diff --git a/keyserver/addons/rust-node-addon/src/identity_client/get_inbound_keys_for_user.rs b/keyserver/addons/rust-node-addon/src/identity_client/get_inbound_keys_for_user.rs index 5c1270673..d1630d2aa 100644 --- a/keyserver/addons/rust-node-addon/src/identity_client/get_inbound_keys_for_user.rs +++ b/keyserver/addons/rust-node-addon/src/identity_client/get_inbound_keys_for_user.rs @@ -1,56 +1,55 @@ use grpc_clients::identity::protos::authenticated::InboundKeysForUserRequest; use super::*; #[napi] #[instrument(skip_all)] pub async fn get_inbound_keys_for_user_device( auth_user_id: String, auth_device_id: String, auth_access_token: String, user_id: String, device_id: String, ) -> Result { // Set up the gRPC client that will be used to talk to the Identity service let mut identity_client = get_authenticated_identity_client( auth_user_id, auth_device_id, auth_access_token, ) .await?; let inbound_keys_for_user_request = InboundKeysForUserRequest { user_id }; let mut response = identity_client .get_inbound_keys_for_user(inbound_keys_for_user_request) .await .map_err(|e| Error::new(Status::GenericFailure, e.to_string()))? .into_inner(); let device_inbound_key_info = DeviceInboundKeyInfo::try_from( response .devices .remove(&device_id) .ok_or(Error::from_status(Status::GenericFailure))?, )?; let identity = response .identity .ok_or_else(|| Error::from_status(Status::GenericFailure))?; let username = Some(identity.username); let wallet_address = identity.eth_identity.map(|eth| eth.wallet_address); let inbound_key_info_response = InboundKeyInfoResponse { payload: device_inbound_key_info.payload, payload_signature: device_inbound_key_info.payload_signature, - social_proof: device_inbound_key_info.social_proof, content_prekey: device_inbound_key_info.content_prekey, content_prekey_signature: device_inbound_key_info.content_prekey_signature, notif_prekey: device_inbound_key_info.notif_prekey, notif_prekey_signature: device_inbound_key_info.notif_prekey_signature, username, wallet_address, }; Ok(inbound_key_info_response) } diff --git a/keyserver/addons/rust-node-addon/src/identity_client/login.rs b/keyserver/addons/rust-node-addon/src/identity_client/login.rs index 443d5d3c7..33ac282de 100644 --- a/keyserver/addons/rust-node-addon/src/identity_client/login.rs +++ b/keyserver/addons/rust-node-addon/src/identity_client/login.rs @@ -1,88 +1,87 @@ use super::*; use comm_opaque2::client::Login; use grpc_clients::identity::protos::unauthenticated::{ OpaqueLoginFinishRequest, OpaqueLoginStartRequest, }; use tracing::debug; #[napi] #[instrument(skip_all)] pub async fn login_user( username: String, password: String, signed_identity_keys_blob: SignedIdentityKeysBlob, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, force: Option, ) -> Result { debug!("Attempting to log in user: {}", username); // Set up the gRPC client that will be used to talk to the Identity service let mut identity_client = get_identity_client().await?; // Start OPAQUE registration and send initial registration request let mut client_login = Login::new(); let opaque_login_request = client_login .start(&password) .map_err(|_| Error::from_reason("Failed to create opaque login request"))?; let login_start_request = OpaqueLoginStartRequest { opaque_login_request, username, device_key_upload: Some(DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: signed_identity_keys_blob.payload, payload_signature: signed_identity_keys_blob.signature, - social_proof: None, }), content_upload: Some(Prekey { prekey: content_prekey, prekey_signature: content_prekey_signature, }), notif_upload: Some(Prekey { prekey: notif_prekey, prekey_signature: notif_prekey_signature, }), one_time_content_prekeys: Vec::new(), one_time_notif_prekeys: Vec::new(), device_type: DeviceType::Keyserver.into(), }), force, }; debug!("Starting login to identity service"); let response = identity_client .log_in_password_user_start(login_start_request) .await .map_err(handle_grpc_error)?; debug!("Received login response from identity service"); let login_start_response = response.into_inner(); let opaque_login_upload = client_login .finish(&login_start_response.opaque_login_response) .map_err(|_| Error::from_reason("Failed to finish opaque login request"))?; let login_finish_request = OpaqueLoginFinishRequest { session_id: login_start_response.session_id, opaque_login_upload, }; debug!("Attempting to finalize opaque login exchange with identity service"); let login_finish_response = identity_client .log_in_password_user_finish(login_finish_request) .await .map_err(handle_grpc_error)? .into_inner(); debug!("Finished login with identity service"); let user_info = UserLoginInfo { user_id: login_finish_response.user_id, access_token: login_finish_response.access_token, }; Ok(user_info) } diff --git a/keyserver/addons/rust-node-addon/src/identity_client/mod.rs b/keyserver/addons/rust-node-addon/src/identity_client/mod.rs index c58ba79bc..6c96f1f49 100644 --- a/keyserver/addons/rust-node-addon/src/identity_client/mod.rs +++ b/keyserver/addons/rust-node-addon/src/identity_client/mod.rs @@ -1,221 +1,217 @@ pub mod add_reserved_usernames; pub mod config; pub mod get_farcaster_users; pub mod get_inbound_keys_for_user; pub mod login; pub mod prekey; pub mod register_user; pub mod remove_reserved_usernames; pub mod upload_one_time_keys; use client_proto::identity_client_service_client::IdentityClientServiceClient; use client_proto::{ AddReservedUsernamesRequest, DeviceKeyUpload, DeviceType, IdentityKeyInfo, Prekey, RegistrationFinishRequest, RegistrationStartRequest, RemoveReservedUsernameRequest, }; use config::get_identity_service_config; use generated::CODE_VERSION; use grpc_clients::identity::authenticated::ChainedInterceptedAuthClient; use grpc_clients::identity::protos::authenticated::{ InboundKeyInfo, UploadOneTimeKeysRequest, }; use grpc_clients::identity::protos::unauthenticated as client_proto; use grpc_clients::identity::shared::CodeVersionLayer; use lazy_static::lazy_static; use napi::bindgen_prelude::*; use serde::{Deserialize, Serialize}; use std::env::var; use tonic::codegen::InterceptedService; use tonic::transport::Channel; use tracing::{self, info, instrument, warn, Level}; use tracing_subscriber::EnvFilter; mod generated { // We get the CODE_VERSION from this generated file include!(concat!(env!("OUT_DIR"), "/version.rs")); } const DEVICE_TYPE: &str = "keyserver"; const ENV_NODE_ENV: &str = "NODE_ENV"; const ENV_DEVELOPMENT: &str = "development"; lazy_static! { static ref IDENTITY_SERVICE_CONFIG: IdentityServiceConfig = { let filter = EnvFilter::builder() .with_default_directive(Level::INFO.into()) .with_env_var(EnvFilter::DEFAULT_ENV) .from_env_lossy(); let subscriber = tracing_subscriber::fmt().with_env_filter(filter).finish(); tracing::subscriber::set_global_default(subscriber) .expect("Unable to configure tracing"); get_identity_service_config() .unwrap_or_else(|_| IdentityServiceConfig::default()) }; } #[derive(Serialize, Deserialize)] #[serde(rename_all = "camelCase")] struct IdentityServiceConfig { identity_socket_addr: String, } impl Default for IdentityServiceConfig { fn default() -> Self { info!("Using default identity configuration based on NODE_ENV"); const DEV_SOCKET_ADDR: &str = "https://identity.staging.commtechnologies.org:50054"; const PROD_SOCKET_ADDR: &str = "https://identity.commtechnologies.org:50054"; let default_socket_addr = match var(ENV_NODE_ENV) { Ok(val) if val == ENV_DEVELOPMENT => DEV_SOCKET_ADDR, _ => PROD_SOCKET_ADDR, } .to_string(); Self { identity_socket_addr: default_socket_addr, } } } async fn get_identity_client() -> Result< IdentityClientServiceClient>, > { info!("Connecting to identity service"); grpc_clients::identity::get_unauthenticated_client( &IDENTITY_SERVICE_CONFIG.identity_socket_addr, CODE_VERSION, DEVICE_TYPE.to_string(), ) .await .map_err(|e| { Error::new( Status::GenericFailure, format!("Unable to connect to identity service: {}", e), ) }) } async fn get_authenticated_identity_client( user_id: String, device_id: String, access_token: String, ) -> Result { info!("Connecting to identity service"); grpc_clients::identity::get_auth_client( &IDENTITY_SERVICE_CONFIG.identity_socket_addr, user_id, device_id, access_token, CODE_VERSION, DEVICE_TYPE.to_string(), ) .await .map_err(|e| { Error::new( Status::GenericFailure, format!("Unable to connect to identity service: {}", e), ) }) } #[napi(object)] pub struct SignedIdentityKeysBlob { pub payload: String, pub signature: String, } #[napi(object)] pub struct UserLoginInfo { pub user_id: String, pub access_token: String, } pub struct DeviceInboundKeyInfo { pub payload: String, pub payload_signature: String, - pub social_proof: Option, pub content_prekey: String, pub content_prekey_signature: String, pub notif_prekey: String, pub notif_prekey_signature: String, } impl TryFrom for DeviceInboundKeyInfo { type Error = Error; fn try_from(key_info: InboundKeyInfo) -> Result { let identity_info = key_info .identity_info .ok_or(Error::from_status(Status::GenericFailure))?; let IdentityKeyInfo { payload, payload_signature, - social_proof, } = identity_info; let content_prekey = key_info .content_prekey .ok_or(Error::from_status(Status::GenericFailure))?; let Prekey { prekey: content_prekey_value, prekey_signature: content_prekey_signature, } = content_prekey; let notif_prekey = key_info .notif_prekey .ok_or(Error::from_status(Status::GenericFailure))?; let Prekey { prekey: notif_prekey_value, prekey_signature: notif_prekey_signature, } = notif_prekey; Ok(Self { payload, payload_signature, - social_proof, content_prekey: content_prekey_value, content_prekey_signature, notif_prekey: notif_prekey_value, notif_prekey_signature, }) } } #[napi(object)] pub struct InboundKeyInfoResponse { pub payload: String, pub payload_signature: String, - pub social_proof: Option, pub content_prekey: String, pub content_prekey_signature: String, pub notif_prekey: String, pub notif_prekey_signature: String, pub username: Option, pub wallet_address: Option, } pub fn handle_grpc_error(error: tonic::Status) -> napi::Error { warn!("Received error: {}", error.message()); Error::new(Status::GenericFailure, error.message()) } #[cfg(test)] mod tests { use super::CODE_VERSION; #[test] fn test_code_version_exists() { assert!(CODE_VERSION > 0); } } diff --git a/keyserver/addons/rust-node-addon/src/identity_client/register_user.rs b/keyserver/addons/rust-node-addon/src/identity_client/register_user.rs index b6d21ab06..54d62c9e8 100644 --- a/keyserver/addons/rust-node-addon/src/identity_client/register_user.rs +++ b/keyserver/addons/rust-node-addon/src/identity_client/register_user.rs @@ -1,86 +1,85 @@ use super::*; use tracing::{debug, warn}; #[napi] #[instrument(skip_all)] pub async fn register_user( username: String, password: String, signed_identity_keys_blob: SignedIdentityKeysBlob, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, content_one_time_keys: Vec, notif_one_time_keys: Vec, ) -> Result { debug!("Attempting to register user: {}", username); // Set up the gRPC client that will be used to talk to the Identity service let mut identity_client = get_identity_client().await?; // Start OPAQUE registration and send initial registration request let mut opaque_registration = comm_opaque2::client::Registration::new(); let opaque_registration_request = opaque_registration .start(&password) .map_err(|_| Error::from_status(Status::GenericFailure))?; let device_key_upload = DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: signed_identity_keys_blob.payload, payload_signature: signed_identity_keys_blob.signature, - social_proof: None, }), content_upload: Some(Prekey { prekey: content_prekey, prekey_signature: content_prekey_signature, }), notif_upload: Some(Prekey { prekey: notif_prekey, prekey_signature: notif_prekey_signature, }), one_time_content_prekeys: content_one_time_keys, one_time_notif_prekeys: notif_one_time_keys, device_type: DeviceType::Keyserver.into(), }; let registration_start_request = RegistrationStartRequest { opaque_registration_request, username, device_key_upload: Some(device_key_upload), farcaster_id: None, }; // Finish OPAQUE registration and send final registration request let response = identity_client .register_password_user_start(registration_start_request) .await .map_err(handle_grpc_error)?; debug!("Received registration start response"); let registration_start_response = response.into_inner(); let opaque_registration_upload = opaque_registration .finish( &password, ®istration_start_response.opaque_registration_response, ) .map_err(|_| Error::from_status(Status::GenericFailure))?; let registration_finish_request = RegistrationFinishRequest { session_id: registration_start_response.session_id, opaque_registration_upload, }; let registration_response = identity_client .register_password_user_finish(registration_finish_request) .await .map_err(handle_grpc_error)? .into_inner(); let user_info = UserLoginInfo { user_id: registration_response.user_id, access_token: registration_response.access_token, }; Ok(user_info) } diff --git a/lib/types/identity-service-types.js b/lib/types/identity-service-types.js index 775e87ae9..3c60015c5 100644 --- a/lib/types/identity-service-types.js +++ b/lib/types/identity-service-types.js @@ -1,249 +1,245 @@ // @flow import t, { type TInterface, type TList } from 'tcomb'; import { identityKeysBlobValidator, type IdentityKeysBlob, signedPrekeysValidator, type SignedPrekeys, type OneTimeKeysResultValues, } from './crypto-types.js'; import { type OlmSessionInitializationInfo, olmSessionInitializationInfoValidator, } from './request-types.js'; import { currentUserInfoValidator, type CurrentUserInfo, } from './user-types.js'; import { tShape } from '../utils/validation-utils.js'; export type UserAuthMetadata = { +userID: string, +accessToken: string, }; // This type should not be altered without also updating OutboundKeyInfoResponse // in native/native_rust_library/src/identity/x3dh.rs export type OutboundKeyInfoResponse = { +payload: string, +payloadSignature: string, - +socialProof: ?string, +contentPrekey: string, +contentPrekeySignature: string, +notifPrekey: string, +notifPrekeySignature: string, +oneTimeContentPrekey: ?string, +oneTimeNotifPrekey: ?string, }; // This type should not be altered without also updating InboundKeyInfoResponse // in native/native_rust_library/src/identity/x3dh.rs export type InboundKeyInfoResponse = { +payload: string, +payloadSignature: string, - +socialProof?: ?string, +contentPrekey: string, +contentPrekeySignature: string, +notifPrekey: string, +notifPrekeySignature: string, +username?: ?string, +walletAddress?: ?string, }; export type DeviceOlmOutboundKeys = { +identityKeysBlob: IdentityKeysBlob, +contentInitializationInfo: OlmSessionInitializationInfo, +notifInitializationInfo: OlmSessionInitializationInfo, +payloadSignature: string, - +socialProof: ?string, }; export const deviceOlmOutboundKeysValidator: TInterface = tShape({ identityKeysBlob: identityKeysBlobValidator, contentInitializationInfo: olmSessionInitializationInfoValidator, notifInitializationInfo: olmSessionInitializationInfoValidator, payloadSignature: t.String, - socialProof: t.maybe(t.String), }); export type UserDevicesOlmOutboundKeys = { +deviceID: string, +keys: ?DeviceOlmOutboundKeys, }; export type DeviceOlmInboundKeys = { +identityKeysBlob: IdentityKeysBlob, +signedPrekeys: SignedPrekeys, +payloadSignature: string, }; export const deviceOlmInboundKeysValidator: TInterface = tShape({ identityKeysBlob: identityKeysBlobValidator, signedPrekeys: signedPrekeysValidator, payloadSignature: t.String, }); export type UserDevicesOlmInboundKeys = { +keys: { +[deviceID: string]: ?DeviceOlmInboundKeys, }, +username?: ?string, +walletAddress?: ?string, }; // This type should not be altered without also updating FarcasterUser in // keyserver/addons/rust-node-addon/src/identity_client/get_farcaster_users.rs export type FarcasterUser = { +userID: string, +username: string, +farcasterID: string, }; export const farcasterUserValidator: TInterface = tShape({ userID: t.String, username: t.String, farcasterID: t.String, }); export const farcasterUsersValidator: TList> = t.list( farcasterUserValidator, ); export const userDeviceOlmInboundKeysValidator: TInterface = tShape({ keys: t.dict(t.String, t.maybe(deviceOlmInboundKeysValidator)), username: t.maybe(t.String), walletAddress: t.maybe(t.String), }); export interface IdentityServiceClient { +deleteUser: () => Promise; +logOut: () => Promise; +getKeyserverKeys: string => Promise; +registerPasswordUser?: ( username: string, password: string, ) => Promise; +logInPasswordUser: ( username: string, password: string, ) => Promise; +getOutboundKeysForUser: ( userID: string, ) => Promise; +getInboundKeysForUser: ( userID: string, ) => Promise; +uploadOneTimeKeys: (oneTimeKeys: OneTimeKeysResultValues) => Promise; +generateNonce: () => Promise; +registerWalletUser?: ( walletAddress: string, siweMessage: string, siweSignature: string, ) => Promise; +logInWalletUser: ( walletAddress: string, siweMessage: string, siweSignature: string, ) => Promise; // on native, publishing prekeys to Identity is called directly from C++, // there is no need to expose it to JS +publishWebPrekeys?: (prekeys: SignedPrekeys) => Promise; +getDeviceListHistoryForUser: ( userID: string, sinceTimestamp?: number, ) => Promise<$ReadOnlyArray>; // updating device list is possible only on Native // web cannot be a primary device, so there's no need to expose it to JS +updateDeviceList?: (newDeviceList: SignedDeviceList) => Promise; +uploadKeysForRegisteredDeviceAndLogIn: ( userID: string, nonceChallengeResponse: SignedMessage, ) => Promise; +getFarcasterUsers: ( farcasterIDs: $ReadOnlyArray, ) => Promise<$ReadOnlyArray>; +linkFarcasterAccount: (farcasterID: string) => Promise; +unlinkFarcasterAccount: () => Promise; } export type IdentityServiceAuthLayer = { +userID: string, +deviceID: string, +commServicesAccessToken: string, }; export type IdentityAuthResult = { +userID: string, +accessToken: string, +username: string, +preRequestUserState?: ?CurrentUserInfo, }; export const identityAuthResultValidator: TInterface = tShape({ userID: t.String, accessToken: t.String, username: t.String, preRequestUserState: t.maybe(currentUserInfoValidator), }); export type IdentityNewDeviceKeyUpload = { +keyPayload: string, +keyPayloadSignature: string, +contentPrekey: string, +contentPrekeySignature: string, +notifPrekey: string, +notifPrekeySignature: string, +contentOneTimeKeys: $ReadOnlyArray, +notifOneTimeKeys: $ReadOnlyArray, }; export type IdentityExistingDeviceKeyUpload = { +keyPayload: string, +keyPayloadSignature: string, +contentPrekey: string, +contentPrekeySignature: string, +notifPrekey: string, +notifPrekeySignature: string, }; // Device list types export type RawDeviceList = { +devices: $ReadOnlyArray, +timestamp: number, }; export type SignedDeviceList = { // JSON-stringified RawDeviceList +rawDeviceList: string, }; export const signedDeviceListValidator: TInterface = tShape({ rawDeviceList: t.String, }); export const signedDeviceListHistoryValidator: TList> = t.list(signedDeviceListValidator); export type NonceChallenge = { +nonce: string, }; export type SignedMessage = { +message: string, +signature: string, }; export const ONE_TIME_KEYS_NUMBER = 10; export const identityDeviceTypes = Object.freeze({ KEYSERVER: 0, WEB: 1, IOS: 2, ANDROID: 3, WINDOWS: 4, MAC_OS: 5, }); diff --git a/native/native_rust_library/src/identity/login.rs b/native/native_rust_library/src/identity/login.rs index b2ac91649..418fc1b10 100644 --- a/native/native_rust_library/src/identity/login.rs +++ b/native/native_rust_library/src/identity/login.rs @@ -1,298 +1,295 @@ use comm_opaque2::client::Login; use grpc_clients::identity::{ get_unauthenticated_client, protos::unauth::{ DeviceKeyUpload, ExistingDeviceLoginRequest, IdentityKeyInfo, OpaqueLoginFinishRequest, OpaqueLoginStartRequest, Prekey, SecondaryDeviceKeysUploadRequest, WalletAuthRequest, }, }; use tracing::instrument; use super::{PasswordUserInfo, UserIDAndDeviceAccessToken, WalletUserInfo}; use crate::utils::jsi_callbacks::handle_string_result_as_callback; use crate::{Error, CODE_VERSION, DEVICE_TYPE, IDENTITY_SOCKET_ADDR, RUNTIME}; pub mod ffi { use super::*; #[instrument] pub fn log_in_password_user( username: String, password: String, key_payload: String, key_payload_signature: String, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, promise_id: u32, ) { RUNTIME.spawn(async move { let password_user_info = PasswordUserInfo { username, password, key_payload, key_payload_signature, content_prekey, content_prekey_signature, notif_prekey, notif_prekey_signature, content_one_time_keys: Vec::new(), notif_one_time_keys: Vec::new(), farcaster_id: None, }; let result = log_in_password_user_helper(password_user_info).await; handle_string_result_as_callback(result, promise_id); }); } #[instrument] pub fn log_in_wallet_user( siwe_message: String, siwe_signature: String, key_payload: String, key_payload_signature: String, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, promise_id: u32, ) { RUNTIME.spawn(async move { let wallet_user_info = WalletUserInfo { siwe_message, siwe_signature, key_payload, key_payload_signature, content_prekey, content_prekey_signature, notif_prekey, notif_prekey_signature, content_one_time_keys: Vec::new(), notif_one_time_keys: Vec::new(), farcaster_id: None, }; let result = log_in_wallet_user_helper(wallet_user_info).await; handle_string_result_as_callback(result, promise_id); }); } // QR code device log in pub fn upload_secondary_device_keys_and_log_in( user_id: String, challenge_response: String, key_payload: String, key_payload_signature: String, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, content_one_time_keys: Vec, notif_one_time_keys: Vec, promise_id: u32, ) { RUNTIME.spawn(async move { let device_key_upload = DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: key_payload, payload_signature: key_payload_signature, - social_proof: None, }), content_upload: Some(Prekey { prekey: content_prekey, prekey_signature: content_prekey_signature, }), notif_upload: Some(Prekey { prekey: notif_prekey, prekey_signature: notif_prekey_signature, }), one_time_content_prekeys: content_one_time_keys, one_time_notif_prekeys: notif_one_time_keys, device_type: DEVICE_TYPE.into(), }; let result = upload_secondary_device_keys_and_log_in_helper( user_id, challenge_response, device_key_upload, ) .await; handle_string_result_as_callback(result, promise_id); }); } pub fn log_in_existing_device( user_id: String, device_id: String, challenge_response: String, promise_id: u32, ) { RUNTIME.spawn(async move { let result = log_in_existing_device_helper(user_id, device_id, challenge_response) .await; handle_string_result_as_callback(result, promise_id); }); } } async fn log_in_password_user_helper( password_user_info: PasswordUserInfo, ) -> Result { let mut client_login = Login::new(); let opaque_login_request = client_login .start(&password_user_info.password) .map_err(crate::handle_error)?; let login_start_request = OpaqueLoginStartRequest { opaque_login_request, username: password_user_info.username, device_key_upload: Some(DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: password_user_info.key_payload, payload_signature: password_user_info.key_payload_signature, - social_proof: None, }), content_upload: Some(Prekey { prekey: password_user_info.content_prekey, prekey_signature: password_user_info.content_prekey_signature, }), notif_upload: Some(Prekey { prekey: password_user_info.notif_prekey, prekey_signature: password_user_info.notif_prekey_signature, }), one_time_content_prekeys: password_user_info.content_one_time_keys, one_time_notif_prekeys: password_user_info.notif_one_time_keys, device_type: DEVICE_TYPE.into(), }), force: None, }; let mut identity_client = get_unauthenticated_client( IDENTITY_SOCKET_ADDR, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let response = identity_client .log_in_password_user_start(login_start_request) .await?; let login_start_response = response.into_inner(); let opaque_login_upload = client_login .finish(&login_start_response.opaque_login_response) .map_err(crate::handle_error)?; let login_finish_request = OpaqueLoginFinishRequest { session_id: login_start_response.session_id, opaque_login_upload, }; let login_finish_response = identity_client .log_in_password_user_finish(login_finish_request) .await? .into_inner(); let user_id_and_access_token = UserIDAndDeviceAccessToken::from(login_finish_response); Ok(serde_json::to_string(&user_id_and_access_token)?) } async fn log_in_wallet_user_helper( wallet_user_info: WalletUserInfo, ) -> Result { let login_request = WalletAuthRequest { siwe_message: wallet_user_info.siwe_message, siwe_signature: wallet_user_info.siwe_signature, device_key_upload: Some(DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: wallet_user_info.key_payload, payload_signature: wallet_user_info.key_payload_signature, - social_proof: None, // The SIWE message and signature are the social proof }), content_upload: Some(Prekey { prekey: wallet_user_info.content_prekey, prekey_signature: wallet_user_info.content_prekey_signature, }), notif_upload: Some(Prekey { prekey: wallet_user_info.notif_prekey, prekey_signature: wallet_user_info.notif_prekey_signature, }), one_time_content_prekeys: wallet_user_info.content_one_time_keys, one_time_notif_prekeys: wallet_user_info.notif_one_time_keys, device_type: DEVICE_TYPE.into(), }), farcaster_id: None, }; let mut identity_client = get_unauthenticated_client( IDENTITY_SOCKET_ADDR, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let login_response = identity_client .log_in_wallet_user(login_request) .await? .into_inner(); let user_id_and_access_token = UserIDAndDeviceAccessToken::from(login_response); Ok(serde_json::to_string(&user_id_and_access_token)?) } async fn upload_secondary_device_keys_and_log_in_helper( user_id: String, challenge_response: String, device_key_upload: DeviceKeyUpload, ) -> Result { let mut identity_client = get_unauthenticated_client( IDENTITY_SOCKET_ADDR, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let request = SecondaryDeviceKeysUploadRequest { user_id, challenge_response, device_key_upload: Some(device_key_upload), }; let response = identity_client .upload_keys_for_registered_device_and_log_in(request) .await? .into_inner(); let user_id_and_access_token = UserIDAndDeviceAccessToken::from(response); Ok(serde_json::to_string(&user_id_and_access_token)?) } async fn log_in_existing_device_helper( user_id: String, device_id: String, challenge_response: String, ) -> Result { let mut identity_client = get_unauthenticated_client( IDENTITY_SOCKET_ADDR, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let request = ExistingDeviceLoginRequest { user_id, device_id, challenge_response, }; let response = identity_client .log_in_existing_device(request) .await? .into_inner(); let user_id_and_access_token = UserIDAndDeviceAccessToken::from(response); Ok(serde_json::to_string(&user_id_and_access_token)?) } diff --git a/native/native_rust_library/src/identity/registration.rs b/native/native_rust_library/src/identity/registration.rs index bf9619723..d4d97c168 100644 --- a/native/native_rust_library/src/identity/registration.rs +++ b/native/native_rust_library/src/identity/registration.rs @@ -1,200 +1,198 @@ use crate::{ utils::jsi_callbacks::handle_string_result_as_callback, Error, CODE_VERSION, DEVICE_TYPE, IDENTITY_SOCKET_ADDR, RUNTIME, }; use comm_opaque2::client::Registration; use grpc_clients::identity::{ get_unauthenticated_client, protos::unauth::{ DeviceKeyUpload, IdentityKeyInfo, Prekey, RegistrationFinishRequest, RegistrationStartRequest, WalletAuthRequest, }, }; use tracing::instrument; use super::{ farcaster::farcaster_id_string_to_option, PasswordUserInfo, UserIDAndDeviceAccessToken, WalletUserInfo, }; pub mod ffi { use super::*; #[instrument] pub fn register_password_user( username: String, password: String, key_payload: String, key_payload_signature: String, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, content_one_time_keys: Vec, notif_one_time_keys: Vec, farcaster_id: String, promise_id: u32, ) { RUNTIME.spawn(async move { let password_user_info = PasswordUserInfo { username, password, key_payload, key_payload_signature, content_prekey, content_prekey_signature, notif_prekey, notif_prekey_signature, content_one_time_keys, notif_one_time_keys, farcaster_id: farcaster_id_string_to_option(&farcaster_id), }; let result = register_password_user_helper(password_user_info).await; handle_string_result_as_callback(result, promise_id); }); } #[instrument] pub fn register_wallet_user( siwe_message: String, siwe_signature: String, key_payload: String, key_payload_signature: String, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, content_one_time_keys: Vec, notif_one_time_keys: Vec, farcaster_id: String, promise_id: u32, ) { RUNTIME.spawn(async move { let wallet_user_info = WalletUserInfo { siwe_message, siwe_signature, key_payload, key_payload_signature, content_prekey, content_prekey_signature, notif_prekey, notif_prekey_signature, content_one_time_keys, notif_one_time_keys, farcaster_id: farcaster_id_string_to_option(&farcaster_id), }; let result = register_wallet_user_helper(wallet_user_info).await; handle_string_result_as_callback(result, promise_id); }); } } async fn register_password_user_helper( password_user_info: PasswordUserInfo, ) -> Result { let mut client_registration = Registration::new(); let opaque_registration_request = client_registration .start(&password_user_info.password) .map_err(crate::handle_error)?; let registration_start_request = RegistrationStartRequest { opaque_registration_request, username: password_user_info.username, device_key_upload: Some(DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: password_user_info.key_payload, payload_signature: password_user_info.key_payload_signature, - social_proof: None, }), content_upload: Some(Prekey { prekey: password_user_info.content_prekey, prekey_signature: password_user_info.content_prekey_signature, }), notif_upload: Some(Prekey { prekey: password_user_info.notif_prekey, prekey_signature: password_user_info.notif_prekey_signature, }), one_time_content_prekeys: password_user_info.content_one_time_keys, one_time_notif_prekeys: password_user_info.notif_one_time_keys, device_type: DEVICE_TYPE.into(), }), farcaster_id: password_user_info.farcaster_id, }; let mut identity_client = get_unauthenticated_client( IDENTITY_SOCKET_ADDR, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let response = identity_client .register_password_user_start(registration_start_request) .await?; let registration_start_response = response.into_inner(); let opaque_registration_upload = client_registration .finish( &password_user_info.password, ®istration_start_response.opaque_registration_response, ) .map_err(crate::handle_error)?; let registration_finish_request = RegistrationFinishRequest { session_id: registration_start_response.session_id, opaque_registration_upload, }; let registration_finish_response = identity_client .register_password_user_finish(registration_finish_request) .await? .into_inner(); let user_id_and_access_token = UserIDAndDeviceAccessToken::from(registration_finish_response); Ok(serde_json::to_string(&user_id_and_access_token)?) } async fn register_wallet_user_helper( wallet_user_info: WalletUserInfo, ) -> Result { let registration_request = WalletAuthRequest { siwe_message: wallet_user_info.siwe_message, siwe_signature: wallet_user_info.siwe_signature, device_key_upload: Some(DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: wallet_user_info.key_payload, payload_signature: wallet_user_info.key_payload_signature, - social_proof: None, // The SIWE message and signature are the social proof }), content_upload: Some(Prekey { prekey: wallet_user_info.content_prekey, prekey_signature: wallet_user_info.content_prekey_signature, }), notif_upload: Some(Prekey { prekey: wallet_user_info.notif_prekey, prekey_signature: wallet_user_info.notif_prekey_signature, }), one_time_content_prekeys: wallet_user_info.content_one_time_keys, one_time_notif_prekeys: wallet_user_info.notif_one_time_keys, device_type: DEVICE_TYPE.into(), }), farcaster_id: wallet_user_info.farcaster_id, }; let mut identity_client = get_unauthenticated_client( IDENTITY_SOCKET_ADDR, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let registration_response = identity_client .register_wallet_user(registration_request) .await? .into_inner(); let user_id_and_access_token = UserIDAndDeviceAccessToken { user_id: registration_response.user_id, access_token: registration_response.access_token, }; Ok(serde_json::to_string(&user_id_and_access_token)?) } diff --git a/native/native_rust_library/src/identity/x3dh.rs b/native/native_rust_library/src/identity/x3dh.rs index da6dbdaaf..261af7b92 100644 --- a/native/native_rust_library/src/identity/x3dh.rs +++ b/native/native_rust_library/src/identity/x3dh.rs @@ -1,400 +1,394 @@ use grpc_clients::identity::get_auth_client; use grpc_clients::identity::protos::authenticated::{ InboundKeyInfo, InboundKeysForUserRequest, KeyserverKeysResponse, OutboundKeyInfo, OutboundKeysForUserRequest, RefreshUserPrekeysRequest, UploadOneTimeKeysRequest, }; use grpc_clients::identity::protos::unauth::{IdentityKeyInfo, Prekey}; use serde::Serialize; use tracing::instrument; use crate::identity::AuthInfo; use crate::utils::jsi_callbacks::{ handle_string_result_as_callback, handle_void_result_as_callback, }; use crate::{Error, CODE_VERSION, DEVICE_TYPE, IDENTITY_SOCKET_ADDR, RUNTIME}; pub mod ffi { use super::*; pub fn get_outbound_keys_for_user( auth_user_id: String, auth_device_id: String, auth_access_token: String, user_id: String, promise_id: u32, ) { RUNTIME.spawn(async move { let get_outbound_keys_request_info = GetOutboundKeysRequestInfo { user_id }; let auth_info = AuthInfo { access_token: auth_access_token, user_id: auth_user_id, device_id: auth_device_id, }; let result = get_outbound_keys_for_user_helper( get_outbound_keys_request_info, auth_info, ) .await; handle_string_result_as_callback(result, promise_id); }); } pub fn get_inbound_keys_for_user( auth_user_id: String, auth_device_id: String, auth_access_token: String, user_id: String, promise_id: u32, ) { RUNTIME.spawn(async move { let get_inbound_keys_request_info = GetInboundKeysRequestInfo { user_id }; let auth_info = AuthInfo { access_token: auth_access_token, user_id: auth_user_id, device_id: auth_device_id, }; let result = get_inbound_keys_for_user_helper( get_inbound_keys_request_info, auth_info, ) .await; handle_string_result_as_callback(result, promise_id); }); } pub fn get_keyserver_keys( user_id: String, device_id: String, access_token: String, keyserver_id: String, promise_id: u32, ) { RUNTIME.spawn(async move { let get_keyserver_keys_request = OutboundKeysForUserRequest { user_id: keyserver_id, }; let auth_info = AuthInfo { access_token, user_id, device_id, }; let result = get_keyserver_keys_helper(get_keyserver_keys_request, auth_info).await; handle_string_result_as_callback(result, promise_id); }); } pub fn refresh_user_prekeys( auth_user_id: String, auth_device_id: String, auth_access_token: String, content_prekey: String, content_prekey_signature: String, notif_prekey: String, notif_prekey_signature: String, promise_id: u32, ) { RUNTIME.spawn(async move { let refresh_request = RefreshUserPrekeysRequest { new_content_prekeys: Some(Prekey { prekey: content_prekey, prekey_signature: content_prekey_signature, }), new_notif_prekeys: Some(Prekey { prekey: notif_prekey, prekey_signature: notif_prekey_signature, }), }; let auth_info = AuthInfo { access_token: auth_access_token, user_id: auth_user_id, device_id: auth_device_id, }; let result = refresh_user_prekeys_helper(refresh_request, auth_info).await; handle_void_result_as_callback(result, promise_id); }); } #[instrument] pub fn upload_one_time_keys( auth_user_id: String, auth_device_id: String, auth_access_token: String, content_one_time_keys: Vec, notif_one_time_keys: Vec, promise_id: u32, ) { RUNTIME.spawn(async move { let upload_request = UploadOneTimeKeysRequest { content_one_time_prekeys: content_one_time_keys, notif_one_time_prekeys: notif_one_time_keys, }; let auth_info = AuthInfo { access_token: auth_access_token, user_id: auth_user_id, device_id: auth_device_id, }; let result = upload_one_time_keys_helper(auth_info, upload_request).await; handle_void_result_as_callback(result, promise_id); }); } } // helper structs struct GetOutboundKeysRequestInfo { user_id: String, } struct GetInboundKeysRequestInfo { user_id: String, } // This struct should not be altered without also updating // OutboundKeyInfoResponse in lib/types/identity-service-types.js #[derive(Serialize)] #[serde(rename_all = "camelCase")] struct OutboundKeyInfoResponse { pub payload: String, pub payload_signature: String, - pub social_proof: Option, pub content_prekey: String, pub content_prekey_signature: String, pub notif_prekey: String, pub notif_prekey_signature: String, pub one_time_content_prekey: Option, pub one_time_notif_prekey: Option, } // This struct should not be altered without also updating // InboundKeyInfoResponse in lib/types/identity-service-types.js #[derive(Serialize)] #[serde(rename_all = "camelCase")] struct InboundKeyInfoResponse { pub payload: String, pub payload_signature: String, - pub social_proof: Option, pub content_prekey: String, pub content_prekey_signature: String, pub notif_prekey: String, pub notif_prekey_signature: String, } impl TryFrom for OutboundKeyInfoResponse { type Error = Error; fn try_from(key_info: OutboundKeyInfo) -> Result { let identity_info = key_info.identity_info.ok_or(Error::MissingResponseData)?; let IdentityKeyInfo { payload, payload_signature, - social_proof, } = identity_info; let content_prekey = key_info.content_prekey.ok_or(Error::MissingResponseData)?; let Prekey { prekey: content_prekey_value, prekey_signature: content_prekey_signature, } = content_prekey; let notif_prekey = key_info.notif_prekey.ok_or(Error::MissingResponseData)?; let Prekey { prekey: notif_prekey_value, prekey_signature: notif_prekey_signature, } = notif_prekey; let one_time_content_prekey = key_info.one_time_content_prekey; let one_time_notif_prekey = key_info.one_time_notif_prekey; Ok(Self { payload, payload_signature, - social_proof, content_prekey: content_prekey_value, content_prekey_signature, notif_prekey: notif_prekey_value, notif_prekey_signature, one_time_content_prekey, one_time_notif_prekey, }) } } impl TryFrom for OutboundKeyInfoResponse { type Error = Error; fn try_from(response: KeyserverKeysResponse) -> Result { let key_info = response.keyserver_info.ok_or(Error::MissingResponseData)?; Self::try_from(key_info) } } impl TryFrom for InboundKeyInfoResponse { type Error = Error; fn try_from(key_info: InboundKeyInfo) -> Result { let identity_info = key_info.identity_info.ok_or(Error::MissingResponseData)?; let IdentityKeyInfo { payload, payload_signature, - social_proof, } = identity_info; let content_prekey = key_info.content_prekey.ok_or(Error::MissingResponseData)?; let Prekey { prekey: content_prekey_value, prekey_signature: content_prekey_signature, } = content_prekey; let notif_prekey = key_info.notif_prekey.ok_or(Error::MissingResponseData)?; let Prekey { prekey: notif_prekey_value, prekey_signature: notif_prekey_signature, } = notif_prekey; Ok(Self { payload, payload_signature, - social_proof, content_prekey: content_prekey_value, content_prekey_signature, notif_prekey: notif_prekey_value, notif_prekey_signature, }) } } async fn get_outbound_keys_for_user_helper( get_outbound_keys_request_info: GetOutboundKeysRequestInfo, auth_info: AuthInfo, ) -> Result { let mut identity_client = get_auth_client( IDENTITY_SOCKET_ADDR, auth_info.user_id, auth_info.device_id, auth_info.access_token, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let response = identity_client .get_outbound_keys_for_user(OutboundKeysForUserRequest { user_id: get_outbound_keys_request_info.user_id, }) .await? .into_inner(); let outbound_key_info: Vec = response .devices .into_values() .map(OutboundKeyInfoResponse::try_from) .collect::, _>>()?; Ok(serde_json::to_string(&outbound_key_info)?) } async fn get_inbound_keys_for_user_helper( get_inbound_keys_request_info: GetInboundKeysRequestInfo, auth_info: AuthInfo, ) -> Result { let mut identity_client = get_auth_client( IDENTITY_SOCKET_ADDR, auth_info.user_id, auth_info.device_id, auth_info.access_token, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let response = identity_client .get_inbound_keys_for_user(InboundKeysForUserRequest { user_id: get_inbound_keys_request_info.user_id, }) .await? .into_inner(); let inbound_key_info: Vec = response .devices .into_values() .map(InboundKeyInfoResponse::try_from) .collect::, _>>()?; Ok(serde_json::to_string(&inbound_key_info)?) } async fn get_keyserver_keys_helper( get_keyserver_keys_request: OutboundKeysForUserRequest, auth_info: AuthInfo, ) -> Result { let mut identity_client = get_auth_client( IDENTITY_SOCKET_ADDR, auth_info.user_id, auth_info.device_id, auth_info.access_token, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; let response = identity_client .get_keyserver_keys(get_keyserver_keys_request) .await? .into_inner(); let keyserver_keys = OutboundKeyInfoResponse::try_from(response)?; Ok(serde_json::to_string(&keyserver_keys)?) } async fn refresh_user_prekeys_helper( refresh_request: RefreshUserPrekeysRequest, auth_info: AuthInfo, ) -> Result<(), Error> { get_auth_client( IDENTITY_SOCKET_ADDR, auth_info.user_id, auth_info.device_id, auth_info.access_token, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await? .refresh_user_prekeys(refresh_request) .await?; Ok(()) } async fn upload_one_time_keys_helper( auth_info: AuthInfo, upload_request: UploadOneTimeKeysRequest, ) -> Result<(), Error> { let mut identity_client = get_auth_client( IDENTITY_SOCKET_ADDR, auth_info.user_id, auth_info.device_id, auth_info.access_token, CODE_VERSION, DEVICE_TYPE.as_str_name().to_lowercase(), ) .await?; identity_client.upload_one_time_keys(upload_request).await?; Ok(()) } diff --git a/services/commtest/src/identity/device.rs b/services/commtest/src/identity/device.rs index 92fb83361..1dd58e89e 100644 --- a/services/commtest/src/identity/device.rs +++ b/services/commtest/src/identity/device.rs @@ -1,229 +1,227 @@ use comm_opaque2::client::{Login, Registration}; use grpc_clients::identity::{get_auth_client, get_unauthenticated_client}; use rand::{distributions::Alphanumeric, Rng}; use crate::identity::olm_account_infos::{ ClientPublicKeys, DEFAULT_CLIENT_KEYS, }; use crate::service_addr; use grpc_clients::identity::protos::unauth::{ DeviceKeyUpload, DeviceType, Empty, IdentityKeyInfo, OpaqueLoginFinishRequest, OpaqueLoginStartRequest, Prekey, RegistrationFinishRequest, RegistrationStartRequest, VerifyUserAccessTokenRequest, }; pub const PLACEHOLDER_CODE_VERSION: u64 = 0; pub const DEVICE_TYPE: &str = "service"; const PASSWORD: &str = "pass"; pub struct DeviceInfo { pub username: String, pub user_id: String, pub device_id: String, pub access_token: String, } impl From<&DeviceInfo> for VerifyUserAccessTokenRequest { fn from(value: &DeviceInfo) -> Self { Self { user_id: value.user_id.to_string(), device_id: value.device_id.to_string(), access_token: value.access_token.to_string(), } } } /// Register a new user with a device. /// - Gives random username (returned by function). /// - Device type defaults to keyserver. /// - Device ID taken from `keys` (ed25519), see [`DEFAULT_CLIENT_KEYS`] pub async fn register_user_device( keys: Option<&ClientPublicKeys>, device_type: Option, ) -> DeviceInfo { let username: String = rand::thread_rng() .sample_iter(&Alphanumeric) .take(7) .map(char::from) .collect(); // TODO: Generate dynamic valid olm account info let keys = keys.unwrap_or_else(|| &DEFAULT_CLIENT_KEYS); let example_payload = serde_json::to_string(&keys).expect("Failed to serialize example payload"); // The ed25519 value from the olm payload let device_id = &keys.primary_identity_public_keys.ed25519; let device_type = device_type.unwrap_or(DeviceType::Keyserver); let mut client_registration = Registration::new(); let opaque_registration_request = client_registration.start(PASSWORD).unwrap(); let registration_start_request = RegistrationStartRequest { opaque_registration_request, username: username.to_string(), device_key_upload: Some(DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: example_payload.to_string(), payload_signature: "foo".to_string(), - social_proof: None, }), content_upload: Some(Prekey { prekey: "content_prekey".to_string(), prekey_signature: "content_prekey_sig".to_string(), }), notif_upload: Some(Prekey { prekey: "notif_prekey".to_string(), prekey_signature: "notif_prekey_sig".to_string(), }), one_time_content_prekeys: Vec::new(), one_time_notif_prekeys: Vec::new(), device_type: device_type.into(), }), farcaster_id: None, }; let mut identity_client = get_unauthenticated_client( &service_addr::IDENTITY_GRPC.to_string(), PLACEHOLDER_CODE_VERSION, DEVICE_TYPE.to_string(), ) .await .expect("Couldn't connect to identity service"); let registration_start_response = identity_client .register_password_user_start(registration_start_request) .await .unwrap() .into_inner(); let opaque_registration_upload = client_registration .finish( PASSWORD, ®istration_start_response.opaque_registration_response, ) .unwrap(); let registration_finish_request = RegistrationFinishRequest { session_id: registration_start_response.session_id, opaque_registration_upload, }; let registration_finish_response = identity_client .register_password_user_finish(registration_finish_request) .await .unwrap() .into_inner(); DeviceInfo { username: username.to_string(), device_id: device_id.to_string(), user_id: registration_finish_response.user_id, access_token: registration_finish_response.access_token, } } /// Log in existing user with a device. /// - Tries to log in with given username (it has to be already registered) /// - Device type defaults to keyserver. /// - Device ID taken from `keys` (ed25519), see [`DEFAULT_CLIENT_KEYS`] pub async fn login_user_device( username: &str, keys: Option<&ClientPublicKeys>, device_type: Option, force: bool, ) -> DeviceInfo { // TODO: Generate dynamic valid olm account info let keys = keys.unwrap_or_else(|| &DEFAULT_CLIENT_KEYS); let example_payload = serde_json::to_string(&keys).expect("Failed to serialize example payload"); // The ed25519 value from the olm payload let device_id = &keys.primary_identity_public_keys.ed25519; let device_type = device_type.unwrap_or(DeviceType::Keyserver); let mut client_login = Login::new(); let opaque_login_request = client_login.start(PASSWORD).unwrap(); let login_start_request = OpaqueLoginStartRequest { opaque_login_request, username: username.to_string(), device_key_upload: Some(DeviceKeyUpload { device_key_info: Some(IdentityKeyInfo { payload: example_payload.to_string(), payload_signature: "foo".to_string(), - social_proof: None, }), content_upload: Some(Prekey { prekey: "content_prekey".to_string(), prekey_signature: "content_prekey_sig".to_string(), }), notif_upload: Some(Prekey { prekey: "notif_prekey".to_string(), prekey_signature: "notif_prekey_sig".to_string(), }), one_time_content_prekeys: Vec::new(), one_time_notif_prekeys: Vec::new(), device_type: device_type.into(), }), force: Some(force), }; let mut identity_client = get_unauthenticated_client( &service_addr::IDENTITY_GRPC.to_string(), PLACEHOLDER_CODE_VERSION, DEVICE_TYPE.to_string(), ) .await .expect("Couldn't connect to identity service"); let login_start_response = identity_client .log_in_password_user_start(login_start_request) .await .unwrap() .into_inner(); let opaque_login_upload = client_login .finish(&login_start_response.opaque_login_response) .unwrap(); let login_finish_request = OpaqueLoginFinishRequest { session_id: login_start_response.session_id, opaque_login_upload, }; let login_finish_response = identity_client .log_in_password_user_finish(login_finish_request) .await .unwrap() .into_inner(); DeviceInfo { username: username.to_string(), device_id: device_id.to_string(), user_id: login_finish_response.user_id, access_token: login_finish_response.access_token, } } pub async fn logout_user_device(device_info: DeviceInfo) { let DeviceInfo { user_id, device_id, access_token, .. } = device_info; let mut client = get_auth_client( &service_addr::IDENTITY_GRPC.to_string(), user_id, device_id, access_token, PLACEHOLDER_CODE_VERSION, DEVICE_TYPE.to_string(), ) .await .expect("Couldnt connect to auth identity service"); client .log_out_user(Empty {}) .await .expect("Failed to logout user"); } diff --git a/services/identity/src/database.rs b/services/identity/src/database.rs index ccb070edb..fefbfc9e2 100644 --- a/services/identity/src/database.rs +++ b/services/identity/src/database.rs @@ -1,1447 +1,1432 @@ use comm_lib::aws::ddb::{ operation::{ delete_item::DeleteItemOutput, get_item::GetItemOutput, put_item::PutItemOutput, query::QueryOutput, }, primitives::Blob, types::{AttributeValue, PutRequest, ReturnConsumedCapacity, WriteRequest}, }; use comm_lib::aws::{AwsConfig, DynamoDBClient}; use comm_lib::database::{ AttributeExtractor, AttributeMap, DBItemAttributeError, DBItemError, TryFromAttribute, }; use constant_time_eq::constant_time_eq; use std::collections::{HashMap, HashSet}; use std::str::FromStr; use std::sync::Arc; use crate::{ constants::USERS_TABLE_SOCIAL_PROOF_ATTRIBUTE_NAME, ddb_utils::EthereumIdentity, reserved_users::UserDetail, siwe::SocialProof, }; use crate::{ ddb_utils::{ create_one_time_key_partition_key, into_one_time_put_requests, Identifier, OlmAccountType, }, grpc_services::protos, }; use crate::{ error::{consume_error, Error}, grpc_utils::DeviceKeysInfo, }; 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, NONCE_TABLE, NONCE_TABLE_CREATED_ATTRIBUTE, NONCE_TABLE_EXPIRATION_TIME_ATTRIBUTE, NONCE_TABLE_EXPIRATION_TIME_UNIX_ATTRIBUTE, NONCE_TABLE_PARTITION_KEY, RESERVED_USERNAMES_TABLE, RESERVED_USERNAMES_TABLE_PARTITION_KEY, RESERVED_USERNAMES_TABLE_USER_ID_ATTRIBUTE, USERS_TABLE, USERS_TABLE_DEVICES_MAP_DEVICE_TYPE_ATTRIBUTE_NAME, USERS_TABLE_FARCASTER_ID_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::id::generate_uuid; use crate::nonce::NonceData; use crate::token::{AccessTokenData, AuthType}; pub use grpc_clients::identity::DeviceType; mod device_list; mod farcaster; mod workflows; pub use device_list::{DeviceListRow, DeviceListUpdate, DeviceRow}; use self::device_list::Prekey; #[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())).into(), attribute_error: DBItemAttributeError::InvalidValue, }) }) } } 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, } impl From for protos::auth::OutboundKeyInfo { fn from(db_keys: OutboundKeys) -> Self { use protos::unauth::IdentityKeyInfo; Self { 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(db_keys.content_prekey.into()), notif_prekey: Some(db_keys.notif_prekey.into()), one_time_content_prekey: db_keys.content_one_time_key, one_time_notif_prekey: db_keys.notif_one_time_key, } } } #[derive(Clone)] pub struct DatabaseClient { client: Arc, } impl DatabaseClient { pub fn new(aws_config: &AwsConfig) -> Self { let client = match &CONFIG.localstack_endpoint { Some(endpoint) => { info!( "Configuring DynamoDB client to use LocalStack endpoint: {}", endpoint ); let ddb_config_builder = comm_lib::aws::ddb::config::Builder::from(aws_config) .endpoint_url(endpoint); DynamoDBClient::from_conf(ddb_config_builder.build()) } None => DynamoDBClient::new(aws_config), }; DatabaseClient { client: Arc::new(client), } } pub async fn add_password_user_to_users_table( &self, registration_state: UserRegistrationInfo, password_file: Vec, code_version: u64, access_token_creation_time: DateTime, ) -> Result { let device_key_upload = registration_state.flattened_device_key_upload; let user_id = self .add_user_to_users_table( device_key_upload.clone(), Some((registration_state.username, Blob::new(password_file))), None, registration_state.user_id, registration_state.farcaster_id, ) .await?; self .add_device( &user_id, device_key_upload, code_version, access_token_creation_time, ) .await?; Ok(user_id) } pub async fn add_wallet_user_to_users_table( &self, flattened_device_key_upload: FlattenedDeviceKeyUpload, wallet_address: String, social_proof: SocialProof, user_id: Option, code_version: u64, access_token_creation_time: DateTime, farcaster_id: Option, ) -> Result { let wallet_identity = EthereumIdentity { wallet_address, social_proof, }; let user_id = self .add_user_to_users_table( flattened_device_key_upload.clone(), None, Some(wallet_identity), user_id, farcaster_id, ) .await?; self .add_device( &user_id, flattened_device_key_upload, code_version, access_token_creation_time, ) .await?; Ok(user_id) } async fn add_user_to_users_table( &self, flattened_device_key_upload: FlattenedDeviceKeyUpload, username_and_password_file: Option<(String, Blob)>, wallet_identity: Option, user_id: Option, farcaster_id: Option, ) -> Result { let user_id = user_id.unwrap_or_else(generate_uuid); let mut user = HashMap::from([( USERS_TABLE_PARTITION_KEY.to_string(), AttributeValue::S(user_id.clone()), )]); 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(eth_identity) = wallet_identity { user.insert( USERS_TABLE_WALLET_ADDRESS_ATTRIBUTE.to_string(), AttributeValue::S(eth_identity.wallet_address), ); user.insert( USERS_TABLE_SOCIAL_PROOF_ATTRIBUTE_NAME.to_string(), eth_identity.social_proof.into(), ); } if let Some(fid) = farcaster_id { user.insert( USERS_TABLE_FARCASTER_ID_ATTRIBUTE_NAME.to_string(), AttributeValue::S(fid), ); } 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_user_device( &self, user_id: String, flattened_device_key_upload: FlattenedDeviceKeyUpload, code_version: u64, access_token_creation_time: DateTime, ) -> Result<(), Error> { 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(); // add device to the device list if not exists let device_id = flattened_device_key_upload.device_id_key.clone(); let device_exists = self .device_exists(user_id.clone(), device_id.clone()) .await?; if device_exists { self .update_device_login_time( user_id.clone(), device_id, access_token_creation_time, ) .await?; return Ok(()); } // add device to the new device list self .add_device( user_id, flattened_device_key_upload, code_version, access_token_creation_time, ) .await?; self .append_one_time_prekeys( device_id, content_one_time_keys, notif_one_time_keys, ) .await?; Ok(()) } pub async fn get_keyserver_keys_for_user( &self, user_id: &str, ) -> Result, Error> { use crate::grpc_services::protos::unauth::DeviceType as GrpcDeviceType; - // 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 mut user_info = self - .get_item_from_users_table(user_id) - .await? - .item - .ok_or(Error::MissingItem)?; - - let user_id: String = user_info.take_attr(USERS_TABLE_PARTITION_KEY)?; - let social_proof: Option = - user_info.take_attr(USERS_TABLE_SOCIAL_PROOF_ATTRIBUTE_NAME)?; let user_devices = self.get_current_devices(user_id).await?; let maybe_keyserver_device = user_devices .into_iter() .find(|device| device.device_type == GrpcDeviceType::Keyserver); let Some(keyserver) = maybe_keyserver_device else { return Ok(None); }; debug!( "Found keyserver in devices table (ID={})", &keyserver.device_id ); let notif_one_time_key: Option = self .get_one_time_key(&keyserver.device_id, OlmAccountType::Notification) .await?; let content_one_time_key: Option = self .get_one_time_key(&keyserver.device_id, OlmAccountType::Content) .await?; debug!( "Able to get notif one-time key for keyserver {}: {}", &keyserver.device_id, notif_one_time_key.is_some() ); debug!( "Able to get content one-time key for keyserver {}: {}", &keyserver.device_id, content_one_time_key.is_some() ); let outbound_payload = OutboundKeys { key_payload: keyserver.device_key_info.key_payload, key_payload_signature: keyserver.device_key_info.key_payload_signature, - social_proof, content_prekey: keyserver.content_prekey, notif_prekey: keyserver.notif_prekey, content_one_time_key, notif_one_time_key, }; Ok(Some(outbound_payload)) } pub async fn get_keyserver_device_id_for_user( &self, user_id: &str, ) -> Result, Error> { use crate::grpc_services::protos::unauth::DeviceType as GrpcDeviceType; let user_devices = self.get_current_devices(user_id).await?; let maybe_keyserver_device_id = user_devices .into_iter() .find(|device| device.device_type == GrpcDeviceType::Keyserver) .map(|device| device.device_id); Ok(maybe_keyserver_device_id) } /// 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: String = item.get_attr(otk_table::PARTITION_KEY)?; let otk: String = item.get_attr(otk_table::SORT_KEY)?; let composite_key = HashMap::from([ (otk_table::PARTITION_KEY.to_string(), AttributeValue::S(pk)), ( otk_table::SORT_KEY.to_string(), AttributeValue::S(otk.clone()), ), ]); 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); 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(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 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(()) } 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 = DateTime::::try_from_attr( 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, user_details: Vec, ) -> Result, Error> { let db_usernames = self.get_all_usernames().await?; let db_usernames_set: HashSet = db_usernames.into_iter().collect(); let available_user_details: Vec = user_details .into_iter() .filter(|user_detail| !db_usernames_set.contains(&user_detail.username)) .collect(); Ok(available_user_details) } 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.into(), 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() .into(), 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( &self, user_id: &str, get_one_time_keys: bool, ) -> Result, Error> { let mut devices_response = self.get_keys_for_user_devices(user_id).await?; if devices_response.is_empty() { debug!("No devices found for user {}", user_id); return Ok(None); } if get_one_time_keys { for (device_id_key, device_keys) in devices_response.iter_mut() { device_keys.notif_one_time_key = self .get_one_time_key(device_id_key, OlmAccountType::Notification) .await?; device_keys.content_one_time_key = self .get_one_time_key(device_id_key, OlmAccountType::Content) .await?; } } 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)) => user .take_attr(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 = user.take_attr(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())) } /// Retrieves username for password users or wallet address for wallet users /// Returns `None` if user not found pub async fn get_user_identifier( &self, user_id: &str, ) -> Result, Error> { self .get_item_from_users_table(user_id) .await? .item .map(Identifier::try_from) .transpose() .map_err(|e| { error!(user_id, "Database item is missing an identifier"); e }) } 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) = attribute.take_attr(USERS_TABLE_USERNAME_ATTRIBUTE) { result.push(username); } } } Ok(result) } pub async fn get_all_user_details(&self) -> Result, Error> { let scan_output = self .client .scan() .table_name(USERS_TABLE) .projection_expression(format!( "{USERS_TABLE_USERNAME_ATTRIBUTE}, {USERS_TABLE_PARTITION_KEY}" )) .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), Ok(user_id)) = ( attribute.take_attr(USERS_TABLE_USERNAME_ATTRIBUTE), attribute.take_attr(USERS_TABLE_PARTITION_KEY), ) { result.push(UserDetail { username, user_id }); } } } Ok(result) } pub async fn get_all_reserved_user_details( &self, ) -> Result, Error> { let scan_output = self .client .scan() .table_name(RESERVED_USERNAMES_TABLE) .projection_expression(format!( "{RESERVED_USERNAMES_TABLE_PARTITION_KEY},\ {RESERVED_USERNAMES_TABLE_USER_ID_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), Ok(user_id)) = ( attribute.take_attr(USERS_TABLE_USERNAME_ATTRIBUTE), attribute.take_attr(RESERVED_USERNAMES_TABLE_USER_ID_ATTRIBUTE), ) { result.push(UserDetail { username, user_id }); } } } 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 = item.take_attr(NONCE_TABLE_PARTITION_KEY)?; let created = DateTime::::try_from_attr( NONCE_TABLE_CREATED_ATTRIBUTE, item.remove(NONCE_TABLE_CREATED_ATTRIBUTE), )?; let expiration_time = DateTime::::try_from_attr( NONCE_TABLE_EXPIRATION_TIME_ATTRIBUTE, item.remove(NONCE_TABLE_EXPIRATION_TIME_ATTRIBUTE), )?; 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, user_details: Vec, ) -> Result<(), Error> { // A single call to BatchWriteItem can consist of up to 25 operations for user_chunk in user_details.chunks(25) { let write_requests = user_chunk .iter() .map(|user_detail| { let put_request = PutRequest::builder() .item( RESERVED_USERNAMES_TABLE_PARTITION_KEY, AttributeValue::S(user_detail.username.to_string()), ) .item( RESERVED_USERNAMES_TABLE_USER_ID_ATTRIBUTE, AttributeValue::S(user_detail.user_id.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; 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_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.into(), DBItemAttributeError::IncorrectType, )), } } else { Err(DBItemError::new( ACCESS_TOKEN_TABLE_AUTH_TYPE_ATTRIBUTE.to_string(), attribute.into(), 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.into(), DBItemAttributeError::IncorrectType, )), None => Err(DBItemError::new( ACCESS_TOKEN_TABLE_VALID_ATTRIBUTE.to_string(), attribute.into(), 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.into(), DBItemAttributeError::IncorrectType, )), None => Err(DBItemError::new( ACCESS_TOKEN_TABLE_TOKEN_ATTRIBUTE.to_string(), attribute.into(), 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.into(), DBItemAttributeError::IncorrectType, )), None => Err(DBItemError::new( USERS_TABLE_REGISTRATION_ATTRIBUTE.to_string(), attribute.into(), DBItemAttributeError::Missing, )), } } #[deprecated(note = "Use `comm_lib` counterpart instead")] #[allow(dead_code)] fn parse_map_attribute( attribute_name: &str, attribute_value: Option, ) -> Result { 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.into(), DBItemAttributeError::IncorrectType, )) } None => { error!