCapacity::Total, ) .send() .await .map_err(|e| Error::AwsSdk(e.into())) .map(|response| { let capacity_units = response .consumed_capacity() .and_then(|it| it.capacity_units()); debug!("OTK read consumed capacity: {:?}", capacity_units); response }) } pub async fn set_prekey( &self, user_id: String, device_id: String, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, ) -> Result<(), Error> { let notif_prekey_av = AttributeValue::S(notif_prekey); let notif_prekey_signature_av = AttributeValue::S(notif_prekey_signature); let content_prekey_av = AttributeValue::S(content_prekey); let content_prekey_signature_av = AttributeValue::S(content_prekey_signature); let update_expression = format!("SET {0}.#{1}.{2} = :n, {0}.#{1}.{3} = :p, {0}.#{1}.{4} = :c, {0}.#{1}.{5} = :d", USERS_TABLE_DEVICES_ATTRIBUTE, "deviceID", USERS_TABLE_DEVICES_MAP_NOTIF_PREKEY_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_NOTIF_PREKEY_SIGNATURE_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_CONTENT_PREKEY_ATTRIBUTE_NAME, USERS_TABLE_DEVICES_MAP_CONTENT_PREKEY_SIGNATURE_ATTRIBUTE_NAME, ); let expression_attribute_names = HashMap::from([ (format!("#{}", "deviceID"), device_id), ( "#user_id".to_string(), USERS_TABLE_PARTITION_KEY.to_string(), ), ]); let expression_attribute_values = HashMap::from([ (":n".to_string(), notif_prekey_av), (":p".to_string(), notif_prekey_signature_av), (":c".to_string(), content_prekey_av), (":d".to_string(), content_prekey_signature_av), ]); self .client .update_item() .table_name(USERS_TABLE) .key(USERS_TABLE_PARTITION_KEY, AttributeValue::S(user_id)) .update_expression(update_expression) .condition_expression("attribute_exists(#user_id)") .set_expression_attribute_names(Some(expression_attribute_names)) .set_expression_attribute_values(Some(expression_attribute_values)) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; Ok(()) } pub async fn append_one_time_prekeys( &self, device_id: String, content_one_time_keys: Vec, notif_one_time_keys: Vec, ) -> Result<(), Error> { use crate::constants::one_time_keys_table; let mut otk_requests = into_one_time_put_requests( &device_id, content_one_time_keys, OlmAccountType::Content, ); let notif_otk_requests: Vec = into_one_time_put_requests( &device_id, notif_one_time_keys, OlmAccountType::Notification, ); otk_requests.extend(notif_otk_requests); // BatchWriteItem has a hard limit of 25 writes per call for requests in otk_requests.chunks(25) { self .client .batch_write_item() .request_items(one_time_keys_table::NAME, requests.to_vec()) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; } Ok(()) } async fn add_device_to_users_table( &self, user_id: String, flattened_device_key_upload: FlattenedDeviceKeyUpload, social_proof: Option, ) -> Result<(), Error> { // Avoid borrowing from lifetime of flattened_device_key_upload let device_id = flattened_device_key_upload.device_id_key.clone(); let content_one_time_keys = flattened_device_key_upload.content_one_time_keys.clone(); let notif_one_time_keys = flattened_device_key_upload.notif_one_time_keys.clone(); let device_info = create_device_info(flattened_device_key_upload, social_proof); let update_expression = format!("SET {}.#{} = :v", USERS_TABLE_DEVICES_ATTRIBUTE, "deviceID",); let expression_attribute_names = HashMap::from([(format!("#{}", "deviceID"), device_id.clone())]); let expression_attribute_values = HashMap::from([(":v".to_string(), AttributeValue::M(device_info))]); self .client .update_item() .table_name(USERS_TABLE) .key(USERS_TABLE_PARTITION_KEY, AttributeValue::S(user_id)) .update_expression(update_expression) .set_expression_attribute_names(Some(expression_attribute_names)) .set_expression_attribute_values(Some(expression_attribute_values)) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; self .append_one_time_prekeys( device_id, content_one_time_keys, notif_one_time_keys, ) .await?; Ok(()) } pub async fn remove_device_from_users_table( &self, user_id: String, device_id_key: String, ) -> Result<(), Error> { let update_expression = format!("REMOVE {}.{}", USERS_TABLE_DEVICES_ATTRIBUTE, "#deviceID"); let expression_attribute_names = HashMap::from([("#deviceID".to_string(), device_id_key)]); self .client .update_item() .table_name(USERS_TABLE) .key(USERS_TABLE_PARTITION_KEY, AttributeValue::S(user_id)) .update_expression(update_expression) .set_expression_attribute_names(Some(expression_attribute_names)) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; Ok(()) } pub async fn update_user_password( &self, user_id: String, password_file: Vec, ) -> Result<(), Error> { let update_expression = format!("SET {} = :p", USERS_TABLE_REGISTRATION_ATTRIBUTE); let expression_attribute_values = HashMap::from([( ":p".to_string(), AttributeValue::B(Blob::new(password_file)), )]); self .client .update_item() .table_name(USERS_TABLE) .key(USERS_TABLE_PARTITION_KEY, AttributeValue::S(user_id)) .update_expression(update_expression) .set_expression_attribute_values(Some(expression_attribute_values)) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; Ok(()) } pub async fn delete_user( &self, user_id: String, ) -> Result { debug!(user_id, "Attempting to delete user's devices"); self.delete_devices_table_rows_for_user(&user_id).await?; debug!(user_id, "Attempting to delete user"); match self .client .delete_item() .table_name(USERS_TABLE) .key( USERS_TABLE_PARTITION_KEY, AttributeValue::S(user_id.clone()), ) .send() .await { Ok(out) => { info!("User has been deleted {}", user_id); Ok(out) } Err(e) => { error!