import type { IEventDecryptionResult, IMegolmSessionData } from "../@types/crypto"; import { ToDeviceMessageId } from "../@types/event"; import { IExportedDevice, OlmDevice } from "./OlmDevice"; import { IOlmDevice } from "./algorithms/megolm"; import * as olmlib from "./olmlib"; import { DeviceInfoMap, DeviceList } from "./DeviceList"; import { DeviceInfo } from "./deviceinfo"; import type { DecryptionAlgorithm } from "./algorithms"; import { CrossSigningInfo, DeviceTrustLevel, UserTrustLevel } from "./CrossSigning"; import { ISecretRequest, SecretStorage, SecretStorageKeyObject, SecretStorageKeyTuple } from "./SecretStorage"; import { IAddSecretStorageKeyOpts, ICreateSecretStorageOpts, IEncryptedEventInfo, IImportRoomKeysOpts, IRecoveryKey, ISecretStorageKeyInfo } from "./api"; import { VerificationBase } from "./verification/Base"; import { VerificationRequest } from "./verification/request/VerificationRequest"; import { InRoomRequests } from "./verification/request/InRoomChannel"; import { DehydrationManager } from "./dehydration"; import { BackupManager } from "./backup"; import { IStore } from "../store"; import { Room, RoomEvent } from "../models/room"; import { RoomMemberEvent } from "../models/room-member"; import { MatrixEvent, MatrixEventEvent } from "../models/event"; import { ClientEvent, IKeysUploadResponse, IUploadKeySignaturesResponse, MatrixClient } from "../client"; import type { IRoomEncryption, RoomList } from "./RoomList"; import { ISyncStateData } from "../sync"; import { CryptoStore } from "./store/base"; import { IVerificationChannel } from "./verification/request/Channel"; import { TypedEventEmitter } from "../models/typed-event-emitter"; import { ISyncResponse, IToDeviceEvent } from "../sync-accumulator"; import { ISignatures } from "../@types/signed"; import { IMessage } from "./algorithms/olm"; import { CryptoBackend, OnSyncCompletedData } from "../common-crypto/CryptoBackend"; /** * verification method names */ export declare const verificationMethods: { readonly RECIPROCATE_QR_CODE: string; readonly SAS: string; }; export type VerificationMethod = keyof typeof verificationMethods | string; export declare function isCryptoAvailable(): boolean; interface IInitOpts { exportedOlmDevice?: IExportedDevice; pickleKey?: string; } export interface IBootstrapCrossSigningOpts { /** Optional. Reset even if keys already exist. */ setupNewCrossSigning?: boolean; /** * A function that makes the request requiring auth. Receives the auth data as an object. * Can be called multiple times, first with an empty authDict, to obtain the flows. */ authUploadDeviceSigningKeys?(makeRequest: (authData: any) => Promise<{}>): Promise; } export interface ICryptoCallbacks { getCrossSigningKey?: (keyType: string, pubKey: string) => Promise; saveCrossSigningKeys?: (keys: Record) => void; shouldUpgradeDeviceVerifications?: (users: Record) => Promise; getSecretStorageKey?: (keys: { keys: Record; }, name: string) => Promise<[string, Uint8Array] | null>; cacheSecretStorageKey?: (keyId: string, keyInfo: ISecretStorageKeyInfo, key: Uint8Array) => void; onSecretRequested?: (userId: string, deviceId: string, requestId: string, secretName: string, deviceTrust: DeviceTrustLevel) => Promise; getDehydrationKey?: (keyInfo: ISecretStorageKeyInfo, checkFunc: (key: Uint8Array) => void) => Promise; getBackupKey?: () => Promise; } interface IRoomKey { room_id: string; algorithm: string; } /** * The parameters of a room key request. The details of the request may * vary with the crypto algorithm, but the management and storage layers for * outgoing requests expect it to have 'room_id' and 'session_id' properties. */ export interface IRoomKeyRequestBody extends IRoomKey { session_id: string; sender_key: string; } export interface ICheckOwnCrossSigningTrustOpts { allowPrivateKeyRequests?: boolean; } interface IUserOlmSession { deviceIdKey: string; sessions: { sessionId: string; hasReceivedMessage: boolean; }[]; } export interface IRoomKeyRequestRecipient { userId: string; deviceId: string; } interface ISignableObject { signatures?: ISignatures; unsigned?: object; } export interface IRequestsMap { getRequest(event: MatrixEvent): VerificationRequest | undefined; getRequestByChannel(channel: IVerificationChannel): VerificationRequest | undefined; setRequest(event: MatrixEvent, request: VerificationRequest): void; setRequestByChannel(channel: IVerificationChannel, request: VerificationRequest): void; } export interface IOlmEncryptedContent { algorithm: typeof olmlib.OLM_ALGORITHM; sender_key: string; ciphertext: Record; [ToDeviceMessageId]?: string; } export interface IMegolmEncryptedContent { algorithm: typeof olmlib.MEGOLM_ALGORITHM; sender_key: string; session_id: string; device_id: string; ciphertext: string; [ToDeviceMessageId]?: string; } export type IEncryptedContent = IOlmEncryptedContent | IMegolmEncryptedContent; export declare enum CryptoEvent { DeviceVerificationChanged = "deviceVerificationChanged", UserTrustStatusChanged = "userTrustStatusChanged", UserCrossSigningUpdated = "userCrossSigningUpdated", RoomKeyRequest = "crypto.roomKeyRequest", RoomKeyRequestCancellation = "crypto.roomKeyRequestCancellation", KeyBackupStatus = "crypto.keyBackupStatus", KeyBackupFailed = "crypto.keyBackupFailed", KeyBackupSessionsRemaining = "crypto.keyBackupSessionsRemaining", KeySignatureUploadFailure = "crypto.keySignatureUploadFailure", VerificationRequest = "crypto.verification.request", Warning = "crypto.warning", WillUpdateDevices = "crypto.willUpdateDevices", DevicesUpdated = "crypto.devicesUpdated", KeysChanged = "crossSigning.keysChanged" } export type CryptoEventHandlerMap = { /** * Fires when a device is marked as verified/unverified/blocked/unblocked by * {@link MatrixClient#setDeviceVerified|MatrixClient.setDeviceVerified} or * {@link MatrixClient#setDeviceBlocked|MatrixClient.setDeviceBlocked}. * * @param userId - the owner of the verified device * @param deviceId - the id of the verified device * @param deviceInfo - updated device information */ [CryptoEvent.DeviceVerificationChanged]: (userId: string, deviceId: string, device: DeviceInfo) => void; /** * Fires when the trust status of a user changes * If userId is the userId of the logged-in user, this indicated a change * in the trust status of the cross-signing data on the account. * * The cross-signing API is currently UNSTABLE and may change without notice. * @experimental * * @param userId - the userId of the user in question * @param trustLevel - The new trust level of the user */ [CryptoEvent.UserTrustStatusChanged]: (userId: string, trustLevel: UserTrustLevel) => void; /** * Fires when we receive a room key request * * @param req - request details */ [CryptoEvent.RoomKeyRequest]: (request: IncomingRoomKeyRequest) => void; /** * Fires when we receive a room key request cancellation */ [CryptoEvent.RoomKeyRequestCancellation]: (request: IncomingRoomKeyRequestCancellation) => void; /** * Fires whenever the status of e2e key backup changes, as returned by getKeyBackupEnabled() * @param enabled - true if key backup has been enabled, otherwise false * @example * ``` * matrixClient.on("crypto.keyBackupStatus", function(enabled){ * if (enabled) { * [...] * } * }); * ``` */ [CryptoEvent.KeyBackupStatus]: (enabled: boolean) => void; [CryptoEvent.KeyBackupFailed]: (errcode: string) => void; [CryptoEvent.KeyBackupSessionsRemaining]: (remaining: number) => void; [CryptoEvent.KeySignatureUploadFailure]: (failures: IUploadKeySignaturesResponse["failures"], source: "checkOwnCrossSigningTrust" | "afterCrossSigningLocalKeyChange" | "setDeviceVerification", upload: (opts: { shouldEmit: boolean; }) => Promise) => void; /** * Fires when a key verification is requested. */ [CryptoEvent.VerificationRequest]: (request: VerificationRequest) => void; /** * Fires when the app may wish to warn the user about something related * the end-to-end crypto. * * @param type - One of the strings listed above */ [CryptoEvent.Warning]: (type: string) => void; /** * Fires when the user's cross-signing keys have changed or cross-signing * has been enabled/disabled. The client can use getStoredCrossSigningForUser * with the user ID of the logged in user to check if cross-signing is * enabled on the account. If enabled, it can test whether the current key * is trusted using with checkUserTrust with the user ID of the logged * in user. The checkOwnCrossSigningTrust function may be used to reconcile * the trust in the account key. * * The cross-signing API is currently UNSTABLE and may change without notice. * @experimental */ [CryptoEvent.KeysChanged]: (data: {}) => void; /** * Fires whenever the stored devices for a user will be updated * @param users - A list of user IDs that will be updated * @param initialFetch - If true, the store is empty (apart * from our own device) and is being seeded. */ [CryptoEvent.WillUpdateDevices]: (users: string[], initialFetch: boolean) => void; /** * Fires whenever the stored devices for a user have changed * @param users - A list of user IDs that were updated * @param initialFetch - If true, the store was empty (apart * from our own device) and has been seeded. */ [CryptoEvent.DevicesUpdated]: (users: string[], initialFetch: boolean) => void; [CryptoEvent.UserCrossSigningUpdated]: (userId: string) => void; }; export declare class Crypto extends TypedEventEmitter implements CryptoBackend { readonly baseApis: MatrixClient; readonly userId: string; private readonly deviceId; private readonly clientStore; readonly cryptoStore: CryptoStore; private readonly roomList; /** * @returns The version of Olm. */ static getOlmVersion(): [number, number, number]; readonly backupManager: BackupManager; readonly crossSigningInfo: CrossSigningInfo; readonly olmDevice: OlmDevice; readonly deviceList: DeviceList; readonly dehydrationManager: DehydrationManager; readonly secretStorage: SecretStorage; private readonly reEmitter; private readonly verificationMethods; readonly supportedAlgorithms: string[]; private readonly outgoingRoomKeyRequestManager; private readonly toDeviceVerificationRequests; readonly inRoomVerificationRequests: InRoomRequests; private trustCrossSignedDevices; private lastOneTimeKeyCheck; private oneTimeKeyCheckInProgress; private roomEncryptors; private roomDecryptors; private deviceKeys; globalBlacklistUnverifiedDevices: boolean; globalErrorOnUnknownDevices: boolean; private receivedRoomKeyRequests; private receivedRoomKeyRequestCancellations; private processingRoomKeyRequests; private lazyLoadMembers; private roomDeviceTrackingState; private lastNewSessionForced; private sendKeyRequestsImmediately; private oneTimeKeyCount?; private needsNewFallback?; private fallbackCleanup?; /** * Cryptography bits * * This module is internal to the js-sdk; the public API is via MatrixClient. * * @internal * * @param baseApis - base matrix api interface * * @param userId - The user ID for the local user * * @param deviceId - The identifier for this device. * * @param clientStore - the MatrixClient data store. * * @param cryptoStore - storage for the crypto layer. * * @param roomList - An initialised RoomList object * * @param verificationMethods - Array of verification methods to use. * Each element can either be a string from MatrixClient.verificationMethods * or a class that implements a verification method. */ constructor(baseApis: MatrixClient, userId: string, deviceId: string, clientStore: IStore, cryptoStore: CryptoStore, roomList: RoomList, verificationMethods: Array); /** * Initialise the crypto module so that it is ready for use * * Returns a promise which resolves once the crypto module is ready for use. * * @param exportedOlmDevice - (Optional) data from exported device * that must be re-created. */ init({ exportedOlmDevice, pickleKey }?: IInitOpts): Promise; /** * Whether to trust a others users signatures of their devices. * If false, devices will only be considered 'verified' if we have * verified that device individually (effectively disabling cross-signing). * * Default: true * * @returns True if trusting cross-signed devices */ getCryptoTrustCrossSignedDevices(): boolean; /** * See getCryptoTrustCrossSignedDevices * This may be set before initCrypto() is called to ensure no races occur. * * @param val - True to trust cross-signed devices */ setCryptoTrustCrossSignedDevices(val: boolean): void; /** * Create a recovery key from a user-supplied passphrase. * * @param password - Passphrase string that can be entered by the user * when restoring the backup as an alternative to entering the recovery key. * Optional. * @returns Object with public key metadata, encoded private * recovery key which should be disposed of after displaying to the user, * and raw private key to avoid round tripping if needed. */ createRecoveryKeyFromPassphrase(password?: string): Promise; /** * Checks if the user has previously published cross-signing keys * * This means downloading the devicelist for the user and checking if the list includes * the cross-signing pseudo-device. * * @internal */ userHasCrossSigningKeys(): Promise; /** * Checks whether cross signing: * - is enabled on this account and trusted by this device * - has private keys either cached locally or stored in secret storage * * If this function returns false, bootstrapCrossSigning() can be used * to fix things such that it returns true. That is to say, after * bootstrapCrossSigning() completes successfully, this function should * return true. * * The cross-signing API is currently UNSTABLE and may change without notice. * * @returns True if cross-signing is ready to be used on this device */ isCrossSigningReady(): Promise; /** * Checks whether secret storage: * - is enabled on this account * - is storing cross-signing private keys * - is storing session backup key (if enabled) * * If this function returns false, bootstrapSecretStorage() can be used * to fix things such that it returns true. That is to say, after * bootstrapSecretStorage() completes successfully, this function should * return true. * * The Secure Secret Storage API is currently UNSTABLE and may change without notice. * * @returns True if secret storage is ready to be used on this device */ isSecretStorageReady(): Promise; /** * Bootstrap cross-signing by creating keys if needed. If everything is already * set up, then no changes are made, so this is safe to run to ensure * cross-signing is ready for use. * * This function: * - creates new cross-signing keys if they are not found locally cached nor in * secret storage (if it has been setup) * * The cross-signing API is currently UNSTABLE and may change without notice. * * @param authUploadDeviceSigningKeys - Function * called to await an interactive auth flow when uploading device signing keys. * @param setupNewCrossSigning - Optional. Reset even if keys * already exist. * Args: * A function that makes the request requiring auth. Receives the * auth data as an object. Can be called multiple times, first with an empty * authDict, to obtain the flows. */ bootstrapCrossSigning({ authUploadDeviceSigningKeys, setupNewCrossSigning, }?: IBootstrapCrossSigningOpts): Promise; /** * Bootstrap Secure Secret Storage if needed by creating a default key. If everything is * already set up, then no changes are made, so this is safe to run to ensure secret * storage is ready for use. * * This function * - creates a new Secure Secret Storage key if no default key exists * - if a key backup exists, it is migrated to store the key in the Secret * Storage * - creates a backup if none exists, and one is requested * - migrates Secure Secret Storage to use the latest algorithm, if an outdated * algorithm is found * * The Secure Secret Storage API is currently UNSTABLE and may change without notice. * * @param createSecretStorageKey - Optional. Function * called to await a secret storage key creation flow. * Returns a Promise which resolves to an object with public key metadata, encoded private * recovery key which should be disposed of after displaying to the user, * and raw private key to avoid round tripping if needed. * @param keyBackupInfo - The current key backup object. If passed, * the passphrase and recovery key from this backup will be used. * @param setupNewKeyBackup - If true, a new key backup version will be * created and the private key stored in the new SSSS store. Ignored if keyBackupInfo * is supplied. * @param setupNewSecretStorage - Optional. Reset even if keys already exist. * @param getKeyBackupPassphrase - Optional. Function called to get the user's * current key backup passphrase. Should return a promise that resolves with a Buffer * containing the key, or rejects if the key cannot be obtained. * Returns: * A promise which resolves to key creation data for * SecretStorage#addKey: an object with `passphrase` etc fields. */ bootstrapSecretStorage({ createSecretStorageKey, keyBackupInfo, setupNewKeyBackup, setupNewSecretStorage, getKeyBackupPassphrase, }?: ICreateSecretStorageOpts): Promise; addSecretStorageKey(algorithm: string, opts: IAddSecretStorageKeyOpts, keyID?: string): Promise; hasSecretStorageKey(keyID?: string): Promise; getSecretStorageKey(keyID?: string): Promise; storeSecret(name: string, secret: string, keys?: string[]): Promise; getSecret(name: string): Promise; isSecretStored(name: string): Promise | null>; requestSecret(name: string, devices: string[]): ISecretRequest; getDefaultSecretStorageKeyId(): Promise; setDefaultSecretStorageKeyId(k: string): Promise; checkSecretStorageKey(key: Uint8Array, info: ISecretStorageKeyInfo): Promise; /** * Checks that a given secret storage private key matches a given public key. * This can be used by the getSecretStorageKey callback to verify that the * private key it is about to supply is the one that was requested. * * @param privateKey - The private key * @param expectedPublicKey - The public key * @returns true if the key matches, otherwise false */ checkSecretStoragePrivateKey(privateKey: Uint8Array, expectedPublicKey: string): boolean; /** * Fetches the backup private key, if cached * @returns the key, if any, or null */ getSessionBackupPrivateKey(): Promise; /** * Stores the session backup key to the cache * @param key - the private key * @returns a promise so you can catch failures */ storeSessionBackupPrivateKey(key: ArrayLike): Promise; /** * Checks that a given cross-signing private key matches a given public key. * This can be used by the getCrossSigningKey callback to verify that the * private key it is about to supply is the one that was requested. * * @param privateKey - The private key * @param expectedPublicKey - The public key * @returns true if the key matches, otherwise false */ checkCrossSigningPrivateKey(privateKey: Uint8Array, expectedPublicKey: string): boolean; /** * Run various follow-up actions after cross-signing keys have changed locally * (either by resetting the keys for the account or by getting them from secret * storage), such as signing the current device, upgrading device * verifications, etc. */ private afterCrossSigningLocalKeyChange; /** * Check if a user's cross-signing key is a candidate for upgrading from device * verification. * * @param userId - the user whose cross-signing information is to be checked * @param crossSigningInfo - the cross-signing information to check */ private checkForDeviceVerificationUpgrade; /** * Check if