( attribute = attribute_name, error_type = "Missing", "Attribute is missing" ); Err(DBItemError::new( attribute_name.to_string(), attribute_value.into(), DBItemAttributeError::Missing, )) } } } #[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/database/device_list.rs b/services/identity/src/database/device_list.rs index 53982d9a9..2bac00d32 100644 --- a/services/identity/src/database/device_list.rs +++ b/services/identity/src/database/device_list.rs @@ -1,1395 +1,1392 @@ use std::collections::{HashMap, HashSet}; use chrono::{DateTime, Utc}; use comm_lib::{ aws::ddb::{ operation::{get_item::GetItemOutput, query::builders::QueryFluentBuilder}, types::{ error::TransactionCanceledException, AttributeValue, Delete, DeleteRequest, Put, TransactWriteItem, Update, WriteRequest, }, }, database::{ AttributeExtractor, AttributeMap, DBItemAttributeError, DBItemError, DynamoDBError, TryFromAttribute, }, }; use tracing::{debug, error, warn}; use crate::{ client_service::FlattenedDeviceKeyUpload, constants::{ devices_table::{self, *}, USERS_TABLE, USERS_TABLE_DEVICELIST_TIMESTAMP_ATTRIBUTE_NAME, USERS_TABLE_PARTITION_KEY, }, error::{DeviceListError, Error}, grpc_services::protos::{self, unauth::DeviceType}, grpc_utils::DeviceKeysInfo, }; use super::DatabaseClient; #[derive(Clone, Debug)] pub struct DeviceRow { pub user_id: String, pub device_id: String, pub device_type: DeviceType, pub device_key_info: IdentityKeyInfo, pub content_prekey: Prekey, pub notif_prekey: Prekey, // migration-related data pub code_version: u64, /// Timestamp of last login (access token generation) pub login_time: DateTime, } #[derive(Clone, Debug)] pub struct DeviceListRow { pub user_id: String, pub timestamp: DateTime, pub device_ids: Vec, } #[derive(Clone, Debug)] pub struct IdentityKeyInfo { pub key_payload: String, pub key_payload_signature: String, } #[derive(Clone, Debug)] pub struct Prekey { pub prekey: String, pub prekey_signature: String, } /// A struct representing device list update request /// payload; issued by the primary device #[derive(derive_more::Constructor)] pub struct DeviceListUpdate { pub devices: Vec, pub timestamp: DateTime, } impl DeviceRow { pub fn from_device_key_upload( user_id: impl Into, upload: FlattenedDeviceKeyUpload, code_version: u64, login_time: DateTime, ) -> Self { Self { user_id: user_id.into(), device_id: upload.device_id_key, device_type: DeviceType::from_str_name(upload.device_type.as_str_name()) .expect("DeviceType conversion failed. Identity client and server protos mismatch"), device_key_info: IdentityKeyInfo { key_payload: upload.key_payload, key_payload_signature: upload.key_payload_signature, }, content_prekey: Prekey { prekey: upload.content_prekey, prekey_signature: upload.content_prekey_signature, }, notif_prekey: Prekey { prekey: upload.notif_prekey, prekey_signature: upload.notif_prekey_signature, }, code_version, login_time, } } } impl DeviceListRow { /// Generates new device list row from given devices fn new(user_id: impl Into, device_ids: Vec) -> Self { Self { user_id: user_id.into(), device_ids, timestamp: Utc::now(), } } } // helper structs for converting to/from attribute values for sort key (a.k.a itemID) struct DeviceIDAttribute(String); struct DeviceListKeyAttribute(DateTime); impl From for AttributeValue { fn from(value: DeviceIDAttribute) -> Self { AttributeValue::S(format!("{DEVICE_ITEM_KEY_PREFIX}{}", value.0)) } } impl From for AttributeValue { fn from(value: DeviceListKeyAttribute) -> Self { AttributeValue::S(format!( "{DEVICE_LIST_KEY_PREFIX}{}", value.0.to_rfc3339() )) } } impl TryFrom> for DeviceIDAttribute { type Error = DBItemError; fn try_from(value: Option) -> Result { let item_id = String::try_from_attr(ATTR_ITEM_ID, value)?; // remove the device- prefix let device_id = item_id .strip_prefix(DEVICE_ITEM_KEY_PREFIX) .ok_or_else(|| DBItemError { attribute_name: ATTR_ITEM_ID.to_string(), attribute_value: item_id.clone().into(), attribute_error: DBItemAttributeError::InvalidValue, })? .to_string(); Ok(Self(device_id)) } } impl TryFrom> for DeviceListKeyAttribute { type Error = DBItemError; fn try_from(value: Option) -> Result { let item_id = String::try_from_attr(ATTR_ITEM_ID, value)?; // remove the device-list- prefix, then parse the timestamp let timestamp: DateTime = item_id .strip_prefix(DEVICE_LIST_KEY_PREFIX) .ok_or_else(|| DBItemError { attribute_name: ATTR_ITEM_ID.to_string(), attribute_value: item_id.clone().into(), attribute_error: DBItemAttributeError::InvalidValue, }) .and_then(|s| { s.parse().map_err(|e| { DBItemError::new( ATTR_ITEM_ID.to_string(), item_id.clone().into(), DBItemAttributeError::InvalidTimestamp(e), ) }) })?; Ok(Self(timestamp)) } } impl TryFrom for DeviceRow { type Error = DBItemError; fn try_from(mut attrs: AttributeMap) -> Result { let user_id = attrs.take_attr(ATTR_USER_ID)?; let DeviceIDAttribute(device_id) = attrs.remove(ATTR_ITEM_ID).try_into()?; let raw_device_type: String = attrs.take_attr(ATTR_DEVICE_TYPE)?; let device_type = DeviceType::from_str_name(&raw_device_type).ok_or_else(|| { DBItemError::new( ATTR_DEVICE_TYPE.to_string(), raw_device_type.into(), DBItemAttributeError::InvalidValue, ) })?; let device_key_info = attrs .take_attr::(ATTR_DEVICE_KEY_INFO) .and_then(IdentityKeyInfo::try_from)?; let content_prekey = attrs .take_attr::(ATTR_CONTENT_PREKEY) .and_then(Prekey::try_from)?; let notif_prekey = attrs .take_attr::(ATTR_NOTIF_PREKEY) .and_then(Prekey::try_from)?; let code_version = attrs .remove(ATTR_CODE_VERSION) .and_then(|attr| attr.as_n().ok().cloned()) .and_then(|val| val.parse::().ok()) .unwrap_or_default(); let login_time: DateTime = attrs.take_attr(ATTR_LOGIN_TIME)?; Ok(Self { user_id, device_id, device_type, device_key_info, content_prekey, notif_prekey, code_version, login_time, }) } } impl From for AttributeMap { fn from(value: DeviceRow) -> Self { HashMap::from([ (ATTR_USER_ID.to_string(), AttributeValue::S(value.user_id)), ( ATTR_ITEM_ID.to_string(), DeviceIDAttribute(value.device_id).into(), ), ( ATTR_DEVICE_TYPE.to_string(), AttributeValue::S(value.device_type.as_str_name().to_string()), ), ( ATTR_DEVICE_KEY_INFO.to_string(), value.device_key_info.into(), ), (ATTR_CONTENT_PREKEY.to_string(), value.content_prekey.into()), (ATTR_NOTIF_PREKEY.to_string(), value.notif_prekey.into()), // migration attributes ( ATTR_CODE_VERSION.to_string(), AttributeValue::N(value.code_version.to_string()), ), ( ATTR_LOGIN_TIME.to_string(), AttributeValue::S(value.login_time.to_rfc3339()), ), ]) } } impl From for protos::unauth::IdentityKeyInfo { fn from(value: IdentityKeyInfo) -> Self { Self { payload: value.key_payload, payload_signature: value.key_payload_signature, - // social proof isn't stored in the devices table - // it cannot be retrieved here - social_proof: None, } } } impl From for AttributeValue { fn from(value: IdentityKeyInfo) -> Self { let attrs = HashMap::from([ ( ATTR_KEY_PAYLOAD.to_string(), AttributeValue::S(value.key_payload), ), ( ATTR_KEY_PAYLOAD_SIGNATURE.to_string(), AttributeValue::S(value.key_payload_signature), ), ]); AttributeValue::M(attrs) } } impl TryFrom for IdentityKeyInfo { type Error = DBItemError; fn try_from(mut attrs: AttributeMap) -> Result { let key_payload = attrs.take_attr(ATTR_KEY_PAYLOAD)?; let key_payload_signature = attrs.take_attr(ATTR_KEY_PAYLOAD_SIGNATURE)?; Ok(Self { key_payload, key_payload_signature, }) } } impl From for AttributeValue { fn from(value: Prekey) -> Self { let attrs = HashMap::from([ (ATTR_PREKEY.to_string(), AttributeValue::S(value.prekey)), ( ATTR_PREKEY_SIGNATURE.to_string(), AttributeValue::S(value.prekey_signature), ), ]); AttributeValue::M(attrs) } } impl From for protos::unauth::Prekey { fn from(value: Prekey) -> Self { Self { prekey: value.prekey, prekey_signature: value.prekey_signature, } } } impl From for Prekey { fn from(value: protos::unauth::Prekey) -> Self { Self { prekey: value.prekey, prekey_signature: value.prekey_signature, } } } impl TryFrom for Prekey { type Error = DBItemError; fn try_from(mut attrs: AttributeMap) -> Result { let prekey = attrs.take_attr(ATTR_PREKEY)?; let prekey_signature = attrs.take_attr(ATTR_PREKEY_SIGNATURE)?; Ok(Self { prekey, prekey_signature, }) } } impl TryFrom for DeviceListRow { type Error = DBItemError; fn try_from(mut attrs: AttributeMap) -> Result { let user_id = attrs.take_attr(ATTR_USER_ID)?; let DeviceListKeyAttribute(timestamp) = attrs.remove(ATTR_ITEM_ID).try_into()?; // validate timestamps are in sync let timestamps_match = attrs .remove(ATTR_TIMESTAMP) .and_then(|attr| attr.as_n().ok().cloned()) .and_then(|val| val.parse::().ok()) .filter(|val| *val == timestamp.timestamp_millis()) .is_some(); if !timestamps_match { warn!( "DeviceList timestamp mismatch for (userID={}, itemID={})", &user_id, timestamp.to_rfc3339() ); } let device_ids: Vec = attrs.take_attr(ATTR_DEVICE_IDS)?; Ok(Self { user_id, timestamp, device_ids, }) } } impl From for AttributeMap { fn from(device_list: DeviceListRow) -> Self { let mut attrs = HashMap::new(); attrs.insert( ATTR_USER_ID.to_string(), AttributeValue::S(device_list.user_id.clone()), ); attrs.insert( ATTR_ITEM_ID.to_string(), DeviceListKeyAttribute(device_list.timestamp).into(), ); attrs.insert( ATTR_TIMESTAMP.to_string(), AttributeValue::N(device_list.timestamp.timestamp_millis().to_string()), ); attrs.insert( ATTR_DEVICE_IDS.to_string(), AttributeValue::L( device_list .device_ids .into_iter() .map(AttributeValue::S) .collect(), ), ); attrs } } impl DatabaseClient { /// Retrieves user's current devices and their full data pub async fn get_current_devices( &self, user_id: impl Into, ) -> Result, Error> { let response = query_rows_with_prefix(self, user_id, DEVICE_ITEM_KEY_PREFIX) .send() .await .map_err(|e| { error!("Failed to get current devices: {:?}", e); Error::AwsSdk(e.into()) })?; let Some(rows) = response.items else { return Ok(Vec::new()); }; rows .into_iter() .map(DeviceRow::try_from) .collect::, DBItemError>>() .map_err(Error::from) } /// Gets user's device list history pub async fn get_device_list_history( &self, user_id: impl Into, since: Option>, ) -> Result, Error> { let rows = if let Some(since) = since { // When timestamp is provided, it's better to query device lists by timestamp LSI self .client .query() .table_name(devices_table::NAME) .index_name(devices_table::TIMESTAMP_INDEX_NAME) .consistent_read(true) .key_condition_expression("#user_id = :user_id AND #timestamp > :since") .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_names("#timestamp", ATTR_TIMESTAMP) .expression_attribute_values( ":user_id", AttributeValue::S(user_id.into()), ) .expression_attribute_values( ":since", AttributeValue::N(since.timestamp_millis().to_string()), ) .send() .await .map_err(|e| { error!("Failed to query device list updates by index: {:?}", e); Error::AwsSdk(e.into()) })? .items } else { // Query all device lists for user query_rows_with_prefix(self, user_id, DEVICE_LIST_KEY_PREFIX) .send() .await .map_err(|e| { error!("Failed to query device list updates (all): {:?}", e); Error::AwsSdk(e.into()) })? .items }; rows .unwrap_or_default() .into_iter() .map(DeviceListRow::try_from) .collect::, DBItemError>>() .map_err(Error::from) } /// Returns all devices' keys for the given user. Response is in the same format /// as [DatabaseClient::get_keys_for_user] for compatibility reasons. pub async fn get_keys_for_user_devices( &self, user_id: impl Into, ) -> Result { let user_devices = self.get_current_devices(user_id).await?; let user_devices_keys = user_devices .into_iter() .map(|device| (device.device_id.clone(), DeviceKeysInfo::from(device))) .collect(); Ok(user_devices_keys) } pub async fn update_device_prekeys( &self, user_id: impl Into, device_id: impl Into, content_prekey: Prekey, notif_prekey: Prekey, ) -> Result<(), Error> { self .client .update_item() .table_name(devices_table::NAME) .key(ATTR_USER_ID, AttributeValue::S(user_id.into())) .key(ATTR_ITEM_ID, DeviceIDAttribute(device_id.into()).into()) .condition_expression( "attribute_exists(#user_id) AND attribute_exists(#item_id)", ) .update_expression( "SET #content_prekey = :content_prekey, #notif_prekey = :notif_prekey", ) .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_names("#item_id", ATTR_ITEM_ID) .expression_attribute_names("#content_prekey", ATTR_CONTENT_PREKEY) .expression_attribute_names("#notif_prekey", ATTR_NOTIF_PREKEY) .expression_attribute_values(":content_prekey", content_prekey.into()) .expression_attribute_values(":notif_prekey", notif_prekey.into()) .send() .await .map_err(|e| { error!("Failed to update device prekeys: {:?}", e); Error::AwsSdk(e.into()) })?; Ok(()) } /// Checks if given device exists on user's current device list pub async fn device_exists( &self, user_id: impl Into, device_id: impl Into, ) -> Result { let GetItemOutput { item, .. } = self .client .get_item() .table_name(devices_table::NAME) .key(ATTR_USER_ID, AttributeValue::S(user_id.into())) .key(ATTR_ITEM_ID, DeviceIDAttribute(device_id.into()).into()) // only fetch the primary key, we don't need the rest .projection_expression(format!("{ATTR_USER_ID}, {ATTR_ITEM_ID}")) .send() .await .map_err(|e| { error!("Failed to check if device exists: {:?}", e); Error::AwsSdk(e.into()) })?; Ok(item.is_some()) } pub async fn get_device_data( &self, user_id: impl Into, device_id: impl Into, ) -> Result, Error> { let GetItemOutput { item, .. } = self .client .get_item() .table_name(devices_table::NAME) .key(ATTR_USER_ID, AttributeValue::S(user_id.into())) .key(ATTR_ITEM_ID, DeviceIDAttribute(device_id.into()).into()) .send() .await .map_err(|e| { error!("Failed to fetch device data: {:?}", e); Error::AwsSdk(e.into()) })?; let Some(attrs) = item else { return Ok(None); }; let device_data = DeviceRow::try_from(attrs)?; Ok(Some(device_data)) } /// Fails if the device list is empty pub async fn get_primary_device_data( &self, user_id: &str, ) -> Result { let device_list = self.get_current_device_list(user_id).await?; let Some(primary_device_id) = device_list .as_ref() .and_then(|list| list.device_ids.first()) else { error!(user_id, "Device list is empty. Cannot fetch primary device"); return Err(Error::DeviceList(DeviceListError::DeviceNotFound)); }; self .get_device_data(user_id, primary_device_id) .await? .ok_or_else(|| { error!( "Corrupt database. Missing primary device data for user {}", user_id ); Error::MissingItem }) } /// Required only for migration purposes (determining primary device) pub async fn update_device_login_time( &self, user_id: impl Into, device_id: impl Into, login_time: DateTime, ) -> Result<(), Error> { self .client .update_item() .table_name(devices_table::NAME) .key(ATTR_USER_ID, AttributeValue::S(user_id.into())) .key(ATTR_ITEM_ID, DeviceIDAttribute(device_id.into()).into()) .condition_expression( "attribute_exists(#user_id) AND attribute_exists(#item_id)", ) .update_expression("SET #login_time = :login_time") .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_names("#item_id", ATTR_ITEM_ID) .expression_attribute_names("#login_time", ATTR_LOGIN_TIME) .expression_attribute_values( ":login_time", AttributeValue::S(login_time.to_rfc3339()), ) .send() .await .map_err(|e| { error!("Failed to update device login time: {:?}", e); Error::AwsSdk(e.into()) })?; Ok(()) } pub async fn get_current_device_list( &self, user_id: impl Into, ) -> Result, Error> { self .client .query() .table_name(devices_table::NAME) .index_name(devices_table::TIMESTAMP_INDEX_NAME) .consistent_read(true) .key_condition_expression("#user_id = :user_id") // sort descending .scan_index_forward(false) .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_values( ":user_id", AttributeValue::S(user_id.into()), ) .limit(1) .send() .await .map_err(|e| { error!("Failed to query device list updates by index: {:?}", e); Error::AwsSdk(e.into()) })? .items .and_then(|mut items| items.pop()) .map(DeviceListRow::try_from) .transpose() .map_err(Error::from) } /// Adds device data to devices table. If the device already exists, its /// data is overwritten. This does not update the device list; the device ID /// should already be present in the device list. pub async fn put_device_data( &self, user_id: impl Into, device_key_upload: FlattenedDeviceKeyUpload, code_version: u64, login_time: DateTime, ) -> Result<(), Error> { let content_one_time_keys = device_key_upload.content_one_time_keys.clone(); let notif_one_time_keys = device_key_upload.notif_one_time_keys.clone(); let new_device = DeviceRow::from_device_key_upload( user_id, device_key_upload, code_version, login_time, ); let device_id = new_device.device_id.clone(); self .client .put_item() .table_name(devices_table::NAME) .set_item(Some(new_device.into())) .send() .await .map_err(|e| { error!("Failed to put device data: {:?}", e); Error::AwsSdk(e.into()) })?; self .append_one_time_prekeys( device_id, content_one_time_keys, notif_one_time_keys, ) .await?; Ok(()) } /// Adds new device to user's device list. If the device already exists, the /// operation fails. Transactionally generates new device list version. pub async fn add_device( &self, user_id: impl Into, device_key_upload: FlattenedDeviceKeyUpload, code_version: u64, login_time: DateTime, ) -> Result<(), Error> { let user_id: String = user_id.into(); self .transact_update_devicelist(&user_id, |device_ids, mut devices_data| { let new_device = DeviceRow::from_device_key_upload( &user_id, device_key_upload, code_version, login_time, ); if device_ids.iter().any(|id| &new_device.device_id == id) { warn!( "Device already exists in user's device list \ (userID={}, deviceID={})", &user_id, &new_device.device_id ); return Err(Error::DeviceList(DeviceListError::DeviceAlreadyExists)); } device_ids.push(new_device.device_id.clone()); // Reorder devices (determine primary device again) devices_data.push(new_device.clone()); migration::reorder_device_list(&user_id, device_ids, &devices_data); // Put new device let put_device = Put::builder() .table_name(devices_table::NAME) .set_item(Some(new_device.into())) .condition_expression( "attribute_not_exists(#user_id) AND attribute_not_exists(#item_id)", ) .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_names("#item_id", ATTR_ITEM_ID) .build(); let put_device_operation = TransactWriteItem::builder().put(put_device).build(); Ok(Some(put_device_operation)) }) .await?; Ok(()) } /// Removes device from user's device list. If the device doesn't exist, the /// operation fails. Transactionally generates new device list version. pub async fn remove_device( &self, user_id: impl Into, device_id: impl AsRef, ) -> Result<(), Error> { let user_id: String = user_id.into(); let device_id = device_id.as_ref(); self .transact_update_devicelist(&user_id, |device_ids, mut devices_data| { let device_exists = device_ids.iter().any(|id| id == device_id); if !device_exists { warn!( "Device doesn't exist in user's device list \ (userID={}, deviceID={})", &user_id, device_id ); return Err(Error::DeviceList(DeviceListError::DeviceNotFound)); } device_ids.retain(|id| id != device_id); // Reorder devices (determine primary device again) devices_data.retain(|d| d.device_id != device_id); migration::reorder_device_list(&user_id, device_ids, &devices_data); // Delete device DDB operation let delete_device = Delete::builder() .table_name(devices_table::NAME) .key(ATTR_USER_ID, AttributeValue::S(user_id.clone())) .key( ATTR_ITEM_ID, DeviceIDAttribute(device_id.to_string()).into(), ) .condition_expression( "attribute_exists(#user_id) AND attribute_exists(#item_id)", ) .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_names("#item_id", ATTR_ITEM_ID) .build(); let operation = TransactWriteItem::builder().delete(delete_device).build(); Ok(Some(operation)) }) .await?; Ok(()) } /// applies updated device list received from primary device pub async fn apply_devicelist_update( &self, user_id: &str, update: DeviceListUpdate, ) -> Result { let DeviceListUpdate { devices: new_list, .. } = update; self .transact_update_devicelist(user_id, |current_list, _| { // TODO: Add proper validation according to the whitepaper // currently only adding new device is supported (new.len - old.len = 1) let new_set: HashSet<_> = new_list.iter().collect(); let current_set: HashSet<_> = current_list.iter().collect(); // difference is A - B (only new devices) let difference: HashSet<_> = new_set.difference(¤t_set).collect(); if difference.len() != 1 { warn!("Received invalid device list update"); return Err(Error::DeviceList( DeviceListError::InvalidDeviceListUpdate, )); } debug!("Applying device list update. Difference: {:?}", difference); *current_list = new_list; Ok(None) }) .await } /// Performs a transactional update of the device list for the user. Afterwards /// generates a new device list and updates the timestamp in the users table. /// This is done in a transaction. Operation fails if the device list has been /// updated concurrently (timestamp mismatch). /// Returns the new device list row that has been saved to database. async fn transact_update_devicelist( &self, user_id: &str, // The closure performing a transactional update of the device list. // It receives two arguments: // 1. A mutable reference to the current device list (ordered device IDs). // 2. Details (full data) of the current devices (unordered). // The closure should return a transactional DDB // operation to be performed when updating the device list. action: impl FnOnce( &mut Vec, Vec, ) -> Result, Error>, ) -> Result { let previous_timestamp = get_current_devicelist_timestamp(self, user_id).await?; let current_devices_data = self.get_current_devices(user_id).await?; let mut device_ids = self .get_current_device_list(user_id) .await? .map(|device_list| device_list.device_ids) .unwrap_or_default(); // Perform the update action, then generate new device list let operation = action(&mut device_ids, current_devices_data)?; let new_device_list = DeviceListRow::new(user_id, device_ids); // Update timestamp in users table let timestamp_update_operation = device_list_timestamp_update_operation( user_id, previous_timestamp, new_device_list.timestamp, ); // Put updated device list (a new version) let put_device_list = Put::builder() .table_name(devices_table::NAME) .set_item(Some(new_device_list.clone().into())) .condition_expression( "attribute_not_exists(#user_id) AND attribute_not_exists(#item_id)", ) .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_names("#item_id", ATTR_ITEM_ID) .build(); let put_device_list_operation = TransactWriteItem::builder().put(put_device_list).build(); let operations = if let Some(operation) = operation { vec![ operation, put_device_list_operation, timestamp_update_operation, ] } else { vec![put_device_list_operation, timestamp_update_operation] }; self .client .transact_write_items() .set_transact_items(Some(operations)) .send() .await .map_err(|e| match DynamoDBError::from(e) { DynamoDBError::TransactionCanceledException( TransactionCanceledException { cancellation_reasons: Some(reasons), .. }, ) if reasons .iter() .any(|reason| reason.code() == Some("ConditionalCheckFailed")) => { Error::DeviceList(DeviceListError::ConcurrentUpdateError) } other => { error!("Device list update transaction failed: {:?}", other); Error::AwsSdk(other) } })?; Ok(new_device_list) } /// Deletes all user data from devices table pub async fn delete_devices_table_rows_for_user( &self, user_id: impl Into, ) -> Result<(), Error> { // 1. get all rows // 2. batch write delete all // we project only the primary keys so we can pass these directly to delete requests let primary_keys = self .client .query() .table_name(devices_table::NAME) .projection_expression("#user_id, #item_id") .key_condition_expression("#user_id = :user_id") .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_names("#item_id", ATTR_ITEM_ID) .expression_attribute_values( ":user_id", AttributeValue::S(user_id.into()), ) .consistent_read(true) .send() .await .map_err(|e| { error!("Failed to list user's items in devices table: {:?}", e); Error::AwsSdk(e.into()) })? .items .unwrap_or_default(); let delete_requests = primary_keys .into_iter() .map(|item| { let request = DeleteRequest::builder().set_key(Some(item)).build(); WriteRequest::builder().delete_request(request).build() }) .collect::>(); // TODO: We can use the batch write helper from comm-services-lib when integrated for batch in delete_requests.chunks(25) { self .client .batch_write_item() .request_items(devices_table::NAME, batch.to_vec()) .send() .await .map_err(|e| { error!("Failed to batch delete items from devices table: {:?}", e); Error::AwsSdk(e.into()) })?; } Ok(()) } } /// Gets timestamp of user's current device list. Returns None if the user /// doesn't have a device list yet. Storing the timestamp in the users table is /// required for consistency. It's used as a condition when updating the device /// list. async fn get_current_devicelist_timestamp( db: &crate::database::DatabaseClient, user_id: impl Into, ) -> Result>, Error> { let response = db .client .get_item() .table_name(USERS_TABLE) .key(USERS_TABLE_PARTITION_KEY, AttributeValue::S(user_id.into())) .projection_expression(USERS_TABLE_DEVICELIST_TIMESTAMP_ATTRIBUTE_NAME) .send() .await .map_err(|e| { error!("Failed to get user's device list timestamp: {:?}", e); Error::AwsSdk(e.into()) })?; let mut user_item = response.item.unwrap_or_default(); let raw_datetime = user_item.remove(USERS_TABLE_DEVICELIST_TIMESTAMP_ATTRIBUTE_NAME); // existing records will not have this field when // updating device list for the first time if raw_datetime.is_none() { return Ok(None); } let timestamp = DateTime::::try_from_attr( USERS_TABLE_DEVICELIST_TIMESTAMP_ATTRIBUTE_NAME, raw_datetime, )?; Ok(Some(timestamp)) } /// Generates update expression for current device list timestamp in users table. /// The previous timestamp is used as a condition to ensure that the value hasn't changed /// since we got it. This avoids race conditions when updating the device list. fn device_list_timestamp_update_operation( user_id: impl Into, previous_timestamp: Option>, new_timestamp: DateTime, ) -> TransactWriteItem { let update_builder = match previous_timestamp { Some(previous_timestamp) => Update::builder() .condition_expression("#device_list_timestamp = :previous_timestamp") .expression_attribute_values( ":previous_timestamp", AttributeValue::S(previous_timestamp.to_rfc3339()), ), // If there's no previous timestamp, the attribute shouldn't exist yet None => Update::builder() .condition_expression("attribute_not_exists(#device_list_timestamp)"), }; let update = update_builder .table_name(USERS_TABLE) .key(USERS_TABLE_PARTITION_KEY, AttributeValue::S(user_id.into())) .update_expression("SET #device_list_timestamp = :new_timestamp") .expression_attribute_names( "#device_list_timestamp", USERS_TABLE_DEVICELIST_TIMESTAMP_ATTRIBUTE_NAME, ) .expression_attribute_values( ":new_timestamp", AttributeValue::S(new_timestamp.to_rfc3339()), ) .build(); TransactWriteItem::builder().update(update).build() } /// Helper function to query rows by given sort key prefix fn query_rows_with_prefix( db: &crate::database::DatabaseClient, user_id: impl Into, prefix: &'static str, ) -> QueryFluentBuilder { db.client .query() .table_name(devices_table::NAME) .key_condition_expression( "#user_id = :user_id AND begins_with(#item_id, :device_prefix)", ) .expression_attribute_names("#user_id", ATTR_USER_ID) .expression_attribute_names("#item_id", ATTR_ITEM_ID) .expression_attribute_values(":user_id", AttributeValue::S(user_id.into())) .expression_attribute_values( ":device_prefix", AttributeValue::S(prefix.to_string()), ) .consistent_read(true) } // Helper module for "migration" code into new device list schema. // We can get rid of this when primary device takes over the responsibility // of managing the device list. mod migration { use std::{cmp::Ordering, collections::HashSet}; use tracing::{debug, error, info}; use super::*; pub(super) fn reorder_device_list( user_id: &str, list: &mut [String], devices_data: &[DeviceRow], ) { if !verify_device_list_match(list, devices_data) { error!("Found corrupt device list for user (userID={})!", user_id); return; } let Some(first_device) = list.first() else { debug!("Skipping device list rotation. Nothing to reorder."); return; }; let Some(primary_device) = determine_primary_device(devices_data) else { info!( "No valid primary device found for user (userID={}).\ Skipping device list reorder.", user_id ); return; }; if first_device == &primary_device.device_id { debug!("Skipping device list reorder. Primary device is already first"); return; } // swap primary device with the first one let Some(primary_device_idx) = list.iter().position(|id| id == &primary_device.device_id) else { error!( "Primary device not found in device list (userID={})", user_id ); return; }; list.swap(0, primary_device_idx); info!("Reordered device list for user (userID={})", user_id); } // checks if device list matches given devices data fn verify_device_list_match( list: &[String], devices_data: &[DeviceRow], ) -> bool { if list.len() != devices_data.len() { error!("Device list length mismatch!"); return false; } let actual_device_ids = devices_data .iter() .map(|device| &device.device_id) .collect::>(); let device_list_set = list.iter().collect::>(); if let Some(corrupt_device_id) = device_list_set .symmetric_difference(&actual_device_ids) .next() { error!( "Device list is corrupt (unknown deviceID={})", corrupt_device_id ); return false; } true } /// Returns reference to primary device (if any) from given list of devices /// or None if there's no valid primary device. fn determine_primary_device(devices: &[DeviceRow]) -> Option<&DeviceRow> { // 1. Find mobile devices with valid token // 2. Prioritize these with latest code version // 3. If there's a tie, select the one with latest login time let mut mobile_devices = devices .iter() .filter(|device| { device.device_type == DeviceType::Ios || device.device_type == DeviceType::Android }) .collect::>(); mobile_devices.sort_by(|a, b| { let code_version_cmp = b.code_version.cmp(&a.code_version); if code_version_cmp == Ordering::Equal { b.login_time.cmp(&a.login_time) } else { code_version_cmp } }); mobile_devices.first().cloned() } #[cfg(test)] mod tests { use super::*; use chrono::Duration; #[test] fn reorder_skips_no_devices() { let mut list = vec![]; reorder_device_list("", &mut list, &[]); assert_eq!(list, Vec::::new()); } #[test] fn reorder_skips_single_device() { let mut list = vec!["test".into()]; let devices_data = vec![create_test_device("test", DeviceType::Web, 0, Utc::now())]; reorder_device_list("", &mut list, &devices_data); assert_eq!(list, vec!["test"]); } #[test] fn reorder_skips_for_valid_list() { let mut list = vec!["mobile".into(), "web".into()]; let devices_data = vec![ create_test_device("mobile", DeviceType::Android, 1, Utc::now()), create_test_device("web", DeviceType::Web, 0, Utc::now()), ]; reorder_device_list("", &mut list, &devices_data); assert_eq!(list, vec!["mobile", "web"]); } #[test] fn reorder_swaps_primary_device_when_possible() { let mut list = vec!["web".into(), "mobile".into()]; let devices_data = vec![ create_test_device("web", DeviceType::Web, 0, Utc::now()), create_test_device("mobile", DeviceType::Android, 1, Utc::now()), ]; reorder_device_list("", &mut list, &devices_data); assert_eq!(list, vec!["mobile", "web"]); } #[test] fn determine_primary_device_returns_none_for_empty_list() { let devices = vec![]; assert!(determine_primary_device(&devices).is_none()); } #[test] fn determine_primary_device_returns_none_for_web_only() { let devices = vec![create_test_device("web", DeviceType::Web, 0, Utc::now())]; assert!( determine_primary_device(&devices).is_none(), "Primary device should be None for web-only devices" ); } #[test] fn determine_primary_device_prioritizes_mobile() { let devices = vec![ create_test_device("mobile", DeviceType::Android, 0, Utc::now()), create_test_device("web", DeviceType::Web, 0, Utc::now()), ]; let primary_device = determine_primary_device(&devices) .expect("Primary device should be present"); assert_eq!( primary_device.device_id, "mobile", "Primary device should be mobile" ); } #[test] fn determine_primary_device_prioritizes_latest_code_version() { let devices_with_latest_code_version = vec![ create_test_device("mobile1", DeviceType::Android, 1, Utc::now()), create_test_device("mobile2", DeviceType::Android, 2, Utc::now()), create_test_device("web", DeviceType::Web, 0, Utc::now()), ]; let primary_device = determine_primary_device(&devices_with_latest_code_version) .expect("Primary device should be present"); assert_eq!