("DynamoDB client failed to delete user {}", user_id); Err(Error::AwsSdk(e.into())) } } } pub async fn get_access_token_data( &self, user_id: String, signing_public_key: String, ) -> Result, Error> { let primary_key = create_composite_primary_key( ( ACCESS_TOKEN_TABLE_PARTITION_KEY.to_string(), user_id.clone(), ), ( ACCESS_TOKEN_SORT_KEY.to_string(), signing_public_key.clone(), ), ); let get_item_result = self .client .get_item() .table_name(ACCESS_TOKEN_TABLE) .set_key(Some(primary_key)) .consistent_read(true) .send() .await; match get_item_result { Ok(GetItemOutput { item: Some(mut item), .. }) => { let created = parse_date_time_attribute( ACCESS_TOKEN_TABLE_CREATED_ATTRIBUTE, item.remove(ACCESS_TOKEN_TABLE_CREATED_ATTRIBUTE), )?; let auth_type = parse_auth_type_attribute( item.remove(ACCESS_TOKEN_TABLE_AUTH_TYPE_ATTRIBUTE), )?; let valid = parse_valid_attribute( item.remove(ACCESS_TOKEN_TABLE_VALID_ATTRIBUTE), )?; let access_token = parse_token_attribute( item.remove(ACCESS_TOKEN_TABLE_TOKEN_ATTRIBUTE), )?; Ok(Some(AccessTokenData { user_id, signing_public_key, access_token, created, auth_type, valid, })) } Ok(_) => { info!( "No item found for user {} and signing public key {} in token table", user_id, signing_public_key ); Ok(None) } Err(e) => { error!( "DynamoDB client failed to get token for user {} with signing public key {}: {}", user_id, signing_public_key, e ); Err(Error::AwsSdk(e.into())) } } } pub async fn verify_access_token( &self, user_id: String, signing_public_key: String, access_token_to_verify: String, ) -> Result { let is_valid = self .get_access_token_data(user_id, signing_public_key) .await? .map(|access_token_data| { constant_time_eq( access_token_data.access_token.as_bytes(), access_token_to_verify.as_bytes(), ) && access_token_data.is_valid() }) .unwrap_or(false); Ok(is_valid) } pub async fn put_access_token_data( &self, access_token_data: AccessTokenData, ) -> Result { let item = HashMap::from([ ( ACCESS_TOKEN_TABLE_PARTITION_KEY.to_string(), AttributeValue::S(access_token_data.user_id), ), ( ACCESS_TOKEN_SORT_KEY.to_string(), AttributeValue::S(access_token_data.signing_public_key), ), ( ACCESS_TOKEN_TABLE_TOKEN_ATTRIBUTE.to_string(), AttributeValue::S(access_token_data.access_token), ), ( ACCESS_TOKEN_TABLE_CREATED_ATTRIBUTE.to_string(), AttributeValue::S(access_token_data.created.to_rfc3339()), ), ( ACCESS_TOKEN_TABLE_AUTH_TYPE_ATTRIBUTE.to_string(), AttributeValue::S(match access_token_data.auth_type { AuthType::Password => "password".to_string(), AuthType::Wallet => "wallet".to_string(), }), ), ( ACCESS_TOKEN_TABLE_VALID_ATTRIBUTE.to_string(), AttributeValue::Bool(access_token_data.valid), ), ]); self .client .put_item() .table_name(ACCESS_TOKEN_TABLE) .set_item(Some(item)) .send() .await .map_err(|e| Error::AwsSdk(e.into())) } pub async fn delete_access_token_data( &self, user_id: String, device_id_key: String, ) -> Result<(), Error> { self .client .delete_item() .table_name(ACCESS_TOKEN_TABLE) .key( ACCESS_TOKEN_TABLE_PARTITION_KEY.to_string(), AttributeValue::S(user_id), ) .key( ACCESS_TOKEN_SORT_KEY.to_string(), AttributeValue::S(device_id_key), ) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; Ok(()) } pub async fn wallet_address_taken( &self, wallet_address: String, ) -> Result { let result = self .get_user_id_from_user_info(wallet_address, &AuthType::Wallet) .await?; Ok(result.is_some()) } pub async fn username_taken(&self, username: String) -> Result { let result = self .get_user_id_from_user_info(username, &AuthType::Password) .await?; Ok(result.is_some()) } pub async fn filter_out_taken_usernames( &self, usernames: Vec, ) -> Result, Error> { let db_usernames = self.get_all_usernames().await?; let db_usernames_set: HashSet = db_usernames.into_iter().collect(); let usernames_set: HashSet = usernames.into_iter().collect(); let available_usernames: Vec = usernames_set .difference(&db_usernames_set) .cloned() .collect(); Ok(available_usernames) } async fn get_user_from_user_info( &self, user_info: String, auth_type: &AuthType, ) -> Result>, Error> { let (index, attribute_name) = match auth_type { AuthType::Password => { (USERS_TABLE_USERNAME_INDEX, USERS_TABLE_USERNAME_ATTRIBUTE) } AuthType::Wallet => ( USERS_TABLE_WALLET_ADDRESS_INDEX, USERS_TABLE_WALLET_ADDRESS_ATTRIBUTE, ), }; match self .client .query() .table_name(USERS_TABLE) .index_name(index) .key_condition_expression(format!("{} = :u", attribute_name)) .expression_attribute_values(":u", AttributeValue::S(user_info.clone())) .send() .await { Ok(QueryOutput { items: Some(items), .. }) => { let num_items = items.len(); if num_items == 0 { return Ok(None); } if num_items > 1 { warn!( "{} user IDs associated with {} {}: {:?}", num_items, attribute_name, user_info, items ); } let first_item = items[0].clone(); let user_id = first_item .get(USERS_TABLE_PARTITION_KEY) .ok_or(DBItemError { attribute_name: USERS_TABLE_PARTITION_KEY.to_string(), attribute_value: None, attribute_error: DBItemAttributeError::Missing, })? .as_s() .map_err(|_| DBItemError { attribute_name: USERS_TABLE_PARTITION_KEY.to_string(), attribute_value: first_item.get(USERS_TABLE_PARTITION_KEY).cloned(), attribute_error: DBItemAttributeError::IncorrectType, })?; let result = self.get_item_from_users_table(user_id).await?; Ok(result.item) } Ok(_) => { info!( "No item found for {} {} in users table", attribute_name, user_info ); Ok(None) } Err(e) => { error!