the cross-signing key is signed by a verified device. * * @param userId - the user ID whose key is being checked * @param key - the key that is being checked * @param devices - the user's devices. Should be a map from device ID * to device info */ private checkForValidDeviceSignature; /** * Get the user's cross-signing key ID. * * @param type - The type of key to get the ID of. One of * "master", "self_signing", or "user_signing". Defaults to "master". * * @returns the key ID */ getCrossSigningId(type: string): string | null; /** * Get the cross signing information for a given user. * * @param userId - the user ID to get the cross-signing info for. * * @returns the cross signing information for the user. */ getStoredCrossSigningForUser(userId: string): CrossSigningInfo | null; /** * Check whether a given user is trusted. * * @param userId - The ID of the user to check. * * @returns */ checkUserTrust(userId: string): UserTrustLevel; /** * Check whether a given device is trusted. * * @param userId - The ID of the user whose devices is to be checked. * @param deviceId - The ID of the device to check * * @returns */ checkDeviceTrust(userId: string, deviceId: string): DeviceTrustLevel; /** * Check whether a given deviceinfo is trusted. * * @param userId - The ID of the user whose devices is to be checked. * @param device - The device info object to check * * @returns */ checkDeviceInfoTrust(userId: string, device?: DeviceInfo): DeviceTrustLevel; /** * Check whether one of our own devices is cross-signed by our * user's stored keys, regardless of whether we trust those keys yet. * * @param deviceId - The ID of the device to check * * @returns true if the device is cross-signed */ checkIfOwnDeviceCrossSigned(deviceId: string): boolean; private onDeviceListUserCrossSigningUpdated; /** * Check the copy of our cross-signing key that we have in the device list and * see if we can get the private key. If so, mark it as trusted. */ checkOwnCrossSigningTrust({ allowPrivateKeyRequests, }?: ICheckOwnCrossSigningTrustOpts): Promise; /** * Store a set of keys as our own, trusted, cross-signing keys. * * @param keys - The new trusted set of keys */ private storeTrustedSelfKeys; /** * Check if the master key is signed by a verified device, and if so, prompt * the application to mark it as verified. * * @param userId - the user ID whose key should be checked */ private checkDeviceVerifications; /** */ enableLazyLoading(): void; /** * Tell the crypto module to register for MatrixClient events which it needs to * listen for * * @param eventEmitter - event source where we can register * for event notifications */ registerEventHandlers(eventEmitter: TypedEventEmitter): void; /** * @deprecated this does nothing and will be removed in a future version */ start(): void; /** Stop background processes related to crypto */ stop(): void; /** * Get the Ed25519 key for this device * * @returns base64-encoded ed25519 key. */ getDeviceEd25519Key(): string | null; /** * Get the Curve25519 key for this device * * @returns base64-encoded curve25519 key. */ getDeviceCurve25519Key(): string | null; /** * Set the global override for whether the client should ever send encrypted * messages to unverified devices. This provides the default for rooms which * do not specify a value. * * @param value - whether to blacklist all unverified devices by default * * @deprecated For external code, use {@link MatrixClient#setGlobalBlacklistUnverifiedDevices}. For * internal code, set {@link MatrixClient#globalBlacklistUnverifiedDevices} directly. */ setGlobalBlacklistUnverifiedDevices(value: boolean): void; /** * @returns whether to blacklist all unverified devices by default * * @deprecated For external code, use {@link MatrixClient#getGlobalBlacklistUnverifiedDevices}. For * internal code, reference {@link MatrixClient#globalBlacklistUnverifiedDevices} directly. */ getGlobalBlacklistUnverifiedDevices(): boolean; /** * Upload the device keys to the homeserver. * @returns A promise that will resolve when the keys are uploaded. */ uploadDeviceKeys(): Promise; /** * Stores the current one_time_key count which will be handled later (in a call of * onSyncCompleted). The count is e.g. coming from a /sync response. * * @param currentCount - The current count of one_time_keys to be stored */ updateOneTimeKeyCount(currentCount: number): void; setNeedsNewFallback(needsNewFallback: boolean): void; getNeedsNewFallback(): boolean; private maybeUploadOneTimeKeys; private uploadOneTimeKeys; /** * Download the keys for a list of users and stores the keys in the session * store. * @param userIds - The users to fetch. * @param forceDownload - Always download the keys even if cached. * * @returns A promise which resolves to a map `userId->deviceId->{@link DeviceInfo}`. */ downloadKeys(userIds: string[], forceDownload?: boolean): Promise; /** * Get the stored device keys for a user id * * @param userId - the user to list keys for. * * @returns list of devices, or null if we haven't * managed to get a list of devices for this user yet. */ getStoredDevicesForUser(userId: string): Array | null; /** * Get the stored keys for a single device * * * @returns device, or undefined * if we don't know about this device */ getStoredDevice(userId: string, deviceId: string): DeviceInfo | undefined; /** * Save the device list, if necessary * * @param delay - Time in ms before which the save actually happens. * By default, the save is delayed for a short period in order to batch * multiple writes, but this behaviour can be disabled by passing 0. * * @returns true if the data was saved, false if * it was not (eg. because no changes were pending). The promise * will only resolve once the data is saved, so may take some time * to resolve. */ saveDeviceList(delay: number): Promise; /** * Update the blocked/verified state of the given device * * @param userId - owner of the device * @param deviceId - unique identifier for the device or user's * cross-signing public key ID. * * @param verified - whether to mark the device as verified. Null to * leave unchanged. * * @param blocked - whether to mark the device as blocked. Null to * leave unchanged. * * @param known - whether to mark that the user has been made aware of * the existence of this device. Null to leave unchanged * * @param keys - The list of keys that was present * during the device verification. This will be double checked with the list * of keys the given device has currently. * * @returns updated DeviceInfo */ setDeviceVerification(userId: string, deviceId: string, verified?: boolean | null, blocked?: boolean | null, known?: boolean | null, keys?: Record): Promise; findVerificationRequestDMInProgress(roomId: string): VerificationRequest | undefined; getVerificationRequestsToDeviceInProgress(userId: string): VerificationRequest[]; requestVerificationDM(userId: string, roomId: string): Promise; requestVerification(userId: string, devices?: string[]): Promise; private requestVerificationWithChannel; beginKeyVerification(method: string, userId: string, deviceId: string, transactionId?: string | null): VerificationBase; legacyDeviceVerification(userId: string, deviceId: string, method: VerificationMethod): Promise; /** * Get information on the active olm sessions with a user *

* Returns a map from device id to an object with keys 'deviceIdKey' (the * device's curve25519 identity key) and 'sessions' (an array of objects in the * same format as that returned by * {@link OlmDevice#getSessionInfoForDevice}). *

* This method is provided for debugging purposes. * * @param userId - id of user to inspect */ getOlmSessionsForUser(userId: string): Promise>; /** * Get the device which sent an event * * @param event - event to be checked */ getEventSenderDeviceInfo(event: MatrixEvent): DeviceInfo | null; /** * Get information about the encryption of an event * * @param event - event to be checked * * @returns An object with the fields: * - encrypted: whether the event is encrypted (if not encrypted, some of the * other properties may not be set) * - senderKey: the sender's key * - algorithm: the algorithm used to encrypt the event * - authenticated: whether we can be sure that the owner of the senderKey * sent the event * - sender: the sender's device information, if available * - mismatchedSender: if the event's ed25519 and curve25519 keys don't match * (only meaningful if `sender` is set) */ getEventEncryptionInfo(event: MatrixEvent): IEncryptedEventInfo; /** * Forces the current outbound group session to be discarded such * that another one will be created next time an event is sent. * * @param roomId - The ID of the room to discard the session for * * This should not normally be necessary. */ forceDiscardSession(roomId: string): void; /** * Configure a room to use encryption (ie, save a flag in the cryptoStore). * * @param roomId - The room ID to enable encryption in. * * @param config - The encryption config for the room. * * @param inhibitDeviceQuery - true to suppress device list query for * users in the room (for now). In case lazy loading is enabled, * the device query is always inhibited as the members are not tracked. * * @deprecated It is normally incorrect to call this method directly. Encryption * is enabled by receiving an `m.room.encryption` event (which we may have sent * previously). */ setRoomEncryption(roomId: string, config: IRoomEncryption, inhibitDeviceQuery?: boolean): Promise; /** * Set up encryption for a room. * * This is called when an m.room.encryption event is received. It saves a flag * for the room in the cryptoStore (if it wasn't already set), sets up an "encryptor" for * the room, and enables device-list tracking for the