( primary_device.device_id, "mobile2", "Primary device should be mobile with latest code version" ); } #[test] fn determine_primary_device_prioritizes_latest_login_time() { let devices = vec![ create_test_device("mobile1_today", DeviceType::Ios, 1, Utc::now()), create_test_device( "mobile2_yesterday", DeviceType::Android, 1, Utc::now() - Duration::days(1), ), create_test_device("web", DeviceType::Web, 0, Utc::now()), ]; let primary_device = determine_primary_device(&devices) .expect("Primary device should be present"); assert_eq!( primary_device.device_id, "mobile1_today", "Primary device should be mobile with latest login time" ); } #[test] fn determine_primary_device_keeps_deterministic_order() { // Given two identical devices, the first one should be selected as primary let today = Utc::now(); let devices_with_latest_code_version = vec![ create_test_device("mobile1", DeviceType::Android, 1, today), create_test_device("mobile2", DeviceType::Android, 1, today), ]; let primary_device = determine_primary_device(&devices_with_latest_code_version) .expect("Primary device should be present"); assert_eq!( primary_device.device_id, "mobile1", "Primary device selection should be deterministic" ); } #[test] fn determine_primary_device_all_rules_together() { use DeviceType::{Android, Ios, Web}; let today = Utc::now(); let yesterday = today - Duration::days(1); let devices = vec![ create_test_device("mobile1_today", Android, 1, today), create_test_device("mobile2_today", Android, 2, today), create_test_device("mobile3_yesterday", Ios, 1, yesterday), create_test_device("mobile4_yesterday", Ios, 2, yesterday), create_test_device("web", Web, 5, today), ]; let primary_device = determine_primary_device(&devices) .expect("Primary device should be present"); assert_eq!( primary_device.device_id, "mobile2_today", "Primary device should be mobile with latest code version and login time" ); } fn create_test_device( id: &str, platform: DeviceType, code_version: u64, login_time: DateTime, ) -> DeviceRow { DeviceRow { user_id: "test".into(), device_id: id.into(), device_type: platform, device_key_info: IdentityKeyInfo { key_payload: "".into(), key_payload_signature: "".into(), }, content_prekey: Prekey { prekey: "".into(), prekey_signature: "".into(), }, notif_prekey: Prekey { prekey: "".into(), prekey_signature: "".into(), }, code_version, login_time, } } } } diff --git a/shared/protos/identity_unauth.proto b/shared/protos/identity_unauth.proto index b74583a49..2b798d843 100644 --- a/shared/protos/identity_unauth.proto +++ b/shared/protos/identity_unauth.proto @@ -1,306 +1,303 @@ syntax = "proto3"; package identity.unauth; // RPCs from a client (iOS, Android, or web) to identity service service IdentityClientService { /* Account actions */ // Called by user to register with the Identity Service (PAKE only) // Due to limitations of grpc-web, the Opaque challenge+response // needs to be split up over two unary requests // Start/Finish is used here to align with opaque protocol rpc RegisterPasswordUserStart(RegistrationStartRequest) returns ( RegistrationStartResponse) {} rpc RegisterReservedPasswordUserStart(ReservedRegistrationStartRequest) returns (RegistrationStartResponse) {} rpc RegisterPasswordUserFinish(RegistrationFinishRequest) returns ( AuthResponse) {} // Called by user to register device and get an access token rpc LogInPasswordUserStart(OpaqueLoginStartRequest) returns (OpaqueLoginStartResponse) {} rpc LogInPasswordUserFinish(OpaqueLoginFinishRequest) returns (AuthResponse) {} rpc LogInWalletUser(WalletAuthRequest) returns (AuthResponse) {} rpc RegisterWalletUser(WalletAuthRequest) returns (AuthResponse) {} rpc RegisterReservedWalletUser(ReservedWalletRegistrationRequest) returns (AuthResponse) {} rpc UploadKeysForRegisteredDeviceAndLogIn(SecondaryDeviceKeysUploadRequest) returns (AuthResponse) {} rpc LogInExistingDevice(ExistingDeviceLoginRequest) returns (AuthResponse) {} /* Service actions */ // Called by other services to verify a user's access token rpc VerifyUserAccessToken(VerifyUserAccessTokenRequest) returns (VerifyUserAccessTokenResponse) {} /* Authoritative keyserver actions */ // Called by authoritative keyserver to add usernames // to the Identity service's reserved list rpc AddReservedUsernames(AddReservedUsernamesRequest) returns (Empty) {} // Called by authoritative keyserver to remove usernames from the Identity // service's reserved list rpc RemoveReservedUsername(RemoveReservedUsernameRequest) returns (Empty) {} /* Miscellaneous actions */ // Called by users periodically to check if their code version is supported rpc Ping(Empty) returns (Empty) {} // Returns userID for given username or wallet address rpc FindUserID(FindUserIDRequest) returns (FindUserIDResponse) {} // Called by clients to get a nonce for a Sign-In with Ethereum message // or RPCs requiring challenge-response actions rpc GenerateNonce(Empty) returns (GenerateNonceResponse) {} /* Farcaster actions */ rpc GetFarcasterUsers(GetFarcasterUsersRequest) returns (GetFarcasterUsersResponse) {} } // Helper types message Empty {} message Prekey { string prekey = 1; string prekey_signature = 2; } // Key information needed for starting a X3DH session message IdentityKeyInfo { // JSON payload containing Olm keys // Sessions for users will contain both ContentKeys and NotifKeys // For keyservers, this will only contain ContentKeys string payload = 1; // Payload signed with the signing ed25519 key string payload_signature = 2; - // Signed message used for SIWE - // This correlates a given wallet with a device's content key - optional string social_proof = 3; } // RegisterUser // Ephemeral information provided so others can create initial message // to this device // // Prekeys are generally rotated periodically // One-time Prekeys are "consumed" after first use, so many need to // be provide to avoid exhausting them. enum DeviceType { KEYSERVER = 0; WEB = 1; // iOS doesn't leave a good option for title to camel case renaming IOS = 2; ANDROID = 3; WINDOWS = 4; MAC_OS = 5; } // Bundle of information needed for creating an initial message using X3DH message DeviceKeyUpload { IdentityKeyInfo device_key_info = 1; Prekey content_upload = 2; Prekey notif_upload = 3; repeated string one_time_content_prekeys = 4; repeated string one_time_notif_prekeys = 5; DeviceType device_type = 6; } // Request for registering a new user message RegistrationStartRequest { // Message sent to initiate PAKE registration (step 1) bytes opaque_registration_request = 1; string username = 2; // Information needed to open a new channel to current user's device DeviceKeyUpload device_key_upload = 3; optional string farcaster_id = 4; } message ReservedRegistrationStartRequest { // Message sent to initiate PAKE registration (step 1) bytes opaque_registration_request = 1; string username = 2; // Information needed to open a new channel to current user's device DeviceKeyUpload device_key_upload = 3; // Message from authoritative keyserver attesting that a given user // has ownership of a given username string keyserver_message = 4; // Above message signed with authoritative keyserver's signing ed25519 key string keyserver_signature = 5; } // Messages sent from a client to Identity Service message RegistrationFinishRequest { // Identifier to correlate RegisterStart session string session_id = 1; // Final message in PAKE registration bytes opaque_registration_upload = 2; } // Messages sent from Identity Service to client message RegistrationStartResponse { // Identifier used to correlate start request with finish request string session_id = 1; // sent to the user upon reception of the PAKE registration attempt // (step 2) bytes opaque_registration_response = 2; } message AuthResponse { // Unique identifier for user string user_id = 1; string access_token = 2; } // LoginUser message OpaqueLoginStartRequest { string username = 1; // Message sent to initiate PAKE login (step 1) bytes opaque_login_request = 2; // Information specific to a user's device needed to open a new channel of // communication with this user DeviceKeyUpload device_key_upload = 3; // If set to true, the user's existing keyserver will be deleted from the // identity service and replaced with this one. This field has no effect if // the device is not a keyserver optional bool force = 4; } message OpaqueLoginFinishRequest { // Identifier used to correlate start request with finish request string session_id = 1; // Message containing client's reponse to server challenge. // Used to verify that client holds password secret (Step 3) bytes opaque_login_upload = 2; } message OpaqueLoginStartResponse { // Identifier used to correlate start request with finish request string session_id = 1; // Opaque challenge sent from server to client attempting to login (Step 2) bytes opaque_login_response = 2; } message WalletAuthRequest { string siwe_message = 1; string siwe_signature = 2; // Information specific to a user's device needed to open a new channel of // communication with this user DeviceKeyUpload device_key_upload = 3; optional string farcaster_id = 4; } message ReservedWalletRegistrationRequest { string siwe_message = 1; string siwe_signature = 2; // Information specific to a user's device needed to open a new channel of // communication with this user DeviceKeyUpload device_key_upload = 3; // Message from authoritative keyserver attesting that a given user // has ownership of a given wallet address string keyserver_message = 4; // Above message signed with authoritative keyserver's signing ed25519 key string keyserver_signature = 5; } // UploadKeysForRegisteredDeviceAndLogIn message SecondaryDeviceKeysUploadRequest { string user_id = 1; // Signed nonce message, JSON-stringified string challenge_response = 2; // Information specific to a user's device needed to open a new channel of // communication with this user DeviceKeyUpload device_key_upload = 3; } // LogInExistingDevice message ExistingDeviceLoginRequest { string user_id = 1; string device_id = 2; // Signed nonce message, JSON-stringified string challenge_response = 3; } // GenerateNonce message GenerateNonceResponse{ string nonce = 1; } // VerifyUserAccessToken message VerifyUserAccessTokenRequest { string user_id = 1; // signing ed25519 key for the given user's device string device_id = 2; string access_token = 3; } message VerifyUserAccessTokenResponse { bool token_valid = 1; } // AddReservedUsernames message AddReservedUsernamesRequest { // Message from authoritative keyserver containing the username to be added string message = 1; // Above message signed with authoritative keyserver's signing ed25519 key string signature = 2; } // RemoveReservedUsername message RemoveReservedUsernameRequest { // Message from authoritative keyserver containing the username to be removed string message = 1; // Above message signed with authoritative keyserver's signing ed25519 key string signature = 2; } // FindUserID message FindUserIDRequest { oneof identifier { string username = 1; string wallet_address = 2; } } message FindUserIDResponse { // userID if the user is registered with Identity Service, null otherwise optional string user_id = 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; } // GetFarcasterUsers message GetFarcasterUsersRequest { repeated string farcaster_ids = 1; } message GetFarcasterUsersResponse { repeated FarcasterUser farcaster_users = 1; } message FarcasterUser { string user_id = 1; string farcaster_id = 2; string username = 3; } diff --git a/web/grpc/identity-service-client-wrapper.js b/web/grpc/identity-service-client-wrapper.js index 00fc9a9d8..aec8e670a 100644 --- a/web/grpc/identity-service-client-wrapper.js +++ b/web/grpc/identity-service-client-wrapper.js @@ -1,689 +1,687 @@ // @flow import { Login } from '@commapp/opaque-ke-wasm'; import identityServiceConfig from 'lib/facts/identity-service.js'; import type { OneTimeKeysResultValues, SignedPrekeys, } from 'lib/types/crypto-types.js'; import type { PlatformDetails } from 'lib/types/device-types.js'; import { type SignedDeviceList, signedDeviceListHistoryValidator, type SignedMessage, type IdentityServiceAuthLayer, type IdentityServiceClient, type DeviceOlmOutboundKeys, deviceOlmOutboundKeysValidator, type UserDevicesOlmOutboundKeys, type IdentityAuthResult, type IdentityNewDeviceKeyUpload, type IdentityExistingDeviceKeyUpload, identityDeviceTypes, identityAuthResultValidator, type UserDevicesOlmInboundKeys, type DeviceOlmInboundKeys, deviceOlmInboundKeysValidator, userDeviceOlmInboundKeysValidator, type FarcasterUser, } from 'lib/types/identity-service-types.js'; import { farcasterUsersValidator } from 'lib/types/identity-service-types.js'; import { getMessageForException } from 'lib/utils/errors.js'; import { assertWithValidator } from 'lib/utils/validation-utils.js'; import { VersionInterceptor, AuthInterceptor } from './interceptor.js'; import * as IdentityAuthClient from '../protobufs/identity-auth-client.cjs'; import * as IdentityAuthStructs from '../protobufs/identity-auth-structs.cjs'; import { DeviceKeyUpload, Empty, IdentityKeyInfo, OpaqueLoginFinishRequest, OpaqueLoginStartRequest, Prekey, WalletAuthRequest, SecondaryDeviceKeysUploadRequest, GetFarcasterUsersRequest, } from '../protobufs/identity-unauth-structs.cjs'; import * as IdentityUnauthClient from '../protobufs/identity-unauth.cjs'; import { initOpaque } from '../shared-worker/utils/opaque-utils.js'; class IdentityServiceClientWrapper implements IdentityServiceClient { overridedOpaqueFilepath: string; authClient: ?IdentityAuthClient.IdentityClientServicePromiseClient; unauthClient: IdentityUnauthClient.IdentityClientServicePromiseClient; getNewDeviceKeyUpload: () => Promise; getExistingDeviceKeyUpload: () => Promise; constructor( platformDetails: PlatformDetails, overridedOpaqueFilepath: string, authLayer: ?IdentityServiceAuthLayer, getNewDeviceKeyUpload: () => Promise, getExistingDeviceKeyUpload: () => Promise, ) { this.overridedOpaqueFilepath = overridedOpaqueFilepath; if (authLayer) { this.authClient = IdentityServiceClientWrapper.createAuthClient( platformDetails, authLayer, ); } this.unauthClient = IdentityServiceClientWrapper.createUnauthClient(platformDetails); this.getNewDeviceKeyUpload = getNewDeviceKeyUpload; this.getExistingDeviceKeyUpload = getExistingDeviceKeyUpload; } static determineSocketAddr(): string { return process.env.IDENTITY_SOCKET_ADDR ?? identityServiceConfig.defaultURL; } static createAuthClient( platformDetails: PlatformDetails, authLayer: IdentityServiceAuthLayer, ): IdentityAuthClient.IdentityClientServicePromiseClient { const { userID, deviceID, commServicesAccessToken } = authLayer; const identitySocketAddr = IdentityServiceClientWrapper.determineSocketAddr(); const versionInterceptor = new VersionInterceptor( platformDetails, ); const authInterceptor = new AuthInterceptor( userID, deviceID, commServicesAccessToken, ); const authClientOpts = { unaryInterceptors: [versionInterceptor, authInterceptor], }; return new IdentityAuthClient.IdentityClientServicePromiseClient( identitySocketAddr, null, authClientOpts, ); } static createUnauthClient( platformDetails: PlatformDetails, ): IdentityUnauthClient.IdentityClientServicePromiseClient { const identitySocketAddr = IdentityServiceClientWrapper.determineSocketAddr(); const versionInterceptor = new VersionInterceptor( platformDetails, ); const unauthClientOpts = { unaryInterceptors: [versionInterceptor], }; return new IdentityUnauthClient.IdentityClientServicePromiseClient( identitySocketAddr, null, unauthClientOpts, ); } deleteUser: () => Promise = async () => { if (!this.authClient) { throw new Error('Identity service client is not initialized'); } await this.authClient.deleteUser(new Empty()); }; logOut: () => Promise = async () => { if (!this.authClient) { throw new Error('Identity service client is not initialized'); } await this.authClient.logOutUser(new Empty()); }; getKeyserverKeys: (keyserverID: string) => Promise = async (keyserverID: string) => { const client = this.authClient; if (!client) { throw new Error('Identity service client is not initialized'); } const request = new IdentityAuthStructs.OutboundKeysForUserRequest(); request.setUserId(keyserverID); const response = await client.getKeyserverKeys(request); const keyserverInfo = response.getKeyserverInfo(); const identityInfo = keyserverInfo?.getIdentityInfo(); const contentPreKey = keyserverInfo?.getContentPrekey(); const notifPreKey = keyserverInfo?.getNotifPrekey(); const payload = identityInfo?.getPayload(); const keyserverKeys = { identityKeysBlob: payload ? JSON.parse(payload) : null, contentInitializationInfo: { prekey: contentPreKey?.getPrekey(), prekeySignature: contentPreKey?.getPrekeySignature(), oneTimeKey: keyserverInfo?.getOneTimeContentPrekey(), }, notifInitializationInfo: { prekey: notifPreKey?.getPrekey(), prekeySignature: notifPreKey?.getPrekeySignature(), oneTimeKey: keyserverInfo?.getOneTimeNotifPrekey(), }, payloadSignature: identityInfo?.getPayloadSignature(), - socialProof: identityInfo?.getSocialProof(), }; if (!keyserverKeys.contentInitializationInfo.oneTimeKey) { throw new Error('Missing content one time key'); } if (!keyserverKeys.notifInitializationInfo.oneTimeKey) { throw new Error('Missing notif one time key'); } return assertWithValidator(keyserverKeys, deviceOlmOutboundKeysValidator); }; getOutboundKeysForUser: ( userID: string, ) => Promise = async (userID: string) => { const client = this.authClient; if (!client) { throw new Error('Identity service client is not initialized'); } const request = new IdentityAuthStructs.OutboundKeysForUserRequest(); request.setUserId(userID); const response = await client.getOutboundKeysForUser(request); const devicesMap = response.toObject()?.devicesMap; if (!devicesMap || !Array.isArray(devicesMap)) { throw new Error('Invalid devicesMap'); } const devicesKeys: (?UserDevicesOlmOutboundKeys)[] = devicesMap.map( ([deviceID, outboundKeysInfo]) => { const identityInfo = outboundKeysInfo?.identityInfo; const payload = identityInfo?.payload; const contentPreKey = outboundKeysInfo?.contentPrekey; const notifPreKey = outboundKeysInfo?.notifPrekey; if (typeof deviceID !== 'string') { console.log(`Invalid deviceID in devicesMap: ${deviceID}`); return null; } if ( !outboundKeysInfo.oneTimeContentPrekey || !outboundKeysInfo.oneTimeNotifPrekey ) { console.log(`Missing one time key for device ${deviceID}`); return { deviceID, keys: null, }; } const deviceKeys = { identityKeysBlob: payload ? JSON.parse(payload) : null, contentInitializationInfo: { prekey: contentPreKey?.prekey, prekeySignature: contentPreKey?.prekeySignature, oneTimeKey: outboundKeysInfo.oneTimeContentPrekey, }, notifInitializationInfo: { prekey: notifPreKey?.prekey, prekeySignature: notifPreKey?.prekeySignature, oneTimeKey: outboundKeysInfo.oneTimeNotifPrekey, }, payloadSignature: identityInfo?.payloadSignature, - socialProof: identityInfo?.socialProof, }; try { const validatedKeys = assertWithValidator( deviceKeys, deviceOlmOutboundKeysValidator, ); return { deviceID, keys: validatedKeys, }; } catch (e) { console.log(e); return { deviceID, keys: null, }; } }, ); return devicesKeys.filter(Boolean); }; getInboundKeysForUser: ( userID: string, ) => Promise = async (userID: string) => { const client = this.authClient; if (!client) { throw new Error('Identity service client is not initialized'); } const request = new IdentityAuthStructs.InboundKeysForUserRequest(); request.setUserId(userID); const response = await client.getInboundKeysForUser(request); const devicesMap = response.toObject()?.devicesMap; if (!devicesMap || !Array.isArray(devicesMap)) { throw new Error('Invalid devicesMap'); } const devicesKeys: { [deviceID: string]: ?DeviceOlmInboundKeys, } = {}; devicesMap.forEach(([deviceID, inboundKeys]) => { const identityInfo = inboundKeys?.identityInfo; const payload = identityInfo?.payload; const contentPreKey = inboundKeys?.contentPrekey; const notifPreKey = inboundKeys?.notifPrekey; if (typeof deviceID !== 'string') { console.log(`Invalid deviceID in devicesMap: ${deviceID}`); return; } const deviceKeys = { identityKeysBlob: payload ? JSON.parse(payload) : null, signedPrekeys: { contentPrekey: contentPreKey?.prekey, contentPrekeySignature: contentPreKey?.prekeySignature, notifPrekey: notifPreKey?.prekey, notifPrekeySignature: notifPreKey?.prekeySignature, }, payloadSignature: identityInfo?.payloadSignature, }; try { devicesKeys[deviceID] = assertWithValidator( deviceKeys, deviceOlmInboundKeysValidator, ); } catch (e) { console.log(e); devicesKeys[deviceID] = null; } }); const identityInfo = response?.getIdentity(); const inboundUserKeys = { keys: devicesKeys, username: identityInfo?.getUsername(), walletAddress: identityInfo?.getEthIdentity()?.getWalletAddress(), }; return assertWithValidator( inboundUserKeys, userDeviceOlmInboundKeysValidator, ); }; uploadOneTimeKeys: (oneTimeKeys: OneTimeKeysResultValues) => Promise = async (oneTimeKeys: OneTimeKeysResultValues) => { const client = this.authClient; if (!client) { throw new Error('Identity service client is not initialized'); } const contentOneTimeKeysArray = [...oneTimeKeys.contentOneTimeKeys]; const notifOneTimeKeysArray = [...oneTimeKeys.notificationsOneTimeKeys]; const request = new IdentityAuthStructs.UploadOneTimeKeysRequest(); request.setContentOneTimePrekeysList(contentOneTimeKeysArray); request.setNotifOneTimePrekeysList(notifOneTimeKeysArray); await client.uploadOneTimeKeys(request); }; logInPasswordUser: ( username: string, password: string, ) => Promise = async ( username: string, password: string, ) => { const client = this.unauthClient; if (!client) { throw new Error('Identity service client is not initialized'); } const [identityDeviceKeyUpload] = await Promise.all([ this.getExistingDeviceKeyUpload(), initOpaque(this.overridedOpaqueFilepath), ]); const opaqueLogin = new Login(); const startRequestBytes = opaqueLogin.start(password); const deviceKeyUpload = authExistingDeviceKeyUpload( identityDeviceKeyUpload, ); const loginStartRequest = new OpaqueLoginStartRequest(); loginStartRequest.setUsername(username); loginStartRequest.setOpaqueLoginRequest(startRequestBytes); loginStartRequest.setDeviceKeyUpload(deviceKeyUpload); let loginStartResponse; try { loginStartResponse = await client.logInPasswordUserStart(loginStartRequest); } catch (e) { console.log('Error calling logInPasswordUserStart:', e); throw new Error(getMessageForException(e) ?? 'unknown'); } const finishRequestBytes = opaqueLogin.finish( loginStartResponse.getOpaqueLoginResponse_asU8(), ); const loginFinishRequest = new OpaqueLoginFinishRequest(); loginFinishRequest.setSessionId(loginStartResponse.getSessionId()); loginFinishRequest.setOpaqueLoginUpload(finishRequestBytes); let loginFinishResponse; try { loginFinishResponse = await client.logInPasswordUserFinish(loginFinishRequest); } catch (e) { console.log('Error calling logInPasswordUserFinish:', e); throw new Error(getMessageForException(e) ?? 'unknown'); } const userID = loginFinishResponse.getUserId(); const accessToken = loginFinishResponse.getAccessToken(); const identityAuthResult = { accessToken, userID, username }; return assertWithValidator(identityAuthResult, identityAuthResultValidator); }; logInWalletUser: ( walletAddress: string, siweMessage: string, siweSignature: string, ) => Promise = async ( walletAddress: string, siweMessage: string, siweSignature: string, ) => { const identityDeviceKeyUpload = await this.getExistingDeviceKeyUpload(); const deviceKeyUpload = authExistingDeviceKeyUpload( identityDeviceKeyUpload, ); const loginRequest = new WalletAuthRequest(); loginRequest.setSiweMessage(siweMessage); loginRequest.setSiweSignature(siweSignature); loginRequest.setDeviceKeyUpload(deviceKeyUpload); let loginResponse; try { loginResponse = await this.unauthClient.logInWalletUser(loginRequest); } catch (e) { console.log('Error calling logInWalletUser:', e); throw new Error(getMessageForException(e) ?? 'unknown'); } const userID = loginResponse.getUserId(); const accessToken = loginResponse.getAccessToken(); const identityAuthResult = { accessToken, userID, username: walletAddress }; return assertWithValidator(identityAuthResult, identityAuthResultValidator); }; uploadKeysForRegisteredDeviceAndLogIn: ( ownerUserID: string, nonceChallengeResponse: SignedMessage, ) => Promise = async ( ownerUserID, nonceChallengeResponse, ) => { const identityDeviceKeyUpload = await this.getNewDeviceKeyUpload(); const deviceKeyUpload = authNewDeviceKeyUpload(identityDeviceKeyUpload); const challengeResponse = JSON.stringify(nonceChallengeResponse); const request = new SecondaryDeviceKeysUploadRequest(); request.setUserId(ownerUserID); request.setChallengeResponse(challengeResponse); request.setDeviceKeyUpload(deviceKeyUpload); let response; try { response = await this.unauthClient.uploadKeysForRegisteredDeviceAndLogIn(request); } catch (e) { console.log('Error calling uploadKeysForRegisteredDeviceAndLogIn:', e); throw new Error(getMessageForException(e) ?? 'unknown'); } const userID = response.getUserId(); const accessToken = response.getAccessToken(); const identityAuthResult = { accessToken, userID, username: '' }; return assertWithValidator(identityAuthResult, identityAuthResultValidator); }; generateNonce: () => Promise = async () => { const result = await this.unauthClient.generateNonce(new Empty()); return result.getNonce(); }; publishWebPrekeys: (prekeys: SignedPrekeys) => Promise = async ( prekeys: SignedPrekeys, ) => { const client = this.authClient; if (!client) { throw new Error('Identity service client is not initialized'); } const contentPrekeyUpload = new Prekey(); contentPrekeyUpload.setPrekey(prekeys.contentPrekey); contentPrekeyUpload.setPrekeySignature(prekeys.contentPrekeySignature); const notifPrekeyUpload = new Prekey(); notifPrekeyUpload.setPrekey(prekeys.notifPrekey); notifPrekeyUpload.setPrekeySignature(prekeys.notifPrekeySignature); const request = new IdentityAuthStructs.RefreshUserPrekeysRequest(); request.setNewContentPrekeys(contentPrekeyUpload); request.setNewNotifPrekeys(notifPrekeyUpload); await client.refreshUserPrekeys(request); }; getDeviceListHistoryForUser: ( userID: string, sinceTimestamp?: number, ) => Promise<$ReadOnlyArray> = async ( userID, sinceTimestamp, ) => { const client = this.authClient; if (!client) { throw new Error('Identity service client is not initialized'); } const request = new IdentityAuthStructs.GetDeviceListRequest(); request.setUserId(userID); if (sinceTimestamp) { request.setSinceTimestamp(sinceTimestamp); } const response = await client.getDeviceListForUser(request); const rawPayloads = response.getDeviceListUpdatesList(); const deviceListUpdates: SignedDeviceList[] = rawPayloads.map(payload => JSON.parse(payload), ); return assertWithValidator( deviceListUpdates, signedDeviceListHistoryValidator, ); }; getFarcasterUsers: ( farcasterIDs: $ReadOnlyArray, ) => Promise<$ReadOnlyArray> = async farcasterIDs => { const getFarcasterUsersRequest = new GetFarcasterUsersRequest(); getFarcasterUsersRequest.setFarcasterIdsList([...farcasterIDs]); let getFarcasterUsersResponse; try { getFarcasterUsersResponse = await this.unauthClient.getFarcasterUsers( getFarcasterUsersRequest, ); } catch (e) { console.log('Error calling getFarcasterUsers:', e); throw new Error(getMessageForException(e) ?? 'unknown'); } const farcasterUsersList = getFarcasterUsersResponse.getFarcasterUsersList(); const returnList = []; for (const user of farcasterUsersList) { returnList.push({ userID: user.getUserId(), username: user.getUsername(), farcasterID: user.getFarcasterId(), }); } return assertWithValidator(returnList, farcasterUsersValidator); }; linkFarcasterAccount: (farcasterID: string) => Promise = async farcasterID => { const client = this.authClient; if (!client) { throw new Error('Identity service client is not initialized'); } const linkFarcasterAccountRequest = new IdentityAuthStructs.LinkFarcasterAccountRequest(); linkFarcasterAccountRequest.setFarcasterId(farcasterID); await client.linkFarcasterAccount(linkFarcasterAccountRequest); }; unlinkFarcasterAccount: () => Promise = async () => { const client = this.authClient; if (!client) { throw new Error('Identity service client is not initialized'); } await client.unlinkFarcasterAccount(new Empty()); }; } function authNewDeviceKeyUpload( uploadData: IdentityNewDeviceKeyUpload, ): DeviceKeyUpload { const { keyPayload, keyPayloadSignature, contentPrekey, contentPrekeySignature, notifPrekey, notifPrekeySignature, contentOneTimeKeys, notifOneTimeKeys, } = uploadData; const identityKeyInfo = createIdentityKeyInfo( keyPayload, keyPayloadSignature, ); const contentPrekeyUpload = createPrekey( contentPrekey, contentPrekeySignature, ); const notifPrekeyUpload = createPrekey(notifPrekey, notifPrekeySignature); const deviceKeyUpload = createDeviceKeyUpload( identityKeyInfo, contentPrekeyUpload, notifPrekeyUpload, contentOneTimeKeys, notifOneTimeKeys, ); return deviceKeyUpload; } function authExistingDeviceKeyUpload( uploadData: IdentityExistingDeviceKeyUpload, ): DeviceKeyUpload { const { keyPayload, keyPayloadSignature, contentPrekey, contentPrekeySignature, notifPrekey, notifPrekeySignature, } = uploadData; const identityKeyInfo = createIdentityKeyInfo( keyPayload, keyPayloadSignature, ); const contentPrekeyUpload = createPrekey( contentPrekey, contentPrekeySignature, ); const notifPrekeyUpload = createPrekey(notifPrekey, notifPrekeySignature); const deviceKeyUpload = createDeviceKeyUpload( identityKeyInfo, contentPrekeyUpload, notifPrekeyUpload, ); return deviceKeyUpload; } function createIdentityKeyInfo( keyPayload: string, keyPayloadSignature: string, ): IdentityKeyInfo { const identityKeyInfo = new IdentityKeyInfo(); identityKeyInfo.setPayload(keyPayload); identityKeyInfo.setPayloadSignature(keyPayloadSignature); return identityKeyInfo; } function createPrekey(prekey: string, prekeySignature: string): Prekey { const prekeyUpload = new Prekey(); prekeyUpload.setPrekey(prekey); prekeyUpload.setPrekeySignature(prekeySignature); return prekeyUpload; } function createDeviceKeyUpload( identityKeyInfo: IdentityKeyInfo, contentPrekeyUpload: Prekey, notifPrekeyUpload: Prekey, contentOneTimeKeys: $ReadOnlyArray = [], notifOneTimeKeys: $ReadOnlyArray = [], ): DeviceKeyUpload { const deviceKeyUpload = new DeviceKeyUpload(); deviceKeyUpload.setDeviceKeyInfo(identityKeyInfo); deviceKeyUpload.setContentUpload(contentPrekeyUpload); deviceKeyUpload.setNotifUpload(notifPrekeyUpload); deviceKeyUpload.setOneTimeContentPrekeysList([...contentOneTimeKeys]); deviceKeyUpload.setOneTimeNotifPrekeysList([...notifOneTimeKeys]); deviceKeyUpload.setDeviceType(identityDeviceTypes.WEB); return deviceKeyUpload; } export { IdentityServiceClientWrapper }; diff --git a/web/protobufs/identity-unauth-structs.cjs b/web/protobufs/identity-unauth-structs.cjs index 3454f6fd0..9545a1b77 100644 --- a/web/protobufs/identity-unauth-structs.cjs +++ b/web/protobufs/identity-unauth-structs.cjs @@ -1,5832 +1,5784 @@ // source: identity_unauth.proto /** * @fileoverview * @enhanceable * @suppress {missingRequire} reports error on implicit type usages. * @suppress {messageConventions} JS Compiler reports an error if a variable or * field starts with 'MSG_' and isn't a translatable message. * @public * @generated */ // GENERATED CODE -- DO NOT EDIT! /* eslint-disable */ // @ts-nocheck var jspb = require('google-protobuf'); var goog = jspb; var global = (typeof globalThis !