( "DynamoDB client failed to get user from {} {}: {}", attribute_name, user_info, e ); Err(Error::AwsSdk(e.into())) } } } pub async fn get_keys_for_user_id( &self, user_id: &str, get_one_time_keys: bool, ) -> Result, Error> { let Some(user) = self.get_item_from_users_table(user_id).await?.item else { return Ok(None); }; self.get_keys_for_user(user, get_one_time_keys).await } async fn get_keys_for_user( &self, mut user: HashMap, get_one_time_keys: bool, ) -> Result, Error> { let devices = parse_map_attribute( USERS_TABLE_DEVICES_ATTRIBUTE, user.remove(USERS_TABLE_DEVICES_ATTRIBUTE), )?; let mut devices_response = HashMap::with_capacity(devices.len()); for (device_id_key, device_info) in devices { let device_info_map = parse_map_attribute(&device_id_key, Some(device_info))?; let mut device_info_string_map = HashMap::new(); for (attribute_name, attribute_value) in device_info_map { // Excluding one-time keys since we're moving them to a separate table if attribute_name == USERS_TABLE_DEVICES_MAP_NOTIF_ONE_TIME_KEYS_ATTRIBUTE_NAME || attribute_name == USERS_TABLE_DEVICES_MAP_CONTENT_ONE_TIME_KEYS_ATTRIBUTE_NAME { continue; } let attribute_value_str = parse_string_attribute(&attribute_name, Some(attribute_value))?; device_info_string_map.insert(attribute_name, attribute_value_str); } if get_one_time_keys { if let Some(notif_one_time_key) = self .get_one_time_key(&device_id_key, OlmAccountType::Notification) .await? { device_info_string_map .insert(NOTIF_ONE_TIME_KEY.to_string(), notif_one_time_key); } if let Some(content_one_time_key) = self .get_one_time_key(&device_id_key, OlmAccountType::Content) .await? { device_info_string_map .insert(CONTENT_ONE_TIME_KEY.to_string(), content_one_time_key); } } devices_response.insert(device_id_key, device_info_string_map); } Ok(Some(devices_response)) } pub async fn get_user_id_from_user_info( &self, user_info: String, auth_type: &AuthType, ) -> Result, Error> { match self .get_user_from_user_info(user_info.clone(), auth_type) .await { Ok(Some(mut user)) => parse_string_attribute( USERS_TABLE_PARTITION_KEY, user.remove(USERS_TABLE_PARTITION_KEY), ) .map(Some) .map_err(Error::Attribute), Ok(_) => Ok(None), Err(e) => Err(e), } } pub async fn get_user_id_and_password_file_from_username( &self, username: &str, ) -> Result)>, Error> { match self .get_user_from_user_info(username.to_string(), &AuthType::Password) .await { Ok(Some(mut user)) => { let user_id = parse_string_attribute( USERS_TABLE_PARTITION_KEY, user.remove(USERS_TABLE_PARTITION_KEY), )?; let password_file = parse_registration_data_attribute( user.remove(USERS_TABLE_REGISTRATION_ATTRIBUTE), )?; Ok(Some((user_id, password_file))) } Ok(_) => { info!( "No item found for user {} in PAKE registration table", username ); Ok(None) } Err(e) => { error!( "DynamoDB client failed to get registration data for user {}: {}", username, e ); Err(e) } } } pub async fn get_item_from_users_table( &self, user_id: &str, ) -> Result { let primary_key = create_simple_primary_key(( USERS_TABLE_PARTITION_KEY.to_string(), user_id.to_string(), )); self .client .get_item() .table_name(USERS_TABLE) .set_key(Some(primary_key)) .consistent_read(true) .send() .await .map_err(|e| Error::AwsSdk(e.into())) } async fn get_all_usernames(&self) -> Result, Error> { let scan_output = self .client .scan() .table_name(USERS_TABLE) .projection_expression(USERS_TABLE_USERNAME_ATTRIBUTE) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; let mut result = Vec::new(); if let Some(attributes) = scan_output.items { for mut attribute in attributes { if let Ok(username) = parse_string_attribute( USERS_TABLE_USERNAME_ATTRIBUTE, attribute.remove(USERS_TABLE_USERNAME_ATTRIBUTE), ) { result.push(username); } } } Ok(result) } pub async fn add_nonce_to_nonces_table( &self, nonce_data: NonceData, ) -> Result { let item = HashMap::from([ ( NONCE_TABLE_PARTITION_KEY.to_string(), AttributeValue::S(nonce_data.nonce), ), ( NONCE_TABLE_CREATED_ATTRIBUTE.to_string(), AttributeValue::S(nonce_data.created.to_rfc3339()), ), ( NONCE_TABLE_EXPIRATION_TIME_ATTRIBUTE.to_string(), AttributeValue::S(nonce_data.expiration_time.to_rfc3339()), ), ( NONCE_TABLE_EXPIRATION_TIME_UNIX_ATTRIBUTE.to_string(), AttributeValue::N(nonce_data.expiration_time.timestamp().to_string()), ), ]); self .client .put_item() .table_name(NONCE_TABLE) .set_item(Some(item)) .send() .await .map_err(|e| Error::AwsSdk(e.into())) } pub async fn get_nonce_from_nonces_table( &self, nonce_value: impl Into, ) -> Result, Error> { let get_response = self .client .get_item() .table_name(NONCE_TABLE) .key( NONCE_TABLE_PARTITION_KEY, AttributeValue::S(nonce_value.into()), ) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; let Some(mut item) = get_response.item else { return Ok(None); }; let nonce = parse_string_attribute( NONCE_TABLE_PARTITION_KEY, item.remove(&NONCE_TABLE_PARTITION_KEY.to_string()), )?; let created = parse_date_time_attribute( NONCE_TABLE_CREATED_ATTRIBUTE, item.remove(&NONCE_TABLE_CREATED_ATTRIBUTE.to_string()), )?; let expiration_time = parse_date_time_attribute( NONCE_TABLE_EXPIRATION_TIME_ATTRIBUTE, item.remove(&NONCE_TABLE_EXPIRATION_TIME_ATTRIBUTE.to_string()), )?; Ok(Some(NonceData { nonce, created, expiration_time, })) } pub async fn remove_nonce_from_nonces_table( &self, nonce: impl Into, ) -> Result<(), Error> { self .client .delete_item() .table_name(NONCE_TABLE) .key(NONCE_TABLE_PARTITION_KEY, AttributeValue::S(nonce.into())) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; Ok(()) } pub async fn add_usernames_to_reserved_usernames_table( &self, usernames: Vec, ) -> Result<(), Error> { // A single call to BatchWriteItem can consist of up to 25 operations for usernames_chunk in usernames.chunks(25) { let write_requests = usernames_chunk .iter() .map(|username| { let put_request = PutRequest::builder() .item( RESERVED_USERNAMES_TABLE_PARTITION_KEY, AttributeValue::S(username.to_string()), ) .build(); WriteRequest::builder().put_request(put_request).build() }) .collect(); self .client .batch_write_item() .request_items(RESERVED_USERNAMES_TABLE, write_requests) .send() .await .map_err(|e| Error::AwsSdk(e.into()))?; } info!("Batch write item to reserved usernames table succeeded"); Ok(()) } pub async fn delete_username_from_reserved_usernames_table( &self, username: String, ) -> Result { debug!( "Attempting to delete username {} from reserved usernames table", username ); match self .client .delete_item() .table_name(RESERVED_USERNAMES_TABLE) .key( RESERVED_USERNAMES_TABLE_PARTITION_KEY, AttributeValue::S(username.clone()), ) .send() .await { Ok(out) => { info!( "Username {} has been deleted from reserved usernames table", username ); Ok(out) } Err(e) => { error!