/** * This is an internal module. See {@link MatrixEvent} and {@link RoomEvent} for * the public classes. */ import { ExtensibleEvent, Optional } from "matrix-events-sdk"; import { VerificationRequest } from "../crypto/verification/request/VerificationRequest"; import { EventType, MsgType, RelationType } from "../@types/event"; import { Crypto } from "../crypto"; import { RoomMember } from "./room-member"; import { Thread, ThreadEvent, EventHandlerMap as ThreadEventHandlerMap } from "./thread"; import { IActionsObject } from "../pushprocessor"; import { MatrixError } from "../http-api"; import { TypedEventEmitter } from "./typed-event-emitter"; import { EventStatus } from "./event-status"; import { CryptoBackend } from "../common-crypto/CryptoBackend"; export { EventStatus } from "./event-status"; export interface IContent { [key: string]: any; "msgtype"?: MsgType | string; "membership"?: string; "avatar_url"?: string; "displayname"?: string; "m.relates_to"?: IEventRelation; "org.matrix.msc3952.mentions"?: IMentions; } type StrippedState = Required>; export interface IUnsigned { "age"?: number; "prev_sender"?: string; "prev_content"?: IContent; "redacted_because"?: IEvent; "transaction_id"?: string; "invite_room_state"?: StrippedState[]; "m.relations"?: Record; } export interface IThreadBundledRelationship { latest_event: IEvent; count: number; current_user_participated?: boolean; } export interface IEvent { event_id: string; type: string; content: IContent; sender: string; room_id?: string; origin_server_ts: number; txn_id?: string; state_key?: string; membership?: string; unsigned: IUnsigned; redacts?: string; /** * @deprecated in