== 'undefined' && globalThis) || (typeof window !== 'undefined' && window) || (typeof global !== 'undefined' && global) || (typeof self !== 'undefined' && self) || (function () { return this; }).call(null) || Function('return this')(); goog.exportSymbol('proto.identity.unauth.AddReservedUsernamesRequest', null, global); goog.exportSymbol('proto.identity.unauth.AuthResponse', null, global); goog.exportSymbol('proto.identity.unauth.DeviceKeyUpload', null, global); goog.exportSymbol('proto.identity.unauth.DeviceType', null, global); goog.exportSymbol('proto.identity.unauth.Empty', null, global); goog.exportSymbol('proto.identity.unauth.ExistingDeviceLoginRequest', null, global); goog.exportSymbol('proto.identity.unauth.FarcasterUser', null, global); goog.exportSymbol('proto.identity.unauth.FindUserIDRequest', null, global); goog.exportSymbol('proto.identity.unauth.FindUserIDRequest.IdentifierCase', null, global); goog.exportSymbol('proto.identity.unauth.FindUserIDResponse', null, global); goog.exportSymbol('proto.identity.unauth.GenerateNonceResponse', null, global); goog.exportSymbol('proto.identity.unauth.GetFarcasterUsersRequest', null, global); goog.exportSymbol('proto.identity.unauth.GetFarcasterUsersResponse', null, global); goog.exportSymbol('proto.identity.unauth.IdentityKeyInfo', null, global); goog.exportSymbol('proto.identity.unauth.OpaqueLoginFinishRequest', null, global); goog.exportSymbol('proto.identity.unauth.OpaqueLoginStartRequest', null, global); goog.exportSymbol('proto.identity.unauth.OpaqueLoginStartResponse', null, global); goog.exportSymbol('proto.identity.unauth.Prekey', null, global); goog.exportSymbol('proto.identity.unauth.RegistrationFinishRequest', null, global); goog.exportSymbol('proto.identity.unauth.RegistrationStartRequest', null, global); goog.exportSymbol('proto.identity.unauth.RegistrationStartResponse', null, global); goog.exportSymbol('proto.identity.unauth.RemoveReservedUsernameRequest', null, global); goog.exportSymbol('proto.identity.unauth.ReservedRegistrationStartRequest', null, global); goog.exportSymbol('proto.identity.unauth.ReservedWalletRegistrationRequest', null, global); goog.exportSymbol('proto.identity.unauth.SecondaryDeviceKeysUploadRequest', null, global); goog.exportSymbol('proto.identity.unauth.VerifyUserAccessTokenRequest', null, global); goog.exportSymbol('proto.identity.unauth.VerifyUserAccessTokenResponse', null, global); goog.exportSymbol('proto.identity.unauth.WalletAuthRequest', null, global); /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.Empty = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.Empty, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.Empty.displayName = 'proto.identity.unauth.Empty'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.Prekey = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.Prekey, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.Prekey.displayName = 'proto.identity.unauth.Prekey'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.IdentityKeyInfo = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.IdentityKeyInfo, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.IdentityKeyInfo.displayName = 'proto.identity.unauth.IdentityKeyInfo'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.DeviceKeyUpload = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, proto.identity.unauth.DeviceKeyUpload.repeatedFields_, null); }; goog.inherits(proto.identity.unauth.DeviceKeyUpload, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.DeviceKeyUpload.displayName = 'proto.identity.unauth.DeviceKeyUpload'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.RegistrationStartRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.RegistrationStartRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.RegistrationStartRequest.displayName = 'proto.identity.unauth.RegistrationStartRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.ReservedRegistrationStartRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.ReservedRegistrationStartRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.ReservedRegistrationStartRequest.displayName = 'proto.identity.unauth.ReservedRegistrationStartRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.RegistrationFinishRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.RegistrationFinishRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.RegistrationFinishRequest.displayName = 'proto.identity.unauth.RegistrationFinishRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.RegistrationStartResponse = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.RegistrationStartResponse, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.RegistrationStartResponse.displayName = 'proto.identity.unauth.RegistrationStartResponse'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.AuthResponse = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.AuthResponse, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.AuthResponse.displayName = 'proto.identity.unauth.AuthResponse'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.OpaqueLoginStartRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.OpaqueLoginStartRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.OpaqueLoginStartRequest.displayName = 'proto.identity.unauth.OpaqueLoginStartRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.OpaqueLoginFinishRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.OpaqueLoginFinishRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.OpaqueLoginFinishRequest.displayName = 'proto.identity.unauth.OpaqueLoginFinishRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.OpaqueLoginStartResponse = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.OpaqueLoginStartResponse, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.OpaqueLoginStartResponse.displayName = 'proto.identity.unauth.OpaqueLoginStartResponse'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.WalletAuthRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.WalletAuthRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.WalletAuthRequest.displayName = 'proto.identity.unauth.WalletAuthRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.ReservedWalletRegistrationRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.ReservedWalletRegistrationRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.ReservedWalletRegistrationRequest.displayName = 'proto.identity.unauth.ReservedWalletRegistrationRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.SecondaryDeviceKeysUploadRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.displayName = 'proto.identity.unauth.SecondaryDeviceKeysUploadRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.ExistingDeviceLoginRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.ExistingDeviceLoginRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.ExistingDeviceLoginRequest.displayName = 'proto.identity.unauth.ExistingDeviceLoginRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.GenerateNonceResponse = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.GenerateNonceResponse, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.GenerateNonceResponse.displayName = 'proto.identity.unauth.GenerateNonceResponse'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.VerifyUserAccessTokenRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.VerifyUserAccessTokenRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.VerifyUserAccessTokenRequest.displayName = 'proto.identity.unauth.VerifyUserAccessTokenRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.VerifyUserAccessTokenResponse = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.VerifyUserAccessTokenResponse, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.VerifyUserAccessTokenResponse.displayName = 'proto.identity.unauth.VerifyUserAccessTokenResponse'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.AddReservedUsernamesRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.AddReservedUsernamesRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.AddReservedUsernamesRequest.displayName = 'proto.identity.unauth.AddReservedUsernamesRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.RemoveReservedUsernameRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.RemoveReservedUsernameRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.RemoveReservedUsernameRequest.displayName = 'proto.identity.unauth.RemoveReservedUsernameRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.FindUserIDRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, proto.identity.unauth.FindUserIDRequest.oneofGroups_); }; goog.inherits(proto.identity.unauth.FindUserIDRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.FindUserIDRequest.displayName = 'proto.identity.unauth.FindUserIDRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.FindUserIDResponse = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.FindUserIDResponse, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.FindUserIDResponse.displayName = 'proto.identity.unauth.FindUserIDResponse'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.GetFarcasterUsersRequest = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, proto.identity.unauth.GetFarcasterUsersRequest.repeatedFields_, null); }; goog.inherits(proto.identity.unauth.GetFarcasterUsersRequest, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.GetFarcasterUsersRequest.displayName = 'proto.identity.unauth.GetFarcasterUsersRequest'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.GetFarcasterUsersResponse = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, proto.identity.unauth.GetFarcasterUsersResponse.repeatedFields_, null); }; goog.inherits(proto.identity.unauth.GetFarcasterUsersResponse, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.GetFarcasterUsersResponse.displayName = 'proto.identity.unauth.GetFarcasterUsersResponse'; } /** * Generated by JsPbCodeGenerator. * @param {Array=} opt_data Optional initial data array, typically from a * server response, or constructed directly in Javascript. The array is used * in place and becomes part of the constructed object. It is not cloned. * If no data is provided, the constructed object will be empty, but still * valid. * @extends {jspb.Message} * @constructor */ proto.identity.unauth.FarcasterUser = function(opt_data) { jspb.Message.initialize(this, opt_data, 0, -1, null, null); }; goog.inherits(proto.identity.unauth.FarcasterUser, jspb.Message); if (goog.DEBUG && !COMPILED) { /** * @public * @override */ proto.identity.unauth.FarcasterUser.displayName = 'proto.identity.unauth.FarcasterUser'; } if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.Empty.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.Empty.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.Empty} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.Empty.toObject = function(includeInstance, msg) { var f, obj = { }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.Empty} */ proto.identity.unauth.Empty.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.Empty; return proto.identity.unauth.Empty.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.Empty} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.Empty} */ proto.identity.unauth.Empty.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.Empty.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.Empty.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.Empty} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.Empty.serializeBinaryToWriter = function(message, writer) { var f = undefined; }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.Prekey.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.Prekey.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.Prekey} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.Prekey.toObject = function(includeInstance, msg) { var f, obj = { prekey: jspb.Message.getFieldWithDefault(msg, 1, ""), prekeySignature: jspb.Message.getFieldWithDefault(msg, 2, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.Prekey} */ proto.identity.unauth.Prekey.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.Prekey; return proto.identity.unauth.Prekey.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.Prekey} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.Prekey} */ proto.identity.unauth.Prekey.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setPrekey(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setPrekeySignature(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.Prekey.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.Prekey.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.Prekey} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.Prekey.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getPrekey(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getPrekeySignature(); if (f.length > 0) { writer.writeString( 2, f ); } }; /** * optional string prekey = 1; * @return {string} */ proto.identity.unauth.Prekey.prototype.getPrekey = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.Prekey} returns this */ proto.identity.unauth.Prekey.prototype.setPrekey = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string prekey_signature = 2; * @return {string} */ proto.identity.unauth.Prekey.prototype.getPrekeySignature = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.Prekey} returns this */ proto.identity.unauth.Prekey.prototype.setPrekeySignature = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.IdentityKeyInfo.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.IdentityKeyInfo.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.IdentityKeyInfo} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.IdentityKeyInfo.toObject = function(includeInstance, msg) { var f, obj = { payload: jspb.Message.getFieldWithDefault(msg, 1, ""), - payloadSignature: jspb.Message.getFieldWithDefault(msg, 2, ""), - socialProof: jspb.Message.getFieldWithDefault(msg, 3, "") + payloadSignature: jspb.Message.getFieldWithDefault(msg, 2, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.IdentityKeyInfo} */ proto.identity.unauth.IdentityKeyInfo.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.IdentityKeyInfo; return proto.identity.unauth.IdentityKeyInfo.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.IdentityKeyInfo} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.IdentityKeyInfo} */ proto.identity.unauth.IdentityKeyInfo.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setPayload(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setPayloadSignature(value); break; - case 3: - var value = /** @type {string} */ (reader.readString()); - msg.setSocialProof(value); - break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.IdentityKeyInfo.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.IdentityKeyInfo.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.IdentityKeyInfo} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.IdentityKeyInfo.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getPayload(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getPayloadSignature(); if (f.length > 0) { writer.writeString( 2, f ); } - f = /** @type {string} */ (jspb.Message.getField(message, 3)); - if (f != null) { - writer.writeString( - 3, - f - ); - } }; /** * optional string payload = 1; * @return {string} */ proto.identity.unauth.IdentityKeyInfo.prototype.getPayload = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.IdentityKeyInfo} returns this */ proto.identity.unauth.IdentityKeyInfo.prototype.setPayload = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string payload_signature = 2; * @return {string} */ proto.identity.unauth.IdentityKeyInfo.prototype.getPayloadSignature = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.IdentityKeyInfo} returns this */ proto.identity.unauth.IdentityKeyInfo.prototype.setPayloadSignature = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; -/** - * optional string social_proof = 3; - * @return {string} - */ -proto.identity.unauth.IdentityKeyInfo.prototype.getSocialProof = function() { - return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 3, "")); -}; - - -/** - * @param {string} value - * @return {!proto.identity.unauth.IdentityKeyInfo} returns this - */ -proto.identity.unauth.IdentityKeyInfo.prototype.setSocialProof = function(value) { - return jspb.Message.setField(this, 3, value); -}; - - -/** - * Clears the field making it undefined. - * @return {!proto.identity.unauth.IdentityKeyInfo} returns this - */ -proto.identity.unauth.IdentityKeyInfo.prototype.clearSocialProof = function() { - return jspb.Message.setField(this, 3, undefined); -}; - - -/** - * Returns whether this field is set. - * @return {boolean} - */ -proto.identity.unauth.IdentityKeyInfo.prototype.hasSocialProof = function() { - return jspb.Message.getField(this, 3) != null; -}; - - /** * List of repeated fields within this message type. * @private {!Array} * @const */ proto.identity.unauth.DeviceKeyUpload.repeatedFields_ = [4,5]; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.DeviceKeyUpload.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.DeviceKeyUpload.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.DeviceKeyUpload} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.DeviceKeyUpload.toObject = function(includeInstance, msg) { var f, obj = { deviceKeyInfo: (f = msg.getDeviceKeyInfo()) && proto.identity.unauth.IdentityKeyInfo.toObject(includeInstance, f), contentUpload: (f = msg.getContentUpload()) && proto.identity.unauth.Prekey.toObject(includeInstance, f), notifUpload: (f = msg.getNotifUpload()) && proto.identity.unauth.Prekey.toObject(includeInstance, f), oneTimeContentPrekeysList: (f = jspb.Message.getRepeatedField(msg, 4)) == null ? undefined : f, oneTimeNotifPrekeysList: (f = jspb.Message.getRepeatedField(msg, 5)) == null ? undefined : f, deviceType: jspb.Message.getFieldWithDefault(msg, 6, 0) }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.DeviceKeyUpload} */ proto.identity.unauth.DeviceKeyUpload.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.DeviceKeyUpload; return proto.identity.unauth.DeviceKeyUpload.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.DeviceKeyUpload} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.DeviceKeyUpload} */ proto.identity.unauth.DeviceKeyUpload.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = new proto.identity.unauth.IdentityKeyInfo; reader.readMessage(value,proto.identity.unauth.IdentityKeyInfo.deserializeBinaryFromReader); msg.setDeviceKeyInfo(value); break; case 2: var value = new proto.identity.unauth.Prekey; reader.readMessage(value,proto.identity.unauth.Prekey.deserializeBinaryFromReader); msg.setContentUpload(value); break; case 3: var value = new proto.identity.unauth.Prekey; reader.readMessage(value,proto.identity.unauth.Prekey.deserializeBinaryFromReader); msg.setNotifUpload(value); break; case 4: var value = /** @type {string} */ (reader.readString()); msg.addOneTimeContentPrekeys(value); break; case 5: var value = /** @type {string} */ (reader.readString()); msg.addOneTimeNotifPrekeys(value); break; case 6: var value = /** @type {!proto.identity.unauth.DeviceType} */ (reader.readEnum()); msg.setDeviceType(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.DeviceKeyUpload.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.DeviceKeyUpload.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.DeviceKeyUpload} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.DeviceKeyUpload.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getDeviceKeyInfo(); if (f != null) { writer.writeMessage( 1, f, proto.identity.unauth.IdentityKeyInfo.serializeBinaryToWriter ); } f = message.getContentUpload(); if (f != null) { writer.writeMessage( 2, f, proto.identity.unauth.Prekey.serializeBinaryToWriter ); } f = message.getNotifUpload(); if (f != null) { writer.writeMessage( 3, f, proto.identity.unauth.Prekey.serializeBinaryToWriter ); } f = message.getOneTimeContentPrekeysList(); if (f.length > 0) { writer.writeRepeatedString( 4, f ); } f = message.getOneTimeNotifPrekeysList(); if (f.length > 0) { writer.writeRepeatedString( 5, f ); } f = message.getDeviceType(); if (f !== 0.0) { writer.writeEnum( 6, f ); } }; /** * optional IdentityKeyInfo device_key_info = 1; * @return {?proto.identity.unauth.IdentityKeyInfo} */ proto.identity.unauth.DeviceKeyUpload.prototype.getDeviceKeyInfo = function() { return /** @type{?proto.identity.unauth.IdentityKeyInfo} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.IdentityKeyInfo, 1)); }; /** * @param {?proto.identity.unauth.IdentityKeyInfo|undefined} value * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.setDeviceKeyInfo = function(value) { return jspb.Message.setWrapperField(this, 1, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.clearDeviceKeyInfo = function() { return this.setDeviceKeyInfo(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.DeviceKeyUpload.prototype.hasDeviceKeyInfo = function() { return jspb.Message.getField(this, 1) != null; }; /** * optional Prekey content_upload = 2; * @return {?proto.identity.unauth.Prekey} */ proto.identity.unauth.DeviceKeyUpload.prototype.getContentUpload = function() { return /** @type{?proto.identity.unauth.Prekey} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.Prekey, 2)); }; /** * @param {?proto.identity.unauth.Prekey|undefined} value * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.setContentUpload = function(value) { return jspb.Message.setWrapperField(this, 2, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.clearContentUpload = function() { return this.setContentUpload(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.DeviceKeyUpload.prototype.hasContentUpload = function() { return jspb.Message.getField(this, 2) != null; }; /** * optional Prekey notif_upload = 3; * @return {?proto.identity.unauth.Prekey} */ proto.identity.unauth.DeviceKeyUpload.prototype.getNotifUpload = function() { return /** @type{?proto.identity.unauth.Prekey} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.Prekey, 3)); }; /** * @param {?proto.identity.unauth.Prekey|undefined} value * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.setNotifUpload = function(value) { return jspb.Message.setWrapperField(this, 3, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.clearNotifUpload = function() { return this.setNotifUpload(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.DeviceKeyUpload.prototype.hasNotifUpload = function() { return jspb.Message.getField(this, 3) != null; }; /** * repeated string one_time_content_prekeys = 4; * @return {!Array} */ proto.identity.unauth.DeviceKeyUpload.prototype.getOneTimeContentPrekeysList = function() { return /** @type {!Array} */ (jspb.Message.getRepeatedField(this, 4)); }; /** * @param {!Array} value * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.setOneTimeContentPrekeysList = function(value) { return jspb.Message.setField(this, 4, value || []); }; /** * @param {string} value * @param {number=} opt_index * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.addOneTimeContentPrekeys = function(value, opt_index) { return jspb.Message.addToRepeatedField(this, 4, value, opt_index); }; /** * Clears the list making it empty but non-null. * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.clearOneTimeContentPrekeysList = function() { return this.setOneTimeContentPrekeysList([]); }; /** * repeated string one_time_notif_prekeys = 5; * @return {!Array} */ proto.identity.unauth.DeviceKeyUpload.prototype.getOneTimeNotifPrekeysList = function() { return /** @type {!Array} */ (jspb.Message.getRepeatedField(this, 5)); }; /** * @param {!Array} value * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.setOneTimeNotifPrekeysList = function(value) { return jspb.Message.setField(this, 5, value || []); }; /** * @param {string} value * @param {number=} opt_index * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.addOneTimeNotifPrekeys = function(value, opt_index) { return jspb.Message.addToRepeatedField(this, 5, value, opt_index); }; /** * Clears the list making it empty but non-null. * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.clearOneTimeNotifPrekeysList = function() { return this.setOneTimeNotifPrekeysList([]); }; /** * optional DeviceType device_type = 6; * @return {!proto.identity.unauth.DeviceType} */ proto.identity.unauth.DeviceKeyUpload.prototype.getDeviceType = function() { return /** @type {!proto.identity.unauth.DeviceType} */ (jspb.Message.getFieldWithDefault(this, 6, 0)); }; /** * @param {!proto.identity.unauth.DeviceType} value * @return {!proto.identity.unauth.DeviceKeyUpload} returns this */ proto.identity.unauth.DeviceKeyUpload.prototype.setDeviceType = function(value) { return jspb.Message.setProto3EnumField(this, 6, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.RegistrationStartRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.RegistrationStartRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.RegistrationStartRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.RegistrationStartRequest.toObject = function(includeInstance, msg) { var f, obj = { opaqueRegistrationRequest: msg.getOpaqueRegistrationRequest_asB64(), username: jspb.Message.getFieldWithDefault(msg, 2, ""), deviceKeyUpload: (f = msg.getDeviceKeyUpload()) && proto.identity.unauth.DeviceKeyUpload.toObject(includeInstance, f), farcasterId: jspb.Message.getFieldWithDefault(msg, 4, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.RegistrationStartRequest} */ proto.identity.unauth.RegistrationStartRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.RegistrationStartRequest; return proto.identity.unauth.RegistrationStartRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.RegistrationStartRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.RegistrationStartRequest} */ proto.identity.unauth.RegistrationStartRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {!Uint8Array} */ (reader.readBytes()); msg.setOpaqueRegistrationRequest(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setUsername(value); break; case 3: var value = new proto.identity.unauth.DeviceKeyUpload; reader.readMessage(value,proto.identity.unauth.DeviceKeyUpload.deserializeBinaryFromReader); msg.setDeviceKeyUpload(value); break; case 4: var value = /** @type {string} */ (reader.readString()); msg.setFarcasterId(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.RegistrationStartRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.RegistrationStartRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.RegistrationStartRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.RegistrationStartRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getOpaqueRegistrationRequest_asU8(); if (f.length > 0) { writer.writeBytes( 1, f ); } f = message.getUsername(); if (f.length > 0) { writer.writeString( 2, f ); } f = message.getDeviceKeyUpload(); if (f != null) { writer.writeMessage( 3, f, proto.identity.unauth.DeviceKeyUpload.serializeBinaryToWriter ); } f = /** @type {string} */ (jspb.Message.getField(message, 4)); if (f != null) { writer.writeString( 4, f ); } }; /** * optional bytes opaque_registration_request = 1; * @return {string} */ proto.identity.unauth.RegistrationStartRequest.prototype.getOpaqueRegistrationRequest = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * optional bytes opaque_registration_request = 1; * This is a type-conversion wrapper around `getOpaqueRegistrationRequest()` * @return {string} */ proto.identity.unauth.RegistrationStartRequest.prototype.getOpaqueRegistrationRequest_asB64 = function() { return /** @type {string} */ (jspb.Message.bytesAsB64( this.getOpaqueRegistrationRequest())); }; /** * optional bytes opaque_registration_request = 1; * Note that Uint8Array is not supported on all browsers. * @see http://caniuse.com/Uint8Array * This is a type-conversion wrapper around `getOpaqueRegistrationRequest()` * @return {!Uint8Array} */ proto.identity.unauth.RegistrationStartRequest.prototype.getOpaqueRegistrationRequest_asU8 = function() { return /** @type {!Uint8Array} */ (jspb.Message.bytesAsU8( this.getOpaqueRegistrationRequest())); }; /** * @param {!(string|Uint8Array)} value * @return {!proto.identity.unauth.RegistrationStartRequest} returns this */ proto.identity.unauth.RegistrationStartRequest.prototype.setOpaqueRegistrationRequest = function(value) { return jspb.Message.setProto3BytesField(this, 1, value); }; /** * optional string username = 2; * @return {string} */ proto.identity.unauth.RegistrationStartRequest.prototype.getUsername = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.RegistrationStartRequest} returns this */ proto.identity.unauth.RegistrationStartRequest.prototype.setUsername = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * optional DeviceKeyUpload device_key_upload = 3; * @return {?proto.identity.unauth.DeviceKeyUpload} */ proto.identity.unauth.RegistrationStartRequest.prototype.getDeviceKeyUpload = function() { return /** @type{?proto.identity.unauth.DeviceKeyUpload} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.DeviceKeyUpload, 3)); }; /** * @param {?proto.identity.unauth.DeviceKeyUpload|undefined} value * @return {!proto.identity.unauth.RegistrationStartRequest} returns this */ proto.identity.unauth.RegistrationStartRequest.prototype.setDeviceKeyUpload = function(value) { return jspb.Message.setWrapperField(this, 3, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.RegistrationStartRequest} returns this */ proto.identity.unauth.RegistrationStartRequest.prototype.clearDeviceKeyUpload = function() { return this.setDeviceKeyUpload(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.RegistrationStartRequest.prototype.hasDeviceKeyUpload = function() { return jspb.Message.getField(this, 3) != null; }; /** * optional string farcaster_id = 4; * @return {string} */ proto.identity.unauth.RegistrationStartRequest.prototype.getFarcasterId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 4, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.RegistrationStartRequest} returns this */ proto.identity.unauth.RegistrationStartRequest.prototype.setFarcasterId = function(value) { return jspb.Message.setField(this, 4, value); }; /** * Clears the field making it undefined. * @return {!proto.identity.unauth.RegistrationStartRequest} returns this */ proto.identity.unauth.RegistrationStartRequest.prototype.clearFarcasterId = function() { return jspb.Message.setField(this, 4, undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.RegistrationStartRequest.prototype.hasFarcasterId = function() { return jspb.Message.getField(this, 4) != null; }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.ReservedRegistrationStartRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.ReservedRegistrationStartRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.ReservedRegistrationStartRequest.toObject = function(includeInstance, msg) { var f, obj = { opaqueRegistrationRequest: msg.getOpaqueRegistrationRequest_asB64(), username: jspb.Message.getFieldWithDefault(msg, 2, ""), deviceKeyUpload: (f = msg.getDeviceKeyUpload()) && proto.identity.unauth.DeviceKeyUpload.toObject(includeInstance, f), keyserverMessage: jspb.Message.getFieldWithDefault(msg, 4, ""), keyserverSignature: jspb.Message.getFieldWithDefault(msg, 5, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.ReservedRegistrationStartRequest} */ proto.identity.unauth.ReservedRegistrationStartRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.ReservedRegistrationStartRequest; return proto.identity.unauth.ReservedRegistrationStartRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.ReservedRegistrationStartRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.ReservedRegistrationStartRequest} */ proto.identity.unauth.ReservedRegistrationStartRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {!Uint8Array} */ (reader.readBytes()); msg.setOpaqueRegistrationRequest(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setUsername(value); break; case 3: var value = new proto.identity.unauth.DeviceKeyUpload; reader.readMessage(value,proto.identity.unauth.DeviceKeyUpload.deserializeBinaryFromReader); msg.setDeviceKeyUpload(value); break; case 4: var value = /** @type {string} */ (reader.readString()); msg.setKeyserverMessage(value); break; case 5: var value = /** @type {string} */ (reader.readString()); msg.setKeyserverSignature(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.ReservedRegistrationStartRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.ReservedRegistrationStartRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.ReservedRegistrationStartRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getOpaqueRegistrationRequest_asU8(); if (f.length > 0) { writer.writeBytes( 1, f ); } f = message.getUsername(); if (f.length > 0) { writer.writeString( 2, f ); } f = message.getDeviceKeyUpload(); if (f != null) { writer.writeMessage( 3, f, proto.identity.unauth.DeviceKeyUpload.serializeBinaryToWriter ); } f = message.getKeyserverMessage(); if (f.length > 0) { writer.writeString( 4, f ); } f = message.getKeyserverSignature(); if (f.length > 0) { writer.writeString( 5, f ); } }; /** * optional bytes opaque_registration_request = 1; * @return {string} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.getOpaqueRegistrationRequest = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * optional bytes opaque_registration_request = 1; * This is a type-conversion wrapper around `getOpaqueRegistrationRequest()` * @return {string} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.getOpaqueRegistrationRequest_asB64 = function() { return /** @type {string} */ (jspb.Message.bytesAsB64( this.getOpaqueRegistrationRequest())); }; /** * optional bytes opaque_registration_request = 1; * Note that Uint8Array is not supported on all browsers. * @see http://caniuse.com/Uint8Array * This is a type-conversion wrapper around `getOpaqueRegistrationRequest()` * @return {!Uint8Array} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.getOpaqueRegistrationRequest_asU8 = function() { return /** @type {!Uint8Array} */ (jspb.Message.bytesAsU8( this.getOpaqueRegistrationRequest())); }; /** * @param {!