("DynamoDB client failed to delete username {} from reserved usernames table", username); Err(Error::AwsSdk(e.into())) } } } pub async fn username_in_reserved_usernames_table( &self, username: &str, ) -> Result { match self .client .get_item() .table_name(RESERVED_USERNAMES_TABLE) .key( RESERVED_USERNAMES_TABLE_PARTITION_KEY.to_string(), AttributeValue::S(username.to_string()), ) .consistent_read(true) .send() .await { Ok(GetItemOutput { item: Some(_), .. }) => Ok(true), Ok(_) => Ok(false), Err(e) => Err(Error::AwsSdk(e.into())), } } } type AttributeName = String; pub type DeviceKeys = HashMap; type Devices = HashMap; fn create_simple_primary_key( partition_key: (AttributeName, String), ) -> HashMap { HashMap::from([(partition_key.0, AttributeValue::S(partition_key.1))]) } fn create_composite_primary_key( partition_key: (AttributeName, String), sort_key: (AttributeName, String), ) -> HashMap { let mut primary_key = create_simple_primary_key(partition_key); primary_key.insert(sort_key.0, AttributeValue::S(sort_key.1)); primary_key } fn parse_date_time_attribute( attribute_name: &str, attribute: Option, ) -> Result, DBItemError> { if let Some(AttributeValue::S(created)) = &attribute { created.parse().map_err(|e| { DBItemError::new( attribute_name.to_string(), attribute, DBItemAttributeError::InvalidTimestamp(e), ) }) } else { Err(DBItemError::new( attribute_name.to_string(), attribute, DBItemAttributeError::Missing, )) } } fn parse_auth_type_attribute( attribute: Option, ) -> Result { if let Some(AttributeValue::S(auth_type)) = &attribute { match auth_type.as_str() { "password" => Ok(AuthType::Password), "wallet" => Ok(AuthType::Wallet), _ => Err(DBItemError::new( ACCESS_TOKEN_TABLE_AUTH_TYPE_ATTRIBUTE.to_string(), attribute, DBItemAttributeError::IncorrectType, )), } } else { Err(DBItemError::new( ACCESS_TOKEN_TABLE_AUTH_TYPE_ATTRIBUTE.to_string(), attribute, DBItemAttributeError::Missing, )) } } fn parse_valid_attribute( attribute: Option, ) -> Result { match attribute { Some(AttributeValue::Bool(valid)) => Ok(valid), Some(_) => Err(DBItemError::new( ACCESS_TOKEN_TABLE_VALID_ATTRIBUTE.to_string(), attribute, DBItemAttributeError::IncorrectType, )), None => Err(DBItemError::new( ACCESS_TOKEN_TABLE_VALID_ATTRIBUTE.to_string(), attribute, DBItemAttributeError::Missing, )), } } fn parse_token_attribute( attribute: Option, ) -> Result { match attribute { Some(AttributeValue::S(token)) => Ok(token), Some(_) => Err(DBItemError::new( ACCESS_TOKEN_TABLE_TOKEN_ATTRIBUTE.to_string(), attribute, DBItemAttributeError::IncorrectType, )), None => Err(DBItemError::new( ACCESS_TOKEN_TABLE_TOKEN_ATTRIBUTE.to_string(), attribute, DBItemAttributeError::Missing, )), } } fn parse_registration_data_attribute( attribute: Option, ) -> Result, DBItemError> { match attribute { Some(AttributeValue::B(server_registration_bytes)) => { Ok(server_registration_bytes.into_inner()) } Some(_) => Err(DBItemError::new( USERS_TABLE_REGISTRATION_ATTRIBUTE.to_string(), attribute, DBItemAttributeError::IncorrectType, )), None => Err(DBItemError::new( USERS_TABLE_REGISTRATION_ATTRIBUTE.to_string(), attribute, DBItemAttributeError::Missing, )), } } #[allow(dead_code)] fn parse_map_attribute( attribute_name: &str, attribute_value: Option, ) -> Result, DBItemError> { match attribute_value { Some(AttributeValue::M(map)) => Ok(map), Some(_) => { error!( attribute = attribute_name, value = ?attribute_value, error_type = "IncorrectType", "Unexpected attribute type when parsing map attribute" ); Err(DBItemError::new( attribute_name.to_string(), attribute_value, DBItemAttributeError::IncorrectType, )) } None => { error!( attribute = attribute_name, error_type = "Missing", "Attribute is missing" ); Err(DBItemError::new( attribute_name.to_string(), attribute_value, DBItemAttributeError::Missing, )) } } } fn parse_string_attribute( attribute_name: &str, attribute_value: Option, ) -> Result { match attribute_value { Some(AttributeValue::S(value)) => Ok(value), Some(_) => { error!( attribute = attribute_name, value = ?attribute_value, error_type = "IncorrectType", "Unexpected attribute type when parsing string attribute" ); Err(DBItemError::new( attribute_name.to_string(), attribute_value, DBItemAttributeError::IncorrectType, )) } None => { error!( attribute = attribute_name, error_type = "Missing", "Attribute is missing" ); Err(DBItemError::new( attribute_name.to_string(), attribute_value, DBItemAttributeError::Missing, )) } } } fn create_device_info( flattened_device_key_upload: FlattenedDeviceKeyUpload, social_proof: Option, ) -> HashMap { let mut device_info = HashMap::from([ ( USERS_TABLE_DEVICES_MAP_DEVICE_TYPE_ATTRIBUTE_NAME.to_string(), AttributeValue::S(flattened_device_key_upload.device_type.to_string()), ), ( USERS_TABLE_DEVICES_MAP_KEY_PAYLOAD_ATTRIBUTE_NAME.to_string(), AttributeValue::S(flattened_device_key_upload.key_payload), ), ( USERS_TABLE_DEVICES_MAP_KEY_PAYLOAD_SIGNATURE_ATTRIBUTE_NAME.to_string(), AttributeValue::S(flattened_device_key_upload.key_payload_signature), ), ( USERS_TABLE_DEVICES_MAP_CONTENT_PREKEY_ATTRIBUTE_NAME.to_string(), AttributeValue::S(flattened_device_key_upload.content_prekey), ), ( USERS_TABLE_DEVICES_MAP_CONTENT_PREKEY_SIGNATURE_ATTRIBUTE_NAME .to_string(), AttributeValue::S(flattened_device_key_upload.content_prekey_signature), ), ( USERS_TABLE_DEVICES_MAP_NOTIF_PREKEY_ATTRIBUTE_NAME.to_string(), AttributeValue::S(flattened_device_key_upload.notif_prekey), ), ( USERS_TABLE_DEVICES_MAP_NOTIF_PREKEY_SIGNATURE_ATTRIBUTE_NAME.to_string(), AttributeValue::S(flattened_device_key_upload.notif_prekey_signature), ), ]); if let Some(social_proof) = social_proof { device_info.insert( USERS_TABLE_DEVICES_MAP_SOCIAL_PROOF_ATTRIBUTE_NAME.to_string(), AttributeValue::S(social_proof), ); } device_info } #[cfg(test)] mod tests { use super::*; #[test] fn test_create_simple_primary_key() { let partition_key_name = "userID".to_string(); let partition_key_value = "12345".to_string(); let partition_key = (partition_key_name.clone(), partition_key_value.clone()); let mut primary_key = create_simple_primary_key(partition_key); assert_eq!