room. * * It does not initiate a device list query for the room. That is normally * done once we finish processing the sync, in onSyncCompleted. * * @param room - The room to enable encryption in. * @param config - The encryption config for the room. */ private setRoomEncryptionImpl; /** * Make sure we are tracking the device lists for all users in this room. * * @param roomId - The room ID to start tracking devices in. * @returns when all devices for the room have been fetched and marked to track * @deprecated there's normally no need to call this function: device list tracking * will be enabled as soon as we have the full membership list. */ trackRoomDevices(roomId: string): Promise; /** * Make sure we are tracking the device lists for all users in this room. * * This is normally called when we are about to send an encrypted event, to make sure * we have all the devices in the room; but it is also called when processing an * m.room.encryption state event (if lazy-loading is disabled), or when members are * loaded (if lazy-loading is enabled), to prepare the device list. * * @param room - Room to enable device-list tracking in */ private trackRoomDevicesImpl; /** * Try to make sure we have established olm sessions for all known devices for * the given users. * * @param users - list of user ids * @param force - If true, force a new Olm session to be created. Default false. * * @returns resolves once the sessions are complete, to * an Object mapping from userId to deviceId to * {@link OlmSessionResult} */ ensureOlmSessionsForUsers(users: string[], force?: boolean): Promise>>; /** * Get a list containing all of the room keys * * @returns a list of session export objects */ exportRoomKeys(): Promise; /** * Import a list of room keys previously exported by exportRoomKeys * * @param keys - a list of session export objects * @returns a promise which resolves once the keys have been imported */ importRoomKeys(keys: IMegolmSessionData[], opts?: IImportRoomKeysOpts): Promise; /** * Counts the number of end to end session keys that are waiting to be backed up * @returns Promise which resolves to the number of sessions requiring backup */ countSessionsNeedingBackup(): Promise; /** * Perform any background tasks that can be done before a message is ready to * send, in order to speed up sending of the message. * * @param room - the room the event is in */ prepareToEncrypt(room: Room): void; /** * Encrypt an event according to the configuration of the room. * * @param event - event to be sent * * @param room - destination room. * * @returns Promise which resolves when the event has been * encrypted, or null if nothing was needed */ encryptEvent(event: MatrixEvent, room?: Room): Promise; /** * Decrypt a received event * * * @returns resolves once we have * finished decrypting. Rejects with an `algorithms.DecryptionError` if there * is a problem decrypting the event. */ decryptEvent(event: MatrixEvent): Promise; /** * Handle the notification from /sync or /keys/changes that device lists have * been changed. * * @param syncData - Object containing sync tokens associated with this sync * @param syncDeviceLists - device_lists field from /sync, or response from * /keys/changes */ handleDeviceListChanges(syncData: ISyncStateData, syncDeviceLists: Required["device_lists"]): Promise; /** * Send a request for some room keys, if we have not already done so * * @param resend - whether to resend the key request if there is * already one * * @returns a promise that resolves when the key request is queued */ requestRoomKey(requestBody: IRoomKeyRequestBody, recipients: IRoomKeyRequestRecipient[], resend?: boolean): Promise; /** * Cancel any earlier room key request * * @param requestBody - parameters to match for cancellation */ cancelRoomKeyRequest(requestBody: IRoomKeyRequestBody): void; /** * Re-send any outgoing key requests, eg after verification * @returns */ cancelAndResendAllOutgoingKeyRequests(): Promise; /** * handle an m.room.encryption event * * @param room - in which the event was received * @param event - encryption event to be processed */ onCryptoEvent(room: Room, event: MatrixEvent): Promise; /** * Called before the result of a sync is processed * * @param syncData - the data from the 'MatrixClient.sync' event */ onSyncWillProcess(syncData: ISyncStateData): Promise; /** * handle the completion of a /sync * * This is called after the processing of each successful /sync response. * It is an opportunity to do a batch process on the information received. * * @param syncData - the data from the 'MatrixClient.sync' event */ onSyncCompleted(syncData: OnSyncCompletedData): Promise; /** * Trigger the appropriate invalidations and removes for a given * device list * * @param deviceLists - device_lists field from /sync, or response from * /keys/changes */ private