(string|Uint8Array)} value * @return {!proto.identity.unauth.ReservedRegistrationStartRequest} returns this */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.setOpaqueRegistrationRequest = function(value) { return jspb.Message.setProto3BytesField(this, 1, value); }; /** * optional string username = 2; * @return {string} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.getUsername = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ReservedRegistrationStartRequest} returns this */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.setUsername = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * optional DeviceKeyUpload device_key_upload = 3; * @return {?proto.identity.unauth.DeviceKeyUpload} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.getDeviceKeyUpload = function() { return /** @type{?proto.identity.unauth.DeviceKeyUpload} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.DeviceKeyUpload, 3)); }; /** * @param {?proto.identity.unauth.DeviceKeyUpload|undefined} value * @return {!proto.identity.unauth.ReservedRegistrationStartRequest} returns this */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.setDeviceKeyUpload = function(value) { return jspb.Message.setWrapperField(this, 3, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.ReservedRegistrationStartRequest} returns this */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.clearDeviceKeyUpload = function() { return this.setDeviceKeyUpload(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.hasDeviceKeyUpload = function() { return jspb.Message.getField(this, 3) != null; }; /** * optional string keyserver_message = 4; * @return {string} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.getKeyserverMessage = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 4, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ReservedRegistrationStartRequest} returns this */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.setKeyserverMessage = function(value) { return jspb.Message.setProto3StringField(this, 4, value); }; /** * optional string keyserver_signature = 5; * @return {string} */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.getKeyserverSignature = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 5, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ReservedRegistrationStartRequest} returns this */ proto.identity.unauth.ReservedRegistrationStartRequest.prototype.setKeyserverSignature = function(value) { return jspb.Message.setProto3StringField(this, 5, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.RegistrationFinishRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.RegistrationFinishRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.RegistrationFinishRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.RegistrationFinishRequest.toObject = function(includeInstance, msg) { var f, obj = { sessionId: jspb.Message.getFieldWithDefault(msg, 1, ""), opaqueRegistrationUpload: msg.getOpaqueRegistrationUpload_asB64() }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.RegistrationFinishRequest} */ proto.identity.unauth.RegistrationFinishRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.RegistrationFinishRequest; return proto.identity.unauth.RegistrationFinishRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.RegistrationFinishRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.RegistrationFinishRequest} */ proto.identity.unauth.RegistrationFinishRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setSessionId(value); break; case 2: var value = /** @type {!Uint8Array} */ (reader.readBytes()); msg.setOpaqueRegistrationUpload(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.RegistrationFinishRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.RegistrationFinishRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.RegistrationFinishRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.RegistrationFinishRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getSessionId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getOpaqueRegistrationUpload_asU8(); if (f.length > 0) { writer.writeBytes( 2, f ); } }; /** * optional string session_id = 1; * @return {string} */ proto.identity.unauth.RegistrationFinishRequest.prototype.getSessionId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.RegistrationFinishRequest} returns this */ proto.identity.unauth.RegistrationFinishRequest.prototype.setSessionId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional bytes opaque_registration_upload = 2; * @return {string} */ proto.identity.unauth.RegistrationFinishRequest.prototype.getOpaqueRegistrationUpload = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * optional bytes opaque_registration_upload = 2; * This is a type-conversion wrapper around `getOpaqueRegistrationUpload()` * @return {string} */ proto.identity.unauth.RegistrationFinishRequest.prototype.getOpaqueRegistrationUpload_asB64 = function() { return /** @type {string} */ (jspb.Message.bytesAsB64( this.getOpaqueRegistrationUpload())); }; /** * optional bytes opaque_registration_upload = 2; * Note that Uint8Array is not supported on all browsers. * @see http://caniuse.com/Uint8Array * This is a type-conversion wrapper around `getOpaqueRegistrationUpload()` * @return {!Uint8Array} */ proto.identity.unauth.RegistrationFinishRequest.prototype.getOpaqueRegistrationUpload_asU8 = function() { return /** @type {!Uint8Array} */ (jspb.Message.bytesAsU8( this.getOpaqueRegistrationUpload())); }; /** * @param {!(string|Uint8Array)} value * @return {!proto.identity.unauth.RegistrationFinishRequest} returns this */ proto.identity.unauth.RegistrationFinishRequest.prototype.setOpaqueRegistrationUpload = function(value) { return jspb.Message.setProto3BytesField(this, 2, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.RegistrationStartResponse.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.RegistrationStartResponse.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.RegistrationStartResponse} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.RegistrationStartResponse.toObject = function(includeInstance, msg) { var f, obj = { sessionId: jspb.Message.getFieldWithDefault(msg, 1, ""), opaqueRegistrationResponse: msg.getOpaqueRegistrationResponse_asB64() }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.RegistrationStartResponse} */ proto.identity.unauth.RegistrationStartResponse.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.RegistrationStartResponse; return proto.identity.unauth.RegistrationStartResponse.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.RegistrationStartResponse} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.RegistrationStartResponse} */ proto.identity.unauth.RegistrationStartResponse.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setSessionId(value); break; case 2: var value = /** @type {!Uint8Array} */ (reader.readBytes()); msg.setOpaqueRegistrationResponse(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.RegistrationStartResponse.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.RegistrationStartResponse.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.RegistrationStartResponse} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.RegistrationStartResponse.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getSessionId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getOpaqueRegistrationResponse_asU8(); if (f.length > 0) { writer.writeBytes( 2, f ); } }; /** * optional string session_id = 1; * @return {string} */ proto.identity.unauth.RegistrationStartResponse.prototype.getSessionId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.RegistrationStartResponse} returns this */ proto.identity.unauth.RegistrationStartResponse.prototype.setSessionId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional bytes opaque_registration_response = 2; * @return {string} */ proto.identity.unauth.RegistrationStartResponse.prototype.getOpaqueRegistrationResponse = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * optional bytes opaque_registration_response = 2; * This is a type-conversion wrapper around `getOpaqueRegistrationResponse()` * @return {string} */ proto.identity.unauth.RegistrationStartResponse.prototype.getOpaqueRegistrationResponse_asB64 = function() { return /** @type {string} */ (jspb.Message.bytesAsB64( this.getOpaqueRegistrationResponse())); }; /** * optional bytes opaque_registration_response = 2; * Note that Uint8Array is not supported on all browsers. * @see http://caniuse.com/Uint8Array * This is a type-conversion wrapper around `getOpaqueRegistrationResponse()` * @return {!Uint8Array} */ proto.identity.unauth.RegistrationStartResponse.prototype.getOpaqueRegistrationResponse_asU8 = function() { return /** @type {!Uint8Array} */ (jspb.Message.bytesAsU8( this.getOpaqueRegistrationResponse())); }; /** * @param {!(string|Uint8Array)} value * @return {!proto.identity.unauth.RegistrationStartResponse} returns this */ proto.identity.unauth.RegistrationStartResponse.prototype.setOpaqueRegistrationResponse = function(value) { return jspb.Message.setProto3BytesField(this, 2, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.AuthResponse.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.AuthResponse.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.AuthResponse} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.AuthResponse.toObject = function(includeInstance, msg) { var f, obj = { userId: jspb.Message.getFieldWithDefault(msg, 1, ""), accessToken: jspb.Message.getFieldWithDefault(msg, 2, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.AuthResponse} */ proto.identity.unauth.AuthResponse.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.AuthResponse; return proto.identity.unauth.AuthResponse.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.AuthResponse} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.AuthResponse} */ proto.identity.unauth.AuthResponse.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setUserId(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setAccessToken(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.AuthResponse.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.AuthResponse.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.AuthResponse} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.AuthResponse.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getUserId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getAccessToken(); if (f.length > 0) { writer.writeString( 2, f ); } }; /** * optional string user_id = 1; * @return {string} */ proto.identity.unauth.AuthResponse.prototype.getUserId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.AuthResponse} returns this */ proto.identity.unauth.AuthResponse.prototype.setUserId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string access_token = 2; * @return {string} */ proto.identity.unauth.AuthResponse.prototype.getAccessToken = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.AuthResponse} returns this */ proto.identity.unauth.AuthResponse.prototype.setAccessToken = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.OpaqueLoginStartRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.OpaqueLoginStartRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.OpaqueLoginStartRequest.toObject = function(includeInstance, msg) { var f, obj = { username: jspb.Message.getFieldWithDefault(msg, 1, ""), opaqueLoginRequest: msg.getOpaqueLoginRequest_asB64(), deviceKeyUpload: (f = msg.getDeviceKeyUpload()) && proto.identity.unauth.DeviceKeyUpload.toObject(includeInstance, f), force: jspb.Message.getBooleanFieldWithDefault(msg, 4, false) }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.OpaqueLoginStartRequest} */ proto.identity.unauth.OpaqueLoginStartRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.OpaqueLoginStartRequest; return proto.identity.unauth.OpaqueLoginStartRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.OpaqueLoginStartRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.OpaqueLoginStartRequest} */ proto.identity.unauth.OpaqueLoginStartRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setUsername(value); break; case 2: var value = /** @type {!Uint8Array} */ (reader.readBytes()); msg.setOpaqueLoginRequest(value); break; case 3: var value = new proto.identity.unauth.DeviceKeyUpload; reader.readMessage(value,proto.identity.unauth.DeviceKeyUpload.deserializeBinaryFromReader); msg.setDeviceKeyUpload(value); break; case 4: var value = /** @type {boolean} */ (reader.readBool()); msg.setForce(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.OpaqueLoginStartRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.OpaqueLoginStartRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.OpaqueLoginStartRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getUsername(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getOpaqueLoginRequest_asU8(); if (f.length > 0) { writer.writeBytes( 2, f ); } f = message.getDeviceKeyUpload(); if (f != null) { writer.writeMessage( 3, f, proto.identity.unauth.DeviceKeyUpload.serializeBinaryToWriter ); } f = /** @type {boolean} */ (jspb.Message.getField(message, 4)); if (f != null) { writer.writeBool( 4, f ); } }; /** * optional string username = 1; * @return {string} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.getUsername = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.OpaqueLoginStartRequest} returns this */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.setUsername = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional bytes opaque_login_request = 2; * @return {string} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.getOpaqueLoginRequest = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * optional bytes opaque_login_request = 2; * This is a type-conversion wrapper around `getOpaqueLoginRequest()` * @return {string} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.getOpaqueLoginRequest_asB64 = function() { return /** @type {string} */ (jspb.Message.bytesAsB64( this.getOpaqueLoginRequest())); }; /** * optional bytes opaque_login_request = 2; * Note that Uint8Array is not supported on all browsers. * @see http://caniuse.com/Uint8Array * This is a type-conversion wrapper around `getOpaqueLoginRequest()` * @return {!Uint8Array} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.getOpaqueLoginRequest_asU8 = function() { return /** @type {!Uint8Array} */ (jspb.Message.bytesAsU8( this.getOpaqueLoginRequest())); }; /** * @param {!(string|Uint8Array)} value * @return {!proto.identity.unauth.OpaqueLoginStartRequest} returns this */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.setOpaqueLoginRequest = function(value) { return jspb.Message.setProto3BytesField(this, 2, value); }; /** * optional DeviceKeyUpload device_key_upload = 3; * @return {?proto.identity.unauth.DeviceKeyUpload} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.getDeviceKeyUpload = function() { return /** @type{?proto.identity.unauth.DeviceKeyUpload} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.DeviceKeyUpload, 3)); }; /** * @param {?proto.identity.unauth.DeviceKeyUpload|undefined} value * @return {!proto.identity.unauth.OpaqueLoginStartRequest} returns this */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.setDeviceKeyUpload = function(value) { return jspb.Message.setWrapperField(this, 3, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.OpaqueLoginStartRequest} returns this */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.clearDeviceKeyUpload = function() { return this.setDeviceKeyUpload(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.hasDeviceKeyUpload = function() { return jspb.Message.getField(this, 3) != null; }; /** * optional bool force = 4; * @return {boolean} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.getForce = function() { return /** @type {boolean} */ (jspb.Message.getBooleanFieldWithDefault(this, 4, false)); }; /** * @param {boolean} value * @return {!proto.identity.unauth.OpaqueLoginStartRequest} returns this */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.setForce = function(value) { return jspb.Message.setField(this, 4, value); }; /** * Clears the field making it undefined. * @return {!proto.identity.unauth.OpaqueLoginStartRequest} returns this */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.clearForce = function() { return jspb.Message.setField(this, 4, undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.OpaqueLoginStartRequest.prototype.hasForce = function() { return jspb.Message.getField(this, 4) != null; }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.OpaqueLoginFinishRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.OpaqueLoginFinishRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.OpaqueLoginFinishRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.OpaqueLoginFinishRequest.toObject = function(includeInstance, msg) { var f, obj = { sessionId: jspb.Message.getFieldWithDefault(msg, 1, ""), opaqueLoginUpload: msg.getOpaqueLoginUpload_asB64() }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.OpaqueLoginFinishRequest} */ proto.identity.unauth.OpaqueLoginFinishRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.OpaqueLoginFinishRequest; return proto.identity.unauth.OpaqueLoginFinishRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.OpaqueLoginFinishRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.OpaqueLoginFinishRequest} */ proto.identity.unauth.OpaqueLoginFinishRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setSessionId(value); break; case 2: var value = /** @type {!Uint8Array} */ (reader.readBytes()); msg.setOpaqueLoginUpload(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.OpaqueLoginFinishRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.OpaqueLoginFinishRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.OpaqueLoginFinishRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.OpaqueLoginFinishRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getSessionId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getOpaqueLoginUpload_asU8(); if (f.length > 0) { writer.writeBytes( 2, f ); } }; /** * optional string session_id = 1; * @return {string} */ proto.identity.unauth.OpaqueLoginFinishRequest.prototype.getSessionId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.OpaqueLoginFinishRequest} returns this */ proto.identity.unauth.OpaqueLoginFinishRequest.prototype.setSessionId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional bytes opaque_login_upload = 2; * @return {string} */ proto.identity.unauth.OpaqueLoginFinishRequest.prototype.getOpaqueLoginUpload = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * optional bytes opaque_login_upload = 2; * This is a type-conversion wrapper around `getOpaqueLoginUpload()` * @return {string} */ proto.identity.unauth.OpaqueLoginFinishRequest.prototype.getOpaqueLoginUpload_asB64 = function() { return /** @type {string} */ (jspb.Message.bytesAsB64( this.getOpaqueLoginUpload())); }; /** * optional bytes opaque_login_upload = 2; * Note that Uint8Array is not supported on all browsers. * @see http://caniuse.com/Uint8Array * This is a type-conversion wrapper around `getOpaqueLoginUpload()` * @return {!Uint8Array} */ proto.identity.unauth.OpaqueLoginFinishRequest.prototype.getOpaqueLoginUpload_asU8 = function() { return /** @type {!Uint8Array} */ (jspb.Message.bytesAsU8( this.getOpaqueLoginUpload())); }; /** * @param {!(string|Uint8Array)} value * @return {!proto.identity.unauth.OpaqueLoginFinishRequest} returns this */ proto.identity.unauth.OpaqueLoginFinishRequest.prototype.setOpaqueLoginUpload = function(value) { return jspb.Message.setProto3BytesField(this, 2, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.OpaqueLoginStartResponse.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.OpaqueLoginStartResponse.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.OpaqueLoginStartResponse} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.OpaqueLoginStartResponse.toObject = function(includeInstance, msg) { var f, obj = { sessionId: jspb.Message.getFieldWithDefault(msg, 1, ""), opaqueLoginResponse: msg.getOpaqueLoginResponse_asB64() }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.OpaqueLoginStartResponse} */ proto.identity.unauth.OpaqueLoginStartResponse.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.OpaqueLoginStartResponse; return proto.identity.unauth.OpaqueLoginStartResponse.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.OpaqueLoginStartResponse} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.OpaqueLoginStartResponse} */ proto.identity.unauth.OpaqueLoginStartResponse.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setSessionId(value); break; case 2: var value = /** @type {!Uint8Array} */ (reader.readBytes()); msg.setOpaqueLoginResponse(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.OpaqueLoginStartResponse.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.OpaqueLoginStartResponse.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.OpaqueLoginStartResponse} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.OpaqueLoginStartResponse.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getSessionId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getOpaqueLoginResponse_asU8(); if (f.length > 0) { writer.writeBytes( 2, f ); } }; /** * optional string session_id = 1; * @return {string} */ proto.identity.unauth.OpaqueLoginStartResponse.prototype.getSessionId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.OpaqueLoginStartResponse} returns this */ proto.identity.unauth.OpaqueLoginStartResponse.prototype.setSessionId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional bytes opaque_login_response = 2; * @return {string} */ proto.identity.unauth.OpaqueLoginStartResponse.prototype.getOpaqueLoginResponse = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * optional bytes opaque_login_response = 2; * This is a type-conversion wrapper around `getOpaqueLoginResponse()` * @return {string} */ proto.identity.unauth.OpaqueLoginStartResponse.prototype.getOpaqueLoginResponse_asB64 = function() { return /** @type {string} */ (jspb.Message.bytesAsB64( this.getOpaqueLoginResponse())); }; /** * optional bytes opaque_login_response = 2; * Note that Uint8Array is not supported on all browsers. * @see http://caniuse.com/Uint8Array * This is a type-conversion wrapper around `getOpaqueLoginResponse()` * @return {!Uint8Array} */ proto.identity.unauth.OpaqueLoginStartResponse.prototype.getOpaqueLoginResponse_asU8 = function() { return /** @type {!Uint8Array} */ (jspb.Message.bytesAsU8( this.getOpaqueLoginResponse())); }; /** * @param {!(string|Uint8Array)} value * @return {!proto.identity.unauth.OpaqueLoginStartResponse} returns this */ proto.identity.unauth.OpaqueLoginStartResponse.prototype.setOpaqueLoginResponse = function(value) { return jspb.Message.setProto3BytesField(this, 2, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.WalletAuthRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.WalletAuthRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.WalletAuthRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.WalletAuthRequest.toObject = function(includeInstance, msg) { var f, obj = { siweMessage: jspb.Message.getFieldWithDefault(msg, 1, ""), siweSignature: jspb.Message.getFieldWithDefault(msg, 2, ""), deviceKeyUpload: (f = msg.getDeviceKeyUpload()) && proto.identity.unauth.DeviceKeyUpload.toObject(includeInstance, f), farcasterId: jspb.Message.getFieldWithDefault(msg, 4, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.WalletAuthRequest} */ proto.identity.unauth.WalletAuthRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.WalletAuthRequest; return proto.identity.unauth.WalletAuthRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.WalletAuthRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.WalletAuthRequest} */ proto.identity.unauth.WalletAuthRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setSiweMessage(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setSiweSignature(value); break; case 3: var value = new proto.identity.unauth.DeviceKeyUpload; reader.readMessage(value,proto.identity.unauth.DeviceKeyUpload.deserializeBinaryFromReader); msg.setDeviceKeyUpload(value); break; case 4: var value = /** @type {string} */ (reader.readString()); msg.setFarcasterId(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.WalletAuthRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.WalletAuthRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.WalletAuthRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.WalletAuthRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getSiweMessage(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getSiweSignature(); if (f.length > 0) { writer.writeString( 2, f ); } f = message.getDeviceKeyUpload(); if (f != null) { writer.writeMessage( 3, f, proto.identity.unauth.DeviceKeyUpload.serializeBinaryToWriter ); } f = /** @type {string} */ (jspb.Message.getField(message, 4)); if (f != null) { writer.writeString( 4, f ); } }; /** * optional string siwe_message = 1; * @return {string} */ proto.identity.unauth.WalletAuthRequest.prototype.getSiweMessage = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.WalletAuthRequest} returns this */ proto.identity.unauth.WalletAuthRequest.prototype.setSiweMessage = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string siwe_signature = 2; * @return {string} */ proto.identity.unauth.WalletAuthRequest.prototype.getSiweSignature = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.WalletAuthRequest} returns this */ proto.identity.unauth.WalletAuthRequest.prototype.setSiweSignature = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * optional DeviceKeyUpload device_key_upload = 3; * @return {?proto.identity.unauth.DeviceKeyUpload} */ proto.identity.unauth.WalletAuthRequest.prototype.getDeviceKeyUpload = function() { return /** @type{?proto.identity.unauth.DeviceKeyUpload} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.DeviceKeyUpload, 3)); }; /** * @param {?proto.identity.unauth.DeviceKeyUpload|undefined} value * @return {!proto.identity.unauth.WalletAuthRequest} returns this */ proto.identity.unauth.WalletAuthRequest.prototype.setDeviceKeyUpload = function(value) { return jspb.Message.setWrapperField(this, 3, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.WalletAuthRequest} returns this */ proto.identity.unauth.WalletAuthRequest.prototype.clearDeviceKeyUpload = function() { return this.setDeviceKeyUpload(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.WalletAuthRequest.prototype.hasDeviceKeyUpload = function() { return jspb.Message.getField(this, 3) != null; }; /** * optional string farcaster_id = 4; * @return {string} */ proto.identity.unauth.WalletAuthRequest.prototype.getFarcasterId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 4, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.WalletAuthRequest} returns this */ proto.identity.unauth.WalletAuthRequest.prototype.setFarcasterId = function(value) { return jspb.Message.setField(this, 4, value); }; /** * Clears the field making it undefined. * @return {!proto.identity.unauth.WalletAuthRequest} returns this */ proto.identity.unauth.WalletAuthRequest.prototype.clearFarcasterId = function() { return jspb.Message.setField(this, 4, undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.WalletAuthRequest.prototype.hasFarcasterId = function() { return jspb.Message.getField(this, 4) != null; }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.ReservedWalletRegistrationRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.ReservedWalletRegistrationRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.ReservedWalletRegistrationRequest.toObject = function(includeInstance, msg) { var f, obj = { siweMessage: jspb.Message.getFieldWithDefault(msg, 1, ""), siweSignature: jspb.Message.getFieldWithDefault(msg, 2, ""), deviceKeyUpload: (f = msg.getDeviceKeyUpload()) && proto.identity.unauth.DeviceKeyUpload.toObject(includeInstance, f), keyserverMessage: jspb.Message.getFieldWithDefault(msg, 4, ""), keyserverSignature: jspb.Message.getFieldWithDefault(msg, 5, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.ReservedWalletRegistrationRequest} */ proto.identity.unauth.ReservedWalletRegistrationRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.ReservedWalletRegistrationRequest; return proto.identity.unauth.ReservedWalletRegistrationRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.ReservedWalletRegistrationRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.ReservedWalletRegistrationRequest} */ proto.identity.unauth.ReservedWalletRegistrationRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setSiweMessage(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setSiweSignature(value); break; case 3: var value = new proto.identity.unauth.DeviceKeyUpload; reader.readMessage(value,proto.identity.unauth.DeviceKeyUpload.deserializeBinaryFromReader); msg.setDeviceKeyUpload(value); break; case 4: var value = /** @type {string} */ (reader.readString()); msg.setKeyserverMessage(value); break; case 5: var value = /** @type {string} */ (reader.readString()); msg.setKeyserverSignature(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.ReservedWalletRegistrationRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.ReservedWalletRegistrationRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.ReservedWalletRegistrationRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getSiweMessage(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getSiweSignature(); if (f.length > 0) { writer.writeString( 2, f ); } f = message.getDeviceKeyUpload(); if (f != null) { writer.writeMessage( 3, f, proto.identity.unauth.DeviceKeyUpload.serializeBinaryToWriter ); } f = message.getKeyserverMessage(); if (f.length > 0) { writer.writeString( 4, f ); } f = message.getKeyserverSignature(); if (f.length > 0) { writer.writeString( 5, f ); } }; /** * optional string siwe_message = 1; * @return {string} */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.getSiweMessage = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ReservedWalletRegistrationRequest} returns this */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.setSiweMessage = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string siwe_signature = 2; * @return {string} */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.getSiweSignature = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ReservedWalletRegistrationRequest} returns this */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.setSiweSignature = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * optional DeviceKeyUpload device_key_upload = 3; * @return {?proto.identity.unauth.DeviceKeyUpload} */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.getDeviceKeyUpload = function() { return /** @type{?proto.identity.unauth.DeviceKeyUpload} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.DeviceKeyUpload, 3)); }; /** * @param {?proto.identity.unauth.DeviceKeyUpload|undefined} value * @return {!proto.identity.unauth.ReservedWalletRegistrationRequest} returns this */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.setDeviceKeyUpload = function(value) { return jspb.Message.setWrapperField(this, 3, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.ReservedWalletRegistrationRequest} returns this */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.clearDeviceKeyUpload = function() { return this.setDeviceKeyUpload(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.hasDeviceKeyUpload = function() { return jspb.Message.getField(this, 3) != null; }; /** * optional string keyserver_message = 4; * @return {string} */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.getKeyserverMessage = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 4, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ReservedWalletRegistrationRequest} returns this */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.setKeyserverMessage = function(value) { return jspb.Message.setProto3StringField(this, 4, value); }; /** * optional string keyserver_signature = 5; * @return {string} */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.getKeyserverSignature = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 5, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ReservedWalletRegistrationRequest} returns this */ proto.identity.unauth.ReservedWalletRegistrationRequest.prototype.setKeyserverSignature = function(value) { return jspb.Message.setProto3StringField(this, 5, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.SecondaryDeviceKeysUploadRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.toObject = function(includeInstance, msg) { var f, obj = { userId: jspb.Message.getFieldWithDefault(msg, 1, ""), challengeResponse: jspb.Message.getFieldWithDefault(msg, 2, ""), deviceKeyUpload: (f = msg.getDeviceKeyUpload()) && proto.identity.unauth.DeviceKeyUpload.toObject(includeInstance, f) }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.SecondaryDeviceKeysUploadRequest; return proto.identity.unauth.SecondaryDeviceKeysUploadRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setUserId(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setChallengeResponse(value); break; case 3: var value = new proto.identity.unauth.DeviceKeyUpload; reader.readMessage(value,proto.identity.unauth.DeviceKeyUpload.deserializeBinaryFromReader); msg.setDeviceKeyUpload(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.SecondaryDeviceKeysUploadRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getUserId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getChallengeResponse(); if (f.length > 0) { writer.writeString( 2, f ); } f = message.getDeviceKeyUpload(); if (f != null) { writer.writeMessage( 3, f, proto.identity.unauth.DeviceKeyUpload.serializeBinaryToWriter ); } }; /** * optional string user_id = 1; * @return {string} */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.getUserId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} returns this */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.setUserId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string challenge_response = 2; * @return {string} */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.getChallengeResponse = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} returns this */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.setChallengeResponse = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * optional DeviceKeyUpload device_key_upload = 3; * @return {?proto.identity.unauth.DeviceKeyUpload} */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.getDeviceKeyUpload = function() { return /** @type{?proto.identity.unauth.DeviceKeyUpload} */ ( jspb.Message.getWrapperField(this, proto.identity.unauth.DeviceKeyUpload, 3)); }; /** * @param {?proto.identity.unauth.DeviceKeyUpload|undefined} value * @return {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} returns this */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.setDeviceKeyUpload = function(value) { return jspb.Message.setWrapperField(this, 3, value); }; /** * Clears the message field making it undefined. * @return {!proto.identity.unauth.SecondaryDeviceKeysUploadRequest} returns this */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.clearDeviceKeyUpload = function() { return this.setDeviceKeyUpload(undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.SecondaryDeviceKeysUploadRequest.prototype.hasDeviceKeyUpload = function() { return jspb.Message.getField(this, 3) != null; }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.ExistingDeviceLoginRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.ExistingDeviceLoginRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.ExistingDeviceLoginRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.ExistingDeviceLoginRequest.toObject = function(includeInstance, msg) { var f, obj = { userId: jspb.Message.getFieldWithDefault(msg, 1, ""), deviceId: jspb.Message.getFieldWithDefault(msg, 2, ""), challengeResponse: jspb.Message.getFieldWithDefault(msg, 3, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.ExistingDeviceLoginRequest} */ proto.identity.unauth.ExistingDeviceLoginRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.ExistingDeviceLoginRequest; return proto.identity.unauth.ExistingDeviceLoginRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.ExistingDeviceLoginRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.ExistingDeviceLoginRequest} */ proto.identity.unauth.ExistingDeviceLoginRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setUserId(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setDeviceId(value); break; case 3: var value = /** @type {string} */ (reader.readString()); msg.setChallengeResponse(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.ExistingDeviceLoginRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.ExistingDeviceLoginRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.ExistingDeviceLoginRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.ExistingDeviceLoginRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getUserId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getDeviceId(); if (f.length > 0) { writer.writeString( 2, f ); } f = message.getChallengeResponse(); if (f.length > 0) { writer.writeString( 3, f ); } }; /** * optional string user_id = 1; * @return {string} */ proto.identity.unauth.ExistingDeviceLoginRequest.prototype.getUserId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ExistingDeviceLoginRequest} returns this */ proto.identity.unauth.ExistingDeviceLoginRequest.prototype.setUserId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string device_id = 2; * @return {string} */ proto.identity.unauth.ExistingDeviceLoginRequest.prototype.getDeviceId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ExistingDeviceLoginRequest} returns this */ proto.identity.unauth.ExistingDeviceLoginRequest.prototype.setDeviceId = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * optional string challenge_response = 3; * @return {string} */ proto.identity.unauth.ExistingDeviceLoginRequest.prototype.getChallengeResponse = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 3, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.ExistingDeviceLoginRequest} returns this */ proto.identity.unauth.ExistingDeviceLoginRequest.prototype.setChallengeResponse = function(value) { return jspb.Message.setProto3StringField(this, 3, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.GenerateNonceResponse.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.GenerateNonceResponse.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.GenerateNonceResponse} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.GenerateNonceResponse.toObject = function(includeInstance, msg) { var f, obj = { nonce: jspb.Message.getFieldWithDefault(msg, 1, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.GenerateNonceResponse} */ proto.identity.unauth.GenerateNonceResponse.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.GenerateNonceResponse; return proto.identity.unauth.GenerateNonceResponse.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.GenerateNonceResponse} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.GenerateNonceResponse} */ proto.identity.unauth.GenerateNonceResponse.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setNonce(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.GenerateNonceResponse.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.GenerateNonceResponse.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.GenerateNonceResponse} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.GenerateNonceResponse.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getNonce(); if (f.length > 0) { writer.writeString( 1, f ); } }; /** * optional string nonce = 1; * @return {string} */ proto.identity.unauth.GenerateNonceResponse.prototype.getNonce = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.GenerateNonceResponse} returns this */ proto.identity.unauth.GenerateNonceResponse.prototype.setNonce = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.VerifyUserAccessTokenRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.VerifyUserAccessTokenRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.VerifyUserAccessTokenRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.VerifyUserAccessTokenRequest.toObject = function(includeInstance, msg) { var f, obj = { userId: jspb.Message.getFieldWithDefault(msg, 1, ""), deviceId: jspb.Message.getFieldWithDefault(msg, 2, ""), accessToken: jspb.Message.getFieldWithDefault(msg, 3, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.VerifyUserAccessTokenRequest} */ proto.identity.unauth.VerifyUserAccessTokenRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.VerifyUserAccessTokenRequest; return proto.identity.unauth.VerifyUserAccessTokenRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.VerifyUserAccessTokenRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.VerifyUserAccessTokenRequest} */ proto.identity.unauth.VerifyUserAccessTokenRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setUserId(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setDeviceId(value); break; case 3: var value = /** @type {string} */ (reader.readString()); msg.setAccessToken(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.VerifyUserAccessTokenRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.VerifyUserAccessTokenRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.VerifyUserAccessTokenRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.VerifyUserAccessTokenRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getUserId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getDeviceId(); if (f.length > 0) { writer.writeString( 2, f ); } f = message.getAccessToken(); if (f.length > 0) { writer.writeString( 3, f ); } }; /** * optional string user_id = 1; * @return {string} */ proto.identity.unauth.VerifyUserAccessTokenRequest.prototype.getUserId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.VerifyUserAccessTokenRequest} returns this */ proto.identity.unauth.VerifyUserAccessTokenRequest.prototype.setUserId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string device_id = 2; * @return {string} */ proto.identity.unauth.VerifyUserAccessTokenRequest.prototype.getDeviceId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.VerifyUserAccessTokenRequest} returns this */ proto.identity.unauth.VerifyUserAccessTokenRequest.prototype.setDeviceId = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * optional string access_token = 3; * @return {string} */ proto.identity.unauth.VerifyUserAccessTokenRequest.prototype.getAccessToken = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 3, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.VerifyUserAccessTokenRequest} returns this */ proto.identity.unauth.VerifyUserAccessTokenRequest.prototype.setAccessToken = function(value) { return jspb.Message.setProto3StringField(this, 3, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.VerifyUserAccessTokenResponse.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.VerifyUserAccessTokenResponse.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.VerifyUserAccessTokenResponse} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.VerifyUserAccessTokenResponse.toObject = function(includeInstance, msg) { var f, obj = { tokenValid: jspb.Message.getBooleanFieldWithDefault(msg, 1, false) }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.VerifyUserAccessTokenResponse} */ proto.identity.unauth.VerifyUserAccessTokenResponse.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.VerifyUserAccessTokenResponse; return proto.identity.unauth.VerifyUserAccessTokenResponse.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.VerifyUserAccessTokenResponse} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.VerifyUserAccessTokenResponse} */ proto.identity.unauth.VerifyUserAccessTokenResponse.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {boolean} */ (reader.readBool()); msg.setTokenValid(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.VerifyUserAccessTokenResponse.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.VerifyUserAccessTokenResponse.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.VerifyUserAccessTokenResponse} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.VerifyUserAccessTokenResponse.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getTokenValid(); if (f) { writer.writeBool( 1, f ); } }; /** * optional bool token_valid = 1; * @return {boolean} */ proto.identity.unauth.VerifyUserAccessTokenResponse.prototype.getTokenValid = function() { return /** @type {boolean} */ (jspb.Message.getBooleanFieldWithDefault(this, 1, false)); }; /** * @param {boolean} value * @return {!proto.identity.unauth.VerifyUserAccessTokenResponse} returns this */ proto.identity.unauth.VerifyUserAccessTokenResponse.prototype.setTokenValid = function(value) { return jspb.Message.setProto3BooleanField(this, 1, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.AddReservedUsernamesRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.AddReservedUsernamesRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.AddReservedUsernamesRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.AddReservedUsernamesRequest.toObject = function(includeInstance, msg) { var f, obj = { message: jspb.Message.getFieldWithDefault(msg, 1, ""), signature: jspb.Message.getFieldWithDefault(msg, 2, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.AddReservedUsernamesRequest} */ proto.identity.unauth.AddReservedUsernamesRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.AddReservedUsernamesRequest; return proto.identity.unauth.AddReservedUsernamesRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.AddReservedUsernamesRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.AddReservedUsernamesRequest} */ proto.identity.unauth.AddReservedUsernamesRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setMessage(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setSignature(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.AddReservedUsernamesRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.AddReservedUsernamesRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.AddReservedUsernamesRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.AddReservedUsernamesRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getMessage(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getSignature(); if (f.length > 0) { writer.writeString( 2, f ); } }; /** * optional string message = 1; * @return {string} */ proto.identity.unauth.AddReservedUsernamesRequest.prototype.getMessage = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.AddReservedUsernamesRequest} returns this */ proto.identity.unauth.AddReservedUsernamesRequest.prototype.setMessage = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string signature = 2; * @return {string} */ proto.identity.unauth.AddReservedUsernamesRequest.prototype.getSignature = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.AddReservedUsernamesRequest} returns this */ proto.identity.unauth.AddReservedUsernamesRequest.prototype.setSignature = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.RemoveReservedUsernameRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.RemoveReservedUsernameRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.RemoveReservedUsernameRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.RemoveReservedUsernameRequest.toObject = function(includeInstance, msg) { var f, obj = { message: jspb.Message.getFieldWithDefault(msg, 1, ""), signature: jspb.Message.getFieldWithDefault(msg, 2, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.RemoveReservedUsernameRequest} */ proto.identity.unauth.RemoveReservedUsernameRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.RemoveReservedUsernameRequest; return proto.identity.unauth.RemoveReservedUsernameRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.RemoveReservedUsernameRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.RemoveReservedUsernameRequest} */ proto.identity.unauth.RemoveReservedUsernameRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setMessage(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setSignature(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.RemoveReservedUsernameRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.RemoveReservedUsernameRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.RemoveReservedUsernameRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.RemoveReservedUsernameRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getMessage(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getSignature(); if (f.length > 0) { writer.writeString( 2, f ); } }; /** * optional string message = 1; * @return {string} */ proto.identity.unauth.RemoveReservedUsernameRequest.prototype.getMessage = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.RemoveReservedUsernameRequest} returns this */ proto.identity.unauth.RemoveReservedUsernameRequest.prototype.setMessage = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string signature = 2; * @return {string} */ proto.identity.unauth.RemoveReservedUsernameRequest.prototype.getSignature = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.RemoveReservedUsernameRequest} returns this */ proto.identity.unauth.RemoveReservedUsernameRequest.prototype.setSignature = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * Oneof group definitions for this message. Each group defines the field * numbers belonging to that group. When of these fields' value is set, all * other fields in the group are cleared. During deserialization, if multiple * fields are encountered for a group, only the last value seen will be kept. * @private {!Array>} * @const */ proto.identity.unauth.FindUserIDRequest.oneofGroups_ = [[1,2]]; /** * @enum {number} */ proto.identity.unauth.FindUserIDRequest.IdentifierCase = { IDENTIFIER_NOT_SET: 0, USERNAME: 1, WALLET_ADDRESS: 2 }; /** * @return {proto.identity.unauth.FindUserIDRequest.IdentifierCase} */ proto.identity.unauth.FindUserIDRequest.prototype.getIdentifierCase = function() { return /** @type {proto.identity.unauth.FindUserIDRequest.IdentifierCase} */(jspb.Message.computeOneofCase(this, proto.identity.unauth.FindUserIDRequest.oneofGroups_[0])); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.FindUserIDRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.FindUserIDRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.FindUserIDRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.FindUserIDRequest.toObject = function(includeInstance, msg) { var f, obj = { username: jspb.Message.getFieldWithDefault(msg, 1, ""), walletAddress: jspb.Message.getFieldWithDefault(msg, 2, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.FindUserIDRequest} */ proto.identity.unauth.FindUserIDRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.FindUserIDRequest; return proto.identity.unauth.FindUserIDRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.FindUserIDRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.FindUserIDRequest} */ proto.identity.unauth.FindUserIDRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setUsername(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setWalletAddress(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.FindUserIDRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.FindUserIDRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.FindUserIDRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.FindUserIDRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = /** @type {string} */ (jspb.Message.getField(message, 1)); if (f != null) { writer.writeString( 1, f ); } f = /** @type {string} */ (jspb.Message.getField(message, 2)); if (f != null) { writer.writeString( 2, f ); } }; /** * optional string username = 1; * @return {string} */ proto.identity.unauth.FindUserIDRequest.prototype.getUsername = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.FindUserIDRequest} returns this */ proto.identity.unauth.FindUserIDRequest.prototype.setUsername = function(value) { return jspb.Message.setOneofField(this, 1, proto.identity.unauth.FindUserIDRequest.oneofGroups_[0], value); }; /** * Clears the field making it undefined. * @return {!proto.identity.unauth.FindUserIDRequest} returns this */ proto.identity.unauth.FindUserIDRequest.prototype.clearUsername = function() { return jspb.Message.setOneofField(this, 1, proto.identity.unauth.FindUserIDRequest.oneofGroups_[0], undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.FindUserIDRequest.prototype.hasUsername = function() { return jspb.Message.getField(this, 1) != null; }; /** * optional string wallet_address = 2; * @return {string} */ proto.identity.unauth.FindUserIDRequest.prototype.getWalletAddress = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.FindUserIDRequest} returns this */ proto.identity.unauth.FindUserIDRequest.prototype.setWalletAddress = function(value) { return jspb.Message.setOneofField(this, 2, proto.identity.unauth.FindUserIDRequest.oneofGroups_[0], value); }; /** * Clears the field making it undefined. * @return {!proto.identity.unauth.FindUserIDRequest} returns this */ proto.identity.unauth.FindUserIDRequest.prototype.clearWalletAddress = function() { return jspb.Message.setOneofField(this, 2, proto.identity.unauth.FindUserIDRequest.oneofGroups_[0], undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.FindUserIDRequest.prototype.hasWalletAddress = function() { return jspb.Message.getField(this, 2) != null; }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.FindUserIDResponse.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.FindUserIDResponse.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.FindUserIDResponse} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.FindUserIDResponse.toObject = function(includeInstance, msg) { var f, obj = { userId: jspb.Message.getFieldWithDefault(msg, 1, ""), isReserved: jspb.Message.getBooleanFieldWithDefault(msg, 2, false) }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.FindUserIDResponse} */ proto.identity.unauth.FindUserIDResponse.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.FindUserIDResponse; return proto.identity.unauth.FindUserIDResponse.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.FindUserIDResponse} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.FindUserIDResponse} */ proto.identity.unauth.FindUserIDResponse.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setUserId(value); break; case 2: var value = /** @type {boolean} */ (reader.readBool()); msg.setIsReserved(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.FindUserIDResponse.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.FindUserIDResponse.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.FindUserIDResponse} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.FindUserIDResponse.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = /** @type {string} */ (jspb.Message.getField(message, 1)); if (f != null) { writer.writeString( 1, f ); } f = message.getIsReserved(); if (f) { writer.writeBool( 2, f ); } }; /** * optional string user_id = 1; * @return {string} */ proto.identity.unauth.FindUserIDResponse.prototype.getUserId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.FindUserIDResponse} returns this */ proto.identity.unauth.FindUserIDResponse.prototype.setUserId = function(value) { return jspb.Message.setField(this, 1, value); }; /** * Clears the field making it undefined. * @return {!proto.identity.unauth.FindUserIDResponse} returns this */ proto.identity.unauth.FindUserIDResponse.prototype.clearUserId = function() { return jspb.Message.setField(this, 1, undefined); }; /** * Returns whether this field is set. * @return {boolean} */ proto.identity.unauth.FindUserIDResponse.prototype.hasUserId = function() { return jspb.Message.getField(this, 1) != null; }; /** * optional bool is_reserved = 2; * @return {boolean} */ proto.identity.unauth.FindUserIDResponse.prototype.getIsReserved = function() { return /** @type {boolean} */ (jspb.Message.getBooleanFieldWithDefault(this, 2, false)); }; /** * @param {boolean} value * @return {!proto.identity.unauth.FindUserIDResponse} returns this */ proto.identity.unauth.FindUserIDResponse.prototype.setIsReserved = function(value) { return jspb.Message.setProto3BooleanField(this, 2, value); }; /** * List of repeated fields within this message type. * @private {!Array} * @const */ proto.identity.unauth.GetFarcasterUsersRequest.repeatedFields_ = [1]; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.GetFarcasterUsersRequest.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.GetFarcasterUsersRequest.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.GetFarcasterUsersRequest} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.GetFarcasterUsersRequest.toObject = function(includeInstance, msg) { var f, obj = { farcasterIdsList: (f = jspb.Message.getRepeatedField(msg, 1)) == null ? undefined : f }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.GetFarcasterUsersRequest} */ proto.identity.unauth.GetFarcasterUsersRequest.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.GetFarcasterUsersRequest; return proto.identity.unauth.GetFarcasterUsersRequest.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.GetFarcasterUsersRequest} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.GetFarcasterUsersRequest} */ proto.identity.unauth.GetFarcasterUsersRequest.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.addFarcasterIds(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.GetFarcasterUsersRequest.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.GetFarcasterUsersRequest.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.GetFarcasterUsersRequest} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.GetFarcasterUsersRequest.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getFarcasterIdsList(); if (f.length > 0) { writer.writeRepeatedString( 1, f ); } }; /** * repeated string farcaster_ids = 1; * @return {!Array} */ proto.identity.unauth.GetFarcasterUsersRequest.prototype.getFarcasterIdsList = function() { return /** @type {!Array} */ (jspb.Message.getRepeatedField(this, 1)); }; /** * @param {!Array} value * @return {!proto.identity.unauth.GetFarcasterUsersRequest} returns this */ proto.identity.unauth.GetFarcasterUsersRequest.prototype.setFarcasterIdsList = function(value) { return jspb.Message.setField(this, 1, value || []); }; /** * @param {string} value * @param {number=} opt_index * @return {!proto.identity.unauth.GetFarcasterUsersRequest} returns this */ proto.identity.unauth.GetFarcasterUsersRequest.prototype.addFarcasterIds = function(value, opt_index) { return jspb.Message.addToRepeatedField(this, 1, value, opt_index); }; /** * Clears the list making it empty but non-null. * @return {!proto.identity.unauth.GetFarcasterUsersRequest} returns this */ proto.identity.unauth.GetFarcasterUsersRequest.prototype.clearFarcasterIdsList = function() { return this.setFarcasterIdsList([]); }; /** * List of repeated fields within this message type. * @private {!Array} * @const */ proto.identity.unauth.GetFarcasterUsersResponse.repeatedFields_ = [1]; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.GetFarcasterUsersResponse.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.GetFarcasterUsersResponse.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.GetFarcasterUsersResponse} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.GetFarcasterUsersResponse.toObject = function(includeInstance, msg) { var f, obj = { farcasterUsersList: jspb.Message.toObjectList(msg.getFarcasterUsersList(), proto.identity.unauth.FarcasterUser.toObject, includeInstance) }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.GetFarcasterUsersResponse} */ proto.identity.unauth.GetFarcasterUsersResponse.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.GetFarcasterUsersResponse; return proto.identity.unauth.GetFarcasterUsersResponse.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.GetFarcasterUsersResponse} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.GetFarcasterUsersResponse} */ proto.identity.unauth.GetFarcasterUsersResponse.