(primary_key.len(), 1); let attribute = primary_key.remove(&partition_key_name); assert!(attribute.is_some()); assert_eq!(attribute, Some(AttributeValue::S(partition_key_value))); } #[test] fn test_create_composite_primary_key() { let partition_key_name = "userID".to_string(); let partition_key_value = "12345".to_string(); let partition_key = (partition_key_name.clone(), partition_key_value.clone()); let sort_key_name = "deviceID".to_string(); let sort_key_value = "54321".to_string(); let sort_key = (sort_key_name.clone(), sort_key_value.clone()); let mut primary_key = create_composite_primary_key(partition_key, sort_key); assert_eq!(primary_key.len(), 2); let partition_key_attribute = primary_key.remove(&partition_key_name); assert!(partition_key_attribute.is_some()); assert_eq!( partition_key_attribute, Some(AttributeValue::S(partition_key_value)) ); let sort_key_attribute = primary_key.remove(&sort_key_name); assert!(sort_key_attribute.is_some()); assert_eq!(sort_key_attribute, Some(AttributeValue::S(sort_key_value))) } #[test] fn validate_keys() { // Taken from test user let example_payload = r#"{\"notificationIdentityPublicKeys\":{\"curve25519\":\"DYmV8VdkjwG/VtC8C53morogNJhpTPT/4jzW0/cxzQo\",\"ed25519\":\"D0BV2Y7Qm36VUtjwyQTJJWYAycN7aMSJmhEsRJpW2mk\"},\"primaryIdentityPublicKeys\":{\"curve25519\":\"Y4ZIqzpE1nv83kKGfvFP6rifya0itRg2hifqYtsISnk\",\"ed25519\":\"cSlL+VLLJDgtKSPlIwoCZg0h0EmHlQoJC08uV/O+jvg\"}}"#; let serialized_payload = KeyPayload::from_str(&example_payload).unwrap(); assert_eq!( serialized_payload .notification_identity_public_keys .curve25519, "DYmV8VdkjwG/VtC8C53morogNJhpTPT/4jzW0/cxzQo" ); } #[test] fn test_int_to_device_type() { let valid_result = DeviceType::try_from(3); assert!(valid_result.is_ok()); assert_eq!(valid_result.unwrap(), DeviceType::Android); let invalid_result = DeviceType::try_from(6); assert!(invalid_result.is_err()); } } diff --git a/services/identity/src/ddb_utils.rs b/services/identity/src/ddb_utils.rs index b0ecfe103..b4e923749 100644 --- a/services/identity/src/ddb_utils.rs +++ b/services/identity/src/ddb_utils.rs @@ -1,80 +1,92 @@ use aws_sdk_dynamodb::model::{AttributeValue, PutRequest, WriteRequest}; +use chrono::{DateTime, NaiveDateTime, Utc}; use std::collections::HashMap; use std::iter::IntoIterator; use crate::error::{DBItemAttributeError, DBItemError}; #[derive(Copy, Clone, Debug)] pub enum OlmAccountType { Content, Notification, } // Prefix the one time keys with the olm account variant. This allows for a single // DDB table to contain both notification and content keys for a device. pub fn create_one_time_key_partition_key( device_id: &str, account_type: OlmAccountType, ) -> String { match account_type { OlmAccountType::Content => format!("content_{device_id}"), OlmAccountType::Notification => format!("notification_{device_id}"), } } fn create_one_time_key_put_request( device_id: &str, one_time_key: String, account_type: OlmAccountType, ) -> WriteRequest { use crate::constants::one_time_keys_table::*; let partition_key = create_one_time_key_partition_key(device_id, account_type); let builder = PutRequest::builder(); let attrs = HashMap::from([ (PARTITION_KEY.to_string(), AttributeValue::S(partition_key)), (SORT_KEY.to_string(), AttributeValue::S(one_time_key)), ]); let put_request = builder.set_item(Some(attrs)).build(); WriteRequest::builder().put_request(put_request).build() } pub fn into_one_time_put_requests( device_id: &str, one_time_keys: T, account_type: OlmAccountType, ) -> Vec where T: IntoIterator, ::Item: ToString, { one_time_keys .into_iter() .map(|otk| { create_one_time_key_put_request(device_id, otk.to_string(), account_type) }) .collect() } pub trait AttributesOptionExt { fn ok_or_missing( self, attr_name: impl Into, ) -> Result; } impl AttributesOptionExt for Option { fn ok_or_missing( self, attr_name: impl Into, ) -> Result { self.ok_or_else(|| DBItemError { attribute_name: attr_name.into(), attribute_value: None, attribute_error: DBItemAttributeError::Missing, }) } } + +pub trait DateTimeExt { + fn from_utc_timestamp_millis(timestamp: i64) -> Option>; +} + +impl DateTimeExt for DateTime { + fn from_utc_timestamp_millis(timestamp: i64) -> Option { + let naive = NaiveDateTime::from_timestamp_millis(timestamp)?; + Some(Self::from_utc(naive, Utc)) + } +} diff --git a/services/identity/src/grpc_services/authenticated.rs b/services/identity/src/grpc_services/authenticated.rs index 040f1b375..b827f77cf 100644 --- a/services/identity/src/grpc_services/authenticated.rs +++ b/services/identity/src/grpc_services/authenticated.rs @@ -1,378 +1,508 @@ use std::collections::HashMap; use crate::config::CONFIG; +use crate::database::DeviceListRow; use crate::grpc_utils::DeviceInfoWithAuth; use crate::{ client_service::{ handle_db_error, CacheExt, UpdateState, WorkflowInProgress, }, constants::request_metadata, database::DatabaseClient, + ddb_utils::DateTimeExt, grpc_services::shared::get_value, token::AuthType, }; +use chrono::{DateTime, Utc}; use comm_opaque2::grpc::protocol_error_to_grpc_status; use moka::future::Cache; use tonic::{Request, Response, Status}; use tracing::{debug, error}; use super::protos::auth::{ find_user_id_request, identity_client_service_server::IdentityClientService, - FindUserIdRequest, FindUserIdResponse, InboundKeyInfo, - InboundKeysForUserRequest, InboundKeysForUserResponse, KeyserverKeysResponse, - OutboundKeyInfo, OutboundKeysForUserRequest, OutboundKeysForUserResponse, + FindUserIdRequest, FindUserIdResponse, GetDeviceListRequest, + GetDeviceListResponse, InboundKeyInfo, InboundKeysForUserRequest, + InboundKeysForUserResponse, KeyserverKeysResponse, OutboundKeyInfo, + OutboundKeysForUserRequest, OutboundKeysForUserResponse, RefreshUserPreKeysRequest, UpdateUserPasswordFinishRequest, UpdateUserPasswordStartRequest, UpdateUserPasswordStartResponse, UploadOneTimeKeysRequest, }; use super::protos::client::{Empty, IdentityKeyInfo, PreKey}; #[derive(derive_more::Constructor)] pub struct AuthenticatedService { db_client: DatabaseClient, cache: Cache, } fn get_auth_info(req: &Request<()>) -> Option<(String, String, String)> { debug!