evalDeviceListChanges; /** * Get a list of all the IDs of users we share an e2e room with * for which we are tracking devices already * * @returns List of user IDs */ private getTrackedE2eUsers; /** * Get a list of the e2e-enabled rooms we are members of, * and for which we are already tracking the devices * * @returns */ private getTrackedE2eRooms; /** * Encrypts and sends a given object via Olm to-device messages to a given * set of devices. * @param userDeviceInfoArr - the devices to send to * @param payload - fields to include in the encrypted payload * @returns Promise which * resolves once the message has been encrypted and sent to the given * userDeviceMap, and returns the `{ contentMap, deviceInfoByDeviceId }` * of the successfully sent messages. */ encryptAndSendToDevices(userDeviceInfoArr: IOlmDevice[], payload: object): Promise; private onMembership; preprocessToDeviceMessages(events: IToDeviceEvent[]): Promise; private onToDeviceEvent; /** * Handle a key event * * @internal * @param event - key event */ private onRoomKeyEvent; /** * Handle a key withheld event * * @internal * @param event - key withheld event */ private onRoomKeyWithheldEvent; /** * Handle a general key verification event. * * @internal * @param event - verification start event */ private onKeyVerificationMessage; /** * Handle key verification requests sent as timeline events * * @internal * @param event - the timeline event * @param room - not used * @param atStart - not used * @param removed - not used * @param whether - this is a live event */ private onTimelineEvent; private handleVerificationEvent; /** * Handle a toDevice event that couldn't be decrypted * * @internal * @param event - undecryptable event */ private onToDeviceBadEncrypted; /** * Handle a change in the membership state of a member of a room * * @internal * @param event - event causing the change * @param member - user whose membership changed * @param oldMembership - previous membership */ private onRoomMembership; /** * Called when we get an m.room_key_request event. * * @internal * @param event - key request event */ private onRoomKeyRequestEvent; /** * Process any m.room_key_request events which were queued up during the * current sync. * * @internal */ private processReceivedRoomKeyRequests; /** * Helper for processReceivedRoomKeyRequests * */ private processReceivedRoomKeyRequest; /** * Helper for processReceivedRoomKeyRequests * */ private processReceivedRoomKeyRequestCancellation; /** * Get a decryptor for a given room and algorithm. * * If we already have a decryptor for the given room and algorithm, return * it. Otherwise try to instantiate it. * * @internal * * @param roomId - room id for decryptor. If undefined, a temporary * decryptor is instantiated. * * @param algorithm - crypto algorithm * * @throws {@link DecryptionError} if the algorithm is unknown */ getRoomDecryptor(roomId: string | null, algorithm: string): DecryptionAlgorithm; /** * Get all the room decryptors for a given encryption algorithm. * * @param algorithm - The encryption algorithm * * @returns An array of room decryptors */ private getRoomDecryptors; /** * sign the given object with our ed25519 key * * @param obj - Object to which we will add a 'signatures' property */ signObject(obj: T): Promise; } /** * Fix up the backup key, that may be in the wrong format due to a bug in a * migration step. Some backup keys were stored as a comma-separated list of * integers, rather than a base64-encoded byte array. If this function is * passed a string that looks like a list of integers rather than a base64 * string, it will attempt to convert it to the right format. * * @param key - the key to check * @returns If the key is in the wrong format, then the fixed * key will be returned. Otherwise null will be returned. * */ export declare function fixBackupKey(key?: string): string | null; /** * Represents a received m.room_key_request event */ export declare class IncomingRoomKeyRequest { /** user requesting the key */ readonly userId: string; /** device requesting the key */ readonly deviceId: string; /** unique id for the request */ readonly requestId: string; readonly requestBody: IRoomKeyRequestBody; /** * callback which, when called, will ask * the relevant crypto algorithm implementation to share the keys for * this request. */ share: () => void; constructor(event: MatrixEvent); } /** * Represents a received m.room_key_request cancellation */ declare class IncomingRoomKeyRequestCancellation { /** user requesting the cancellation */ readonly userId: string; /** device requesting the cancellation */ readonly deviceId: string; /** unique id for the request to be cancelled */ readonly requestId: string; constructor(event: MatrixEvent); } export type { IEventDecryptionResult, IMegolmSessionData } from "../@types/crypto"; //# sourceMappingURL=index.d.ts.map