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = new proto.identity.unauth.FarcasterUser; reader.readMessage(value,proto.identity.unauth.FarcasterUser.deserializeBinaryFromReader); msg.addFarcasterUsers(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.GetFarcasterUsersResponse.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.GetFarcasterUsersResponse.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.GetFarcasterUsersResponse} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.GetFarcasterUsersResponse.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getFarcasterUsersList(); if (f.length > 0) { writer.writeRepeatedMessage( 1, f, proto.identity.unauth.FarcasterUser.serializeBinaryToWriter ); } }; /** * repeated FarcasterUser farcaster_users = 1; * @return {!Array} */ proto.identity.unauth.GetFarcasterUsersResponse.prototype.getFarcasterUsersList = function() { return /** @type{!Array} */ ( jspb.Message.getRepeatedWrapperField(this, proto.identity.unauth.FarcasterUser, 1)); }; /** * @param {!Array} value * @return {!proto.identity.unauth.GetFarcasterUsersResponse} returns this */ proto.identity.unauth.GetFarcasterUsersResponse.prototype.setFarcasterUsersList = function(value) { return jspb.Message.setRepeatedWrapperField(this, 1, value); }; /** * @param {!proto.identity.unauth.FarcasterUser=} opt_value * @param {number=} opt_index * @return {!proto.identity.unauth.FarcasterUser} */ proto.identity.unauth.GetFarcasterUsersResponse.prototype.addFarcasterUsers = function(opt_value, opt_index) { return jspb.Message.addToRepeatedWrapperField(this, 1, opt_value, proto.identity.unauth.FarcasterUser, opt_index); }; /** * Clears the list making it empty but non-null. * @return {!proto.identity.unauth.GetFarcasterUsersResponse} returns this */ proto.identity.unauth.GetFarcasterUsersResponse.prototype.clearFarcasterUsersList = function() { return this.setFarcasterUsersList([]); }; if (jspb.Message.GENERATE_TO_OBJECT) { /** * Creates an object representation of this proto. * Field names that are reserved in JavaScript and will be renamed to pb_name. * Optional fields that are not set will be set to undefined. * To access a reserved field use, foo.pb_, eg, foo.pb_default. * For the list of reserved names please see: * net/proto2/compiler/js/internal/generator.cc#kKeyword. * @param {boolean=} opt_includeInstance Deprecated. whether to include the * JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @return {!Object} */ proto.identity.unauth.FarcasterUser.prototype.toObject = function(opt_includeInstance) { return proto.identity.unauth.FarcasterUser.toObject(opt_includeInstance, this); }; /** * Static version of the {@see toObject} method. * @param {boolean|undefined} includeInstance Deprecated. Whether to include * the JSPB instance for transitional soy proto support: * http://goto/soy-param-migration * @param {!proto.identity.unauth.FarcasterUser} msg The msg instance to transform. * @return {!Object} * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.FarcasterUser.toObject = function(includeInstance, msg) { var f, obj = { userId: jspb.Message.getFieldWithDefault(msg, 1, ""), farcasterId: jspb.Message.getFieldWithDefault(msg, 2, ""), username: jspb.Message.getFieldWithDefault(msg, 3, "") }; if (includeInstance) { obj.$jspbMessageInstance = msg; } return obj; }; } /** * Deserializes binary data (in protobuf wire format). * @param {jspb.ByteSource} bytes The bytes to deserialize. * @return {!proto.identity.unauth.FarcasterUser} */ proto.identity.unauth.FarcasterUser.deserializeBinary = function(bytes) { var reader = new jspb.BinaryReader(bytes); var msg = new proto.identity.unauth.FarcasterUser; return proto.identity.unauth.FarcasterUser.deserializeBinaryFromReader(msg, reader); }; /** * Deserializes binary data (in protobuf wire format) from the * given reader into the given message object. * @param {!proto.identity.unauth.FarcasterUser} msg The message object to deserialize into. * @param {!jspb.BinaryReader} reader The BinaryReader to use. * @return {!proto.identity.unauth.FarcasterUser} */ proto.identity.unauth.FarcasterUser.deserializeBinaryFromReader = function(msg, reader) { while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); switch (field) { case 1: var value = /** @type {string} */ (reader.readString()); msg.setUserId(value); break; case 2: var value = /** @type {string} */ (reader.readString()); msg.setFarcasterId(value); break; case 3: var value = /** @type {string} */ (reader.readString()); msg.setUsername(value); break; default: reader.skipField(); break; } } return msg; }; /** * Serializes the message to binary data (in protobuf wire format). * @return {!Uint8Array} */ proto.identity.unauth.FarcasterUser.prototype.serializeBinary = function() { var writer = new jspb.BinaryWriter(); proto.identity.unauth.FarcasterUser.serializeBinaryToWriter(this, writer); return writer.getResultBuffer(); }; /** * Serializes the given message to binary data (in protobuf wire * format), writing to the given BinaryWriter. * @param {!proto.identity.unauth.FarcasterUser} message * @param {!jspb.BinaryWriter} writer * @suppress {unusedLocalVariables} f is only used for nested messages */ proto.identity.unauth.FarcasterUser.serializeBinaryToWriter = function(message, writer) { var f = undefined; f = message.getUserId(); if (f.length > 0) { writer.writeString( 1, f ); } f = message.getFarcasterId(); if (f.length > 0) { writer.writeString( 2, f ); } f = message.getUsername(); if (f.length > 0) { writer.writeString( 3, f ); } }; /** * optional string user_id = 1; * @return {string} */ proto.identity.unauth.FarcasterUser.prototype.getUserId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 1, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.FarcasterUser} returns this */ proto.identity.unauth.FarcasterUser.prototype.setUserId = function(value) { return jspb.Message.setProto3StringField(this, 1, value); }; /** * optional string farcaster_id = 2; * @return {string} */ proto.identity.unauth.FarcasterUser.prototype.getFarcasterId = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 2, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.FarcasterUser} returns this */ proto.identity.unauth.FarcasterUser.prototype.setFarcasterId = function(value) { return jspb.Message.setProto3StringField(this, 2, value); }; /** * optional string username = 3; * @return {string} */ proto.identity.unauth.FarcasterUser.prototype.getUsername = function() { return /** @type {string} */ (jspb.Message.getFieldWithDefault(this, 3, "")); }; /** * @param {string} value * @return {!proto.identity.unauth.FarcasterUser} returns this */ proto.identity.unauth.FarcasterUser.prototype.setUsername = function(value) { return jspb.Message.setProto3StringField(this, 3, value); }; /** * @enum {number} */ proto.identity.unauth.DeviceType = { KEYSERVER: 0, WEB: 1, IOS: 2, ANDROID: 3, WINDOWS: 4, MAC_OS: 5 }; goog.object.extend(exports, proto.identity.unauth); diff --git a/web/protobufs/identity-unauth-structs.cjs.flow b/web/protobufs/identity-unauth-structs.cjs.flow index fcfe3aa47..26258aac6 100644 --- a/web/protobufs/identity-unauth-structs.cjs.flow +++ b/web/protobufs/identity-unauth-structs.cjs.flow @@ -1,640 +1,634 @@ // @flow import { Message, BinaryWriter, BinaryReader, Map as ProtoMap, } from 'google-protobuf'; declare export class Empty extends Message { serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): {}; static toObject(includeInstance: boolean, msg: Empty): {}; static serializeBinaryToWriter(message: Empty, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): Empty; static deserializeBinaryFromReader(message: Empty, reader: BinaryReader): Empty; } export type PrekeyObject = { prekey: string, prekeySignature: string, } declare export class Prekey extends Message { getPrekey(): string; setPrekey(value: string): Prekey; getPrekeySignature(): string; setPrekeySignature(value: string): Prekey; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): PrekeyObject; static toObject(includeInstance: boolean, msg: Prekey): PrekeyObject; static serializeBinaryToWriter(message: Prekey, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): Prekey; static deserializeBinaryFromReader(message: Prekey, reader: BinaryReader): Prekey; } export type IdentityKeyInfoObject = { payload: string, payloadSignature: string, - socialProof?: string, }; declare export class IdentityKeyInfo extends Message { getPayload(): string; setPayload(value: string): IdentityKeyInfo; getPayloadSignature(): string; setPayloadSignature(value: string): IdentityKeyInfo; - getSocialProof(): string; - setSocialProof(value: string): IdentityKeyInfo; - hasSocialProof(): boolean; - clearSocialProof(): IdentityKeyInfo; - serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): IdentityKeyInfoObject; static toObject(includeInstance: boolean, msg: IdentityKeyInfo): IdentityKeyInfoObject; static serializeBinaryToWriter(message: IdentityKeyInfo, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): IdentityKeyInfo; static deserializeBinaryFromReader(message: IdentityKeyInfo, reader: BinaryReader): IdentityKeyInfo; } declare export class DeviceKeyUpload extends Message { getDeviceKeyInfo(): IdentityKeyInfo | void; setDeviceKeyInfo(value?: IdentityKeyInfo): DeviceKeyUpload; hasDeviceKeyInfo(): boolean; clearDeviceKeyInfo(): DeviceKeyUpload; getContentUpload(): Prekey | void; setContentUpload(value?: Prekey): DeviceKeyUpload; hasContentUpload(): boolean; clearContentUpload(): DeviceKeyUpload; getNotifUpload(): Prekey | void; setNotifUpload(value?: Prekey): DeviceKeyUpload; hasNotifUpload(): boolean; clearNotifUpload(): DeviceKeyUpload; getOneTimeContentPrekeysList(): Array; setOneTimeContentPrekeysList(value: Array): DeviceKeyUpload; clearOneTimeContentPrekeysList(): DeviceKeyUpload; addOneTimeContentPrekeys(value: string, index?: number): DeviceKeyUpload; getOneTimeNotifPrekeysList(): Array; setOneTimeNotifPrekeysList(value: Array): DeviceKeyUpload; clearOneTimeNotifPrekeysList(): DeviceKeyUpload; addOneTimeNotifPrekeys(value: string, index?: number): DeviceKeyUpload; getDeviceType(): DeviceType; setDeviceType(value: DeviceType): DeviceKeyUpload; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): DeviceKeyUploadObject; static toObject(includeInstance: boolean, msg: DeviceKeyUpload): DeviceKeyUploadObject; static serializeBinaryToWriter(message: DeviceKeyUpload, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): DeviceKeyUpload; static deserializeBinaryFromReader(message: DeviceKeyUpload, reader: BinaryReader): DeviceKeyUpload; } export type DeviceKeyUploadObject = { deviceKeyInfo?: IdentityKeyInfoObject, contentUpload?: PrekeyObject, notifUpload?: PrekeyObject, oneTimeContentPrekeysList: Array, oneTimeNotifPrekeysList: Array, deviceType: DeviceType, }; declare export class RegistrationStartRequest extends Message { getOpaqueRegistrationRequest(): Uint8Array | string; getOpaqueRegistrationRequest_asU8(): Uint8Array; getOpaqueRegistrationRequest_asB64(): string; setOpaqueRegistrationRequest(value: Uint8Array | string): RegistrationStartRequest; getUsername(): string; setUsername(value: string): RegistrationStartRequest; getDeviceKeyUpload(): DeviceKeyUpload | void; setDeviceKeyUpload(value?: DeviceKeyUpload): RegistrationStartRequest; hasDeviceKeyUpload(): boolean; clearDeviceKeyUpload(): RegistrationStartRequest; getFarcasterId(): string; setFarcasterId(value: string): RegistrationStartRequest; hasFarcasterId(): boolean; clearFarcasterId(): RegistrationStartRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): RegistrationStartRequestObject; static toObject(includeInstance: boolean, msg: RegistrationStartRequest): RegistrationStartRequestObject; static serializeBinaryToWriter(message: RegistrationStartRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): RegistrationStartRequest; static deserializeBinaryFromReader(message: RegistrationStartRequest, reader: BinaryReader): RegistrationStartRequest; } export type RegistrationStartRequestObject = { opaqueRegistrationRequest: Uint8Array | string, username: string, deviceKeyUpload?: DeviceKeyUploadObject, farcasterId?: string, }; declare export class ReservedRegistrationStartRequest extends Message { getOpaqueRegistrationRequest(): Uint8Array | string; getOpaqueRegistrationRequest_asU8(): Uint8Array; getOpaqueRegistrationRequest_asB64(): string; setOpaqueRegistrationRequest(value: Uint8Array | string): ReservedRegistrationStartRequest; getUsername(): string; setUsername(value: string): ReservedRegistrationStartRequest; getDeviceKeyUpload(): DeviceKeyUpload | void; setDeviceKeyUpload(value?: DeviceKeyUpload): ReservedRegistrationStartRequest; hasDeviceKeyUpload(): boolean; clearDeviceKeyUpload(): ReservedRegistrationStartRequest; getKeyserverMessage(): string; setKeyserverMessage(value: string): ReservedRegistrationStartRequest; getKeyserverSignature(): string; setKeyserverSignature(value: string): ReservedRegistrationStartRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): ReservedRegistrationStartRequestObject; static toObject(includeInstance: boolean, msg: ReservedRegistrationStartRequest): ReservedRegistrationStartRequestObject; static serializeBinaryToWriter(message: ReservedRegistrationStartRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): ReservedRegistrationStartRequest; static deserializeBinaryFromReader(message: ReservedRegistrationStartRequest, reader: BinaryReader): ReservedRegistrationStartRequest; } export type ReservedRegistrationStartRequestObject = { opaqueRegistrationRequest: Uint8Array | string, username: string, deviceKeyUpload?: DeviceKeyUploadObject, keyserverMessage: string, keyserverSignature: string, }; declare export class RegistrationFinishRequest extends Message { getSessionid(): string; setSessionid(value: string): RegistrationFinishRequest; getOpaqueregistrationupload(): Uint8Array | string; getOpaqueregistrationupload_asU8(): Uint8Array; getOpaqueregistrationupload_asB64(): string; setOpaqueregistrationupload(value: Uint8Array | string): RegistrationFinishRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): RegistrationFinishRequestObject; static toObject(includeInstance: boolean, msg: RegistrationFinishRequest): RegistrationFinishRequestObject; static serializeBinaryToWriter(message: RegistrationFinishRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): RegistrationFinishRequest; static deserializeBinaryFromReader(message: RegistrationFinishRequest, reader: BinaryReader): RegistrationFinishRequest; } export type RegistrationFinishRequestObject = { sessionid: string, opaqueregistrationupload: Uint8Array | string, }; declare export class RegistrationStartResponse extends Message { getSessionId(): string; setSessionId(value: string): RegistrationStartResponse; getOpaqueRegistrationResponse(): Uint8Array | string; getOpaqueRegistrationResponse_asU8(): Uint8Array; getOpaqueRegistrationResponse_asB64(): string; setOpaqueRegistrationResponse(value: Uint8Array | string): RegistrationStartResponse; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): RegistrationStartResponseObject; static toObject(includeInstance: boolean, msg: RegistrationStartResponse): RegistrationStartResponseObject; static serializeBinaryToWriter(message: RegistrationStartResponse, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): RegistrationStartResponse; static deserializeBinaryFromReader(message: RegistrationStartResponse, reader: BinaryReader): RegistrationStartResponse; } export type RegistrationStartResponseObject = { sessionId: string, opaqueRegistrationResponse: Uint8Array | string, }; declare export class AuthResponse extends Message { getUserId(): string; setUserId(value: string): AuthResponse; getAccessToken(): string; setAccessToken(value: string): AuthResponse; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): AuthResponseObject; static toObject(includeInstance: boolean, msg: AuthResponse): AuthResponseObject; static serializeBinaryToWriter(message: AuthResponse, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): AuthResponse; static deserializeBinaryFromReader(message: AuthResponse, reader: BinaryReader): AuthResponse; } export type AuthResponseObject = { userId: string, accessToken: string, }; declare export class OpaqueLoginStartRequest extends Message { getUsername(): string; setUsername(value: string): OpaqueLoginStartRequest; getOpaqueLoginRequest(): Uint8Array | string; getOpaqueLoginRequest_asU8(): Uint8Array; getOpaqueLoginRequest_asB64(): string; setOpaqueLoginRequest(value: Uint8Array | string): OpaqueLoginStartRequest; getDeviceKeyUpload(): DeviceKeyUpload | void; setDeviceKeyUpload(value?: DeviceKeyUpload): OpaqueLoginStartRequest; hasDeviceKeyUpload(): boolean; clearDeviceKeyUpload(): OpaqueLoginStartRequest; getForce(): boolean; setForce(value: boolean): OpaqueLoginStartRequest; hasForce(): boolean; clearForce(): OpaqueLoginStartRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): OpaqueLoginStartRequestObject; static toObject(includeInstance: boolean, msg: OpaqueLoginStartRequest): OpaqueLoginStartRequestObject; static serializeBinaryToWriter(message: OpaqueLoginStartRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): OpaqueLoginStartRequest; static deserializeBinaryFromReader(message: OpaqueLoginStartRequest, reader: BinaryReader): OpaqueLoginStartRequest; } export type OpaqueLoginStartRequestObject = { username: string, opaqueLoginRequest: Uint8Array | string, deviceKeyUpload?: DeviceKeyUploadObject, force?: boolean, }; declare export class OpaqueLoginFinishRequest extends Message { getSessionId(): string; setSessionId(value: string): OpaqueLoginFinishRequest; getOpaqueLoginUpload(): Uint8Array | string; getOpaqueLoginUpload_asU8(): Uint8Array; getOpaqueLoginUpload_asB64(): string; setOpaqueLoginUpload(value: Uint8Array | string): OpaqueLoginFinishRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): OpaqueLoginFinishRequestObject; static toObject(includeInstance: boolean, msg: OpaqueLoginFinishRequest): OpaqueLoginFinishRequestObject; static serializeBinaryToWriter(message: OpaqueLoginFinishRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): OpaqueLoginFinishRequest; static deserializeBinaryFromReader(message: OpaqueLoginFinishRequest, reader: BinaryReader): OpaqueLoginFinishRequest; } export type OpaqueLoginFinishRequestObject = { sessionId: string, opaqueLoginUpload: Uint8Array | string, }; declare export class OpaqueLoginStartResponse extends Message { getSessionId(): string; setSessionId(value: string): OpaqueLoginStartResponse; getOpaqueLoginResponse(): Uint8Array | string; getOpaqueLoginResponse_asU8(): Uint8Array; getOpaqueLoginResponse_asB64(): string; setOpaqueLoginResponse(value: Uint8Array | string): OpaqueLoginStartResponse; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): OpaqueLoginStartResponseObject; static toObject(includeInstance: boolean, msg: OpaqueLoginStartResponse): OpaqueLoginStartResponseObject; static serializeBinaryToWriter(message: OpaqueLoginStartResponse, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): OpaqueLoginStartResponse; static deserializeBinaryFromReader(message: OpaqueLoginStartResponse, reader: BinaryReader): OpaqueLoginStartResponse; } export type OpaqueLoginStartResponseObject = { sessionId: string, opaqueLoginResponse: Uint8Array | string, }; declare export class WalletAuthRequest extends Message { getSiweMessage(): string; setSiweMessage(value: string): WalletAuthRequest; getSiweSignature(): string; setSiweSignature(value: string): WalletAuthRequest; getDeviceKeyUpload(): DeviceKeyUpload | void; setDeviceKeyUpload(value?: DeviceKeyUpload): WalletAuthRequest; hasDeviceKeyUpload(): boolean; clearDeviceKeyUpload(): WalletAuthRequest; getFarcasterId(): string; setFarcasterId(value: string): WalletAuthRequest; hasFarcasterId(): boolean; clearFarcasterId(): WalletAuthRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): WalletAuthRequestObject; static toObject(includeInstance: boolean, msg: WalletAuthRequest): WalletAuthRequestObject; static serializeBinaryToWriter(message: WalletAuthRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): WalletAuthRequest; static deserializeBinaryFromReader(message: WalletAuthRequest, reader: BinaryReader): WalletAuthRequest; } export type WalletAuthRequestObject = { siweMessage: string, siweSignature: string, deviceKeyUpload?: DeviceKeyUploadObject, farcasterId?: string, }; declare export class ReservedWalletRegistrationRequest extends Message { getSiweMessage(): string; setSiweMessage(value: string): ReservedWalletRegistrationRequest; getSiweSignature(): string; setSiweSignature(value: string): ReservedWalletRegistrationRequest; getDeviceKeyUpload(): DeviceKeyUpload | void; setDeviceKeyUpload(value?: DeviceKeyUpload): ReservedWalletRegistrationRequest; hasDeviceKeyUpload(): boolean; clearDeviceKeyUpload(): ReservedWalletRegistrationRequest; getKeyserverMessage(): string; setKeyserverMessage(value: string): ReservedWalletRegistrationRequest; getKeyserverSignature(): string; setKeyserverSignature(value: string): ReservedWalletRegistrationRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): ReservedWalletRegistrationRequestObject; static toObject(includeInstance: boolean, msg: ReservedWalletRegistrationRequest): ReservedWalletRegistrationRequestObject; static serializeBinaryToWriter(message: ReservedWalletRegistrationRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): ReservedWalletRegistrationRequest; static deserializeBinaryFromReader(message: ReservedWalletRegistrationRequest, reader: BinaryReader): ReservedWalletRegistrationRequest; } export type ReservedWalletRegistrationRequestObject = { siweMessage: string, siweSignature: string, deviceKeyUpload?: DeviceKeyUploadObject, keyserverMessage: string, keyserverSignature: string, }; declare export class SecondaryDeviceKeysUploadRequest extends Message { getUserId(): string; setUserId(value: string): SecondaryDeviceKeysUploadRequest; getChallengeResponse(): string; setChallengeResponse(value: string): SecondaryDeviceKeysUploadRequest; getDeviceKeyUpload(): DeviceKeyUpload | void; setDeviceKeyUpload(value?: DeviceKeyUpload): SecondaryDeviceKeysUploadRequest; hasDeviceKeyUpload(): boolean; clearDeviceKeyUpload(): SecondaryDeviceKeysUploadRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): SecondaryDeviceKeysUploadRequestObject; static toObject(includeInstance: boolean, msg: SecondaryDeviceKeysUploadRequest): SecondaryDeviceKeysUploadRequestObject; static serializeBinaryToWriter(message: SecondaryDeviceKeysUploadRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): SecondaryDeviceKeysUploadRequest; static deserializeBinaryFromReader(message: SecondaryDeviceKeysUploadRequest, reader: BinaryReader): SecondaryDeviceKeysUploadRequest; } export type SecondaryDeviceKeysUploadRequestObject = { userId: string, deviceKeyUpload?: DeviceKeyUploadObject, } declare export class ExistingDeviceLoginRequest extends Message { getUserId(): string; setUserId(value: string): ExistingDeviceLoginRequest; getDeviceId(): string; setDeviceId(value: string): ExistingDeviceLoginRequest; getChallengeResponse(): string; setChallengeResponse(value: string): ExistingDeviceLoginRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): ExistingDeviceLoginRequestObject; static toObject(includeInstance: boolean, msg: ExistingDeviceLoginRequest): ExistingDeviceLoginRequestObject; static serializeBinaryToWriter(message: ExistingDeviceLoginRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): ExistingDeviceLoginRequest; static deserializeBinaryFromReader(message: ExistingDeviceLoginRequest, reader: BinaryReader): ExistingDeviceLoginRequest; } export type ExistingDeviceLoginRequestObject = { userId: string, deviceId: string, challengeResponse: string, } declare export class GenerateNonceResponse extends Message { getNonce(): string; setNonce(value: string): GenerateNonceResponse; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): GenerateNonceResponseObject; static toObject(includeInstance: boolean, msg: GenerateNonceResponse): GenerateNonceResponseObject; static serializeBinaryToWriter(message: GenerateNonceResponse, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): GenerateNonceResponse; static deserializeBinaryFromReader(message: GenerateNonceResponse, reader: BinaryReader): GenerateNonceResponse; } export type GenerateNonceResponseObject = { nonce: string, }; declare export class VerifyUserAccessTokenRequest extends Message { getUserId(): string; setUserId(value: string): VerifyUserAccessTokenRequest; getDeviceId(): string; setDeviceId(value: string): VerifyUserAccessTokenRequest; getAccessToken(): string; setAccessToken(value: string): VerifyUserAccessTokenRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): VerifyUserAccessTokenRequestObject; static toObject(includeInstance: boolean, msg: VerifyUserAccessTokenRequest): VerifyUserAccessTokenRequestObject; static serializeBinaryToWriter(message: VerifyUserAccessTokenRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): VerifyUserAccessTokenRequest; static deserializeBinaryFromReader(message: VerifyUserAccessTokenRequest, reader: BinaryReader): VerifyUserAccessTokenRequest; } export type VerifyUserAccessTokenRequestObject = { userId: string, deviceId: string, accessToken: string, }; declare export class VerifyUserAccessTokenResponse extends Message { getTokenValid(): boolean; setTokenValid(value: boolean): VerifyUserAccessTokenResponse; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): VerifyUserAccessTokenResponseObject; static toObject(includeInstance: boolean, msg: VerifyUserAccessTokenResponse): VerifyUserAccessTokenResponseObject; static serializeBinaryToWriter(message: VerifyUserAccessTokenResponse, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): VerifyUserAccessTokenResponse; static deserializeBinaryFromReader(message: VerifyUserAccessTokenResponse, reader: BinaryReader): VerifyUserAccessTokenResponse; } export type VerifyUserAccessTokenResponseObject = { tokenValid: boolean, }; declare export class AddReservedUsernamesRequest extends Message { getMessage(): string; setMessage(value: string): AddReservedUsernamesRequest; getSignature(): string; setSignature(value: string): AddReservedUsernamesRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): AddReservedUsernamesRequestObject; static toObject(includeInstance: boolean, msg: AddReservedUsernamesRequest): AddReservedUsernamesRequestObject; static serializeBinaryToWriter(message: AddReservedUsernamesRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): AddReservedUsernamesRequest; static deserializeBinaryFromReader(message: AddReservedUsernamesRequest, reader: BinaryReader): AddReservedUsernamesRequest; } export type AddReservedUsernamesRequestObject = { message: string, signature: string, }; declare export class RemoveReservedUsernameRequest extends Message { getMessage(): string; setMessage(value: string): RemoveReservedUsernameRequest; getSignature(): string; setSignature(value: string): RemoveReservedUsernameRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): RemoveReservedUsernameRequestObject; static toObject(includeInstance: boolean, msg: RemoveReservedUsernameRequest): RemoveReservedUsernameRequestObject; static serializeBinaryToWriter(message: RemoveReservedUsernameRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): RemoveReservedUsernameRequest; static deserializeBinaryFromReader(message: RemoveReservedUsernameRequest, reader: BinaryReader): RemoveReservedUsernameRequest; } export type RemoveReservedUsernameRequestObject = { message: string, signature: string, }; export type IdentifierCase = 0 | 1 | 2; declare export class FindUserIDRequest extends Message { getUsername(): string; setUsername(value: string): FindUserIDRequest; getWalletAddress(): string; setWalletAddress(value: string): FindUserIDRequest; getIdentifierCase(): IdentifierCase; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): FindUserIDRequestObject; static toObject(includeInstance: boolean, msg: FindUserIDRequest): FindUserIDRequestObject; static serializeBinaryToWriter(message: FindUserIDRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): FindUserIDRequest; static deserializeBinaryFromReader(message: FindUserIDRequest, reader: BinaryReader): FindUserIDRequest; } export type FindUserIDRequestObject = { username: string, walletAddress: string, } declare export class FindUserIDResponse extends Message { getUserId(): string; setUserId(value: string): FindUserIDResponse; hasUserId(): boolean; clearUserId(): FindUserIDResponse; getIsReserved(): boolean; setIsReserved(value: boolean): FindUserIDResponse; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): FindUserIDResponseObject; static toObject(includeInstance: boolean, msg: FindUserIDResponse): FindUserIDResponseObject; static serializeBinaryToWriter(message: FindUserIDResponse, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): FindUserIDResponse; static deserializeBinaryFromReader(message: FindUserIDResponse, reader: BinaryReader): FindUserIDResponse; } export type FindUserIDResponseObject = { userId?: string, isReserved: boolean, } declare export class GetFarcasterUsersRequest extends Message { getFarcasterIdsList(): Array; setFarcasterIdsList(value: Array): GetFarcasterUsersRequest; clearFarcasterIdsList(): GetFarcasterUsersRequest; addFarcasterIds(value: string, index?: number): GetFarcasterUsersRequest; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): GetFarcasterUsersRequestObject; static toObject(includeInstance: boolean, msg: GetFarcasterUsersRequest): GetFarcasterUsersRequestObject; static serializeBinaryToWriter(message: GetFarcasterUsersRequest, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): GetFarcasterUsersRequest; static deserializeBinaryFromReader(message: GetFarcasterUsersRequest, reader: BinaryReader): GetFarcasterUsersRequest; } export type GetFarcasterUsersRequestObject = { farcasterIdsList: Array, } declare export class GetFarcasterUsersResponse extends Message { getFarcasterUsersList(): Array; setFarcasterUsersList(value: Array): GetFarcasterUsersResponse; clearFarcasterUsersList(): GetFarcasterUsersResponse; addFarcasterUsers(value?: FarcasterUser, index?: number): FarcasterUser; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): GetFarcasterUsersResponseObject; static toObject(includeInstance: boolean, msg: GetFarcasterUsersResponse): GetFarcasterUsersResponseObject; static serializeBinaryToWriter(message: GetFarcasterUsersResponse, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): GetFarcasterUsersResponse; static deserializeBinaryFromReader(message: GetFarcasterUsersResponse, reader: BinaryReader): GetFarcasterUsersResponse; } export type GetFarcasterUsersResponseObject = { farcasterUsersList: Array, } declare export class FarcasterUser extends Message { getUserId(): string; setUserId(value: string): FarcasterUser; getFarcasterId(): string; setFarcasterId(value: string): FarcasterUser; getUsername(): string; setUsername(value: string): FarcasterUser; serializeBinary(): Uint8Array; toObject(includeInstance?: boolean): FarcasterUserObject; static toObject(includeInstance: boolean, msg: FarcasterUser): FarcasterUserObject; static serializeBinaryToWriter(message: FarcasterUser, writer: BinaryWriter): void; static deserializeBinary(bytes: Uint8Array): FarcasterUser; static deserializeBinaryFromReader(message: FarcasterUser, reader: BinaryReader): FarcasterUser; } export type FarcasterUserObject = { userId: string, farcasterId: string, username: string, } export type DeviceType = 0 | 1 | 2 | 3 | 4 | 5;