("Retrieving auth info for request: {:?}", req); let user_id = get_value(req, request_metadata::USER_ID)?; let device_id = get_value(req, request_metadata::DEVICE_ID)?; let access_token = get_value(req, request_metadata::ACCESS_TOKEN)?; Some((user_id, device_id, access_token)) } pub fn auth_interceptor( req: Request<()>, db_client: &DatabaseClient, ) -> Result, Status> { debug!("Intercepting request to check auth info: {:?}", req); let (user_id, device_id, access_token) = get_auth_info(&req) .ok_or_else(|| Status::unauthenticated("Missing credentials"))?; let handle = tokio::runtime::Handle::current(); let new_db_client = db_client.clone(); // This function cannot be `async`, yet must call the async db call // Force tokio to resolve future in current thread without an explicit .await let valid_token = tokio::task::block_in_place(move || { handle .block_on(new_db_client.verify_access_token( user_id, device_id, access_token, )) .map_err(handle_db_error) })?; if !valid_token { return Err(Status::aborted("Bad Credentials")); } Ok(req) } pub fn get_user_and_device_id( request: &Request, ) -> Result<(String, String), Status> { let user_id = get_value(request, request_metadata::USER_ID) .ok_or_else(|| Status::unauthenticated("Missing user_id field"))?; let device_id = get_value(request, request_metadata::DEVICE_ID) .ok_or_else(|| Status::unauthenticated("Missing device_id field"))?; Ok((user_id, device_id)) } #[tonic::async_trait] impl IdentityClientService for AuthenticatedService { async fn refresh_user_pre_keys( &self, request: Request, ) -> Result, Status> { let (user_id, device_id) = get_user_and_device_id(&request)?; let message = request.into_inner(); debug!("Refreshing prekeys for user: {}", user_id); let content_keys = message .new_content_pre_keys .ok_or_else(|| Status::invalid_argument("Missing content keys"))?; let notif_keys = message .new_notif_pre_keys .ok_or_else(|| Status::invalid_argument("Missing notification keys"))?; self .db_client .set_prekey( user_id, device_id, content_keys.pre_key, content_keys.pre_key_signature, notif_keys.pre_key, notif_keys.pre_key_signature, ) .await .map_err(handle_db_error)?; let response = Response::new(Empty {}); Ok(response) } async fn get_outbound_keys_for_user( &self, request: tonic::Request, ) -> Result, tonic::Status> { let message = request.into_inner(); let devices_map = self .db_client .get_keys_for_user_id(&message.user_id, true) .await .map_err(handle_db_error)? .ok_or_else(|| tonic::Status::not_found("user not found"))?; let transformed_devices = devices_map .into_iter() .filter_map(|(key, device_info)| { let device_info_with_auth = DeviceInfoWithAuth { device_info, auth_type: None, }; match OutboundKeyInfo::try_from(device_info_with_auth) { Ok(key_info) => Some((key, key_info)), Err(_) => { error!("Failed to transform device info for key {}", key); None } } }) .collect::>(); Ok(tonic::Response::new(OutboundKeysForUserResponse { devices: transformed_devices, })) } async fn get_inbound_keys_for_user( &self, request: tonic::Request, ) -> Result, tonic::Status> { let message = request.into_inner(); let devices_map = self .db_client .get_keys_for_user_id(&message.user_id, false) .await .map_err(handle_db_error)? .ok_or_else(|| tonic::Status::not_found("user not found"))?; let transformed_devices = devices_map .into_iter() .filter_map(|(key, device_info)| { let device_info_with_auth = DeviceInfoWithAuth { device_info, auth_type: None, }; match InboundKeyInfo::try_from(device_info_with_auth) { Ok(key_info) => Some((key, key_info)), Err(_) => { error!("Failed to transform device info for key {}", key); None } } }) .collect::>(); Ok(tonic::Response::new(InboundKeysForUserResponse { devices: transformed_devices, })) } async fn get_keyserver_keys( &self, request: Request, ) -> Result, Status> { let message = request.into_inner(); let inner_response = self .db_client .get_keyserver_keys_for_user(&message.user_id) .await .map_err(handle_db_error)? .map(|db_keys| OutboundKeyInfo { identity_info: Some(IdentityKeyInfo { payload: db_keys.key_payload, payload_signature: db_keys.key_payload_signature, social_proof: db_keys.social_proof, }), content_prekey: Some(PreKey { pre_key: db_keys.content_prekey.prekey, pre_key_signature: db_keys.content_prekey.prekey_signature, }), notif_prekey: Some(PreKey { pre_key: db_keys.notif_prekey.prekey, pre_key_signature: db_keys.notif_prekey.prekey_signature, }), one_time_content_prekey: db_keys.content_one_time_key, one_time_notif_prekey: db_keys.notif_one_time_key, }); let response = Response::new(KeyserverKeysResponse { keyserver_info: inner_response, }); return Ok(response); } async fn upload_one_time_keys( &self, request: tonic::Request, ) -> Result, tonic::Status> { let (user_id, device_id) = get_user_and_device_id(&request)?; let message = request.into_inner(); debug!("Attempting to update one time keys for user: {}", user_id); self .db_client .append_one_time_prekeys( device_id, message.content_one_time_pre_keys, message.notif_one_time_pre_keys, ) .await .map_err(handle_db_error)?; Ok(tonic::Response::new(Empty {})) } async fn find_user_id( &self, request: tonic::Request, ) -> Result, tonic::Status> { let message = request.into_inner(); use find_user_id_request::Identifier; let (user_ident, auth_type) = match message.identifier { None => { return Err(tonic::Status::invalid_argument("no identifier provided")) } Some(Identifier::Username(username)) => (username, AuthType::Password), Some(Identifier::WalletAddress(address)) => (address, AuthType::Wallet), }; let (is_reserved_result, user_id_result) = tokio::join!( self .db_client .username_in_reserved_usernames_table(&user_ident), self .db_client .get_user_id_from_user_info(user_ident.clone(), &auth_type), ); let is_reserved = is_reserved_result.map_err(handle_db_error)?; let user_id = user_id_result.map_err(handle_db_error)?; Ok(Response::new(FindUserIdResponse { user_id, is_reserved, })) } async fn update_user_password_start( &self, request: tonic::Request, ) -> Result, tonic::Status> { let (user_id, _) = get_user_and_device_id(&request)?; let message = request.into_inner(); let server_registration = comm_opaque2::server::Registration::new(); let server_message = server_registration .start( &CONFIG.server_setup, &message.opaque_registration_request, user_id.as_bytes(), ) .map_err(protocol_error_to_grpc_status)?; let update_state = UpdateState { user_id }; let session_id = self .cache .insert_with_uuid_key(WorkflowInProgress::Update(update_state)) .await; let response = UpdateUserPasswordStartResponse { session_id, opaque_registration_response: server_message, }; Ok(Response::new(response)) } async fn update_user_password_finish( &self, request: tonic::Request, ) -> Result, tonic::Status> { let message = request.into_inner(); let Some(WorkflowInProgress::Update(state)) = self.cache.get(&message.session_id) else { return Err(tonic::Status::not_found("session not found")); }; self.cache.invalidate(&message.session_id).await; let server_registration = comm_opaque2::server::Registration::new(); let password_file = server_registration .finish(&message.opaque_registration_upload) .map_err(protocol_error_to_grpc_status)?; self .db_client .update_user_password(state.user_id, password_file) .await .map_err(handle_db_error)?; let response = Empty {}; Ok(Response::new(response)) } async fn log_out_user( &self, request: tonic::Request, ) -> Result, tonic::Status> { let (user_id, device_id) = get_user_and_device_id(&request)?; self .db_client .remove_device_from_users_table(user_id.clone(), device_id.clone()) .await .map_err(handle_db_error)?; self .db_client .delete_access_token_data(user_id, device_id) .await .map_err(handle_db_error)?; let response = Empty {}; Ok(Response::new(response)) } async fn delete_user( &self, request: tonic::Request, ) -> Result, tonic::Status> { let (user_id, _) = get_user_and_device_id(&request)?; self .db_client .delete_user(user_id) .await .map_err(handle_db_error)?; let response = Empty {}; Ok(Response::new(response)) } + + async fn get_device_list_for_user( + &self, + request: tonic::Request, + ) -> Result, tonic::Status> { + let GetDeviceListRequest { + user_id, + since_timestamp, + } = request.into_inner(); + + let since = since_timestamp + .map(|timestamp| { + DateTime::::from_utc_timestamp_millis(timestamp) + .ok_or_else(|| tonic::Status::invalid_argument("Invalid timestamp")) + }) + .transpose()?; + + let mut db_result = self + .db_client + .get_device_list_history(user_id, since) + .await + .map_err(handle_db_error)?; + + // these should be sorted already, but just in case + db_result.sort_by_key(|list| list.timestamp); + + let device_list_updates: Vec = db_result + .into_iter() + .map(RawDeviceList::from) + .map(SignedDeviceList::try_from_raw) + .collect::, _>>()?; + + let stringified_updates = device_list_updates + .iter() + .map(serde_json::to_string) + .collect::, _>>() + .map_err(|err| { + error!("Failed to serialize device list updates: {}", err); + tonic::Status::failed_precondition("unexpected error") + })?; + + Ok(Response::new(GetDeviceListResponse { + device_list_updates: stringified_updates, + })) + } +} + +// raw device list that can be serialized to JSON (and then signed in the future) +#[derive(serde::Serialize)] +struct RawDeviceList { + devices: Vec, + timestamp: i64, +} + +impl From for RawDeviceList { + fn from(row: DeviceListRow) -> Self { + Self { + devices: row.device_ids, + timestamp: row.timestamp.timestamp_millis(), + } + } +} + +#[derive(serde::Serialize)] +#[serde(rename_all = "camelCase")] +struct SignedDeviceList { + /// JSON-stringified [`RawDeviceList`] + raw_device_list: String, +} + +impl SignedDeviceList { + /// Serialize (and sign in the future) a [`RawDeviceList`] + fn try_from_raw(raw: RawDeviceList) -> Result { + let stringified_list = serde_json::to_string(&raw).map_err(|err| { + error!("Failed to serialize raw device list: {}", err); + tonic::Status::failed_precondition("unexpected error") + })?; + + Ok(Self { + raw_device_list: stringified_list, + }) + } +} + +#[cfg(test)] +mod tests { + use super::*; + + #[test] + fn serialize_device_list_updates() { + let raw_updates = vec![ + RawDeviceList { + devices: vec!["device1".into()], + timestamp: 111111111, + }, + RawDeviceList { + devices: vec!["device1".into(), "device2".into()], + timestamp: 222222222, + }, + ]; + + let expected_raw_list1 = r#"{"devices":["device1"],"timestamp":111111111}"#; + let expected_raw_list2 = + r#"{"devices":["device1","device2"],"timestamp":222222222}"#; + + let signed_updates = raw_updates + .into_iter() + .map(SignedDeviceList::try_from_raw) + .collect::, _>>() + .expect("signing device list updates failed"); + + assert_eq!(signed_updates[0].raw_device_list, expected_raw_list1); + assert_eq!(signed_updates[1].raw_device_list, expected_raw_list2); + + let stringified_updates = signed_updates + .iter() + .map(serde_json::to_string) + .collect::, _>>() + .expect("serialize signed device lists failed"); + + let expected_stringified_list1 = r#"{"rawDeviceList":"{\"devices\":[\"device1\"],\"timestamp\":111111111}"}"#; + let expected_stringified_list2 = r#"{"rawDeviceList":"{\"devices\":[\"device1\",\"device2\"],\"timestamp\":222222222}"}"#; + + assert_eq!(stringified_updates[0], expected_stringified_list1); + assert_eq!(stringified_updates[1], expected_stringified_list2); + } } diff --git a/shared/protos/identity_authenticated.proto b/shared/protos/identity_authenticated.proto index cd0d321dd..1f12755bd 100644 --- a/shared/protos/identity_authenticated.proto +++ b/shared/protos/identity_authenticated.proto @@ -1,159 +1,184 @@ syntax = "proto3"; import "identity_client.proto"; package identity.authenticated; // RPCs from a client (iOS, Android, or web) to identity service // // This service will assert authenticity of a device by verifying the access // token through an interceptor, thus avoiding the need to explicitly pass // the credentials on every request service IdentityClientService { // X3DH actions // Replenish one-time preKeys rpc UploadOneTimeKeys(UploadOneTimeKeysRequest) returns (identity.client.Empty) {} // Rotate a device's preKey and preKey signature // Rotated for deniability of older messages rpc RefreshUserPreKeys(RefreshUserPreKeysRequest) returns (identity.client.Empty) {} // Called by clients to get all device keys associated with a user in order // to open a new channel of communication on any of their devices. // Specially, this will return the following per device: // - Identity keys (both Content and Notif Keys) // - PreKey (including preKey signature) // - One-time PreKey rpc GetOutboundKeysForUser(OutboundKeysForUserRequest) returns (OutboundKeysForUserResponse) {} // Called by receivers of a communication request. The reponse will only // return identity keys (both content and notif keys) and related prekeys per // device, but will not contain one-time keys. rpc GetInboundKeysForUser(InboundKeysForUserRequest) returns (InboundKeysForUserResponse) {} // Called by user to update password and receive new access token rpc UpdateUserPasswordStart(UpdateUserPasswordStartRequest) returns (UpdateUserPasswordStartResponse) {} rpc UpdateUserPasswordFinish(UpdateUserPasswordFinishRequest) returns (identity.client.Empty) {} // Called by user to log out (clears device's keys and access token) rpc LogOutUser(identity.client.Empty) returns (identity.client.Empty) {} // Called by a user to delete their own account rpc DeleteUser(identity.client.Empty) returns (identity.client.Empty) {} // Called by clients to get required keys for opening a connection // to a user's keyserver rpc GetKeyserverKeys(OutboundKeysForUserRequest) returns (KeyserverKeysResponse) {} // Returns userID for given username or wallet address rpc FindUserID(FindUserIDRequest) returns (FindUserIDResponse) {} + + // Returns device list history + rpc GetDeviceListForUser(GetDeviceListRequest) returns + (GetDeviceListResponse) {} } // Helper types // UploadOneTimeKeys // As OPKs get exhausted, they need to be refreshed message UploadOneTimeKeysRequest { repeated string contentOneTimePreKeys = 1; repeated string notifOneTimePreKeys = 2; } // RefreshUserPreKeys message RefreshUserPreKeysRequest { identity.client.PreKey newContentPreKeys = 1; identity.client.PreKey newNotifPreKeys = 2; } // Information needed when establishing communication to someone else's device message OutboundKeyInfo { identity.client.IdentityKeyInfo identityInfo = 1; identity.client.PreKey contentPrekey = 2; identity.client.PreKey notifPrekey = 3; optional string oneTimeContentPrekey = 4; optional string oneTimeNotifPrekey = 5; } message KeyserverKeysResponse { optional OutboundKeyInfo keyserverInfo = 1; } // GetOutboundKeysForUser message OutboundKeysForUserResponse { // Map is keyed on devices' public ed25519 key used for signing map devices = 1; } // Information needed by a device to establish communcation when responding // to a request. // The device receiving a request only needs the content key and prekey. message OutboundKeysForUserRequest { string userID = 1; } // GetInboundKeysForUser message InboundKeyInfo { identity.client.IdentityKeyInfo identityInfo = 1; identity.client.PreKey contentPrekey = 2; identity.client.PreKey notifPrekey = 3; } message InboundKeysForUserResponse { // Map is keyed on devices' public ed25519 key used for signing map devices = 1; } message InboundKeysForUserRequest { string userID = 1; } // FindUserID message FindUserIDRequest { oneof identifier { string username = 1; string walletAddress = 2; } } message FindUserIDResponse { // userID if the user is registered with Identity Service, null otherwise optional string userID = 1; // true if the identifier (username or wallet address) exists in the // reserved usernames list, false otherwise. It doesn't take into account // whether the user is registered with Identity Service (userID != null). bool is_reserved = 2; } // UpdateUserPassword // Request for updating a user, similar to registration but need a // access token to validate user before updating password message UpdateUserPasswordStartRequest { // Message sent to initiate PAKE registration (step 1) bytes opaqueRegistrationRequest = 1; } // Do a user registration, but overwrite the existing credentials // after validation of user message UpdateUserPasswordFinishRequest { // Identifier used to correlate start and finish request string sessionID = 1; // Opaque client registration upload (step 3) bytes opaqueRegistrationUpload = 2; } message UpdateUserPasswordStartResponse { // Identifier used to correlate start request with finish request string sessionID = 1; bytes opaqueRegistrationResponse = 2; } + +// GetDeviceListForUser + +message GetDeviceListRequest { + // User whose device lists we want to retrieve + string user_id = 1; + // UTC timestamp in milliseconds + // If none, whole device list history will be retrieved + optional int64 since_timestamp = 2; +} + +message GetDeviceListResponse { + // A list of stringified JSON objects of the following format: + // { + // "rawDeviceList": JSON.stringify({ + // "devices": [, ...] + // "timestamp": , + // }) + // } + repeated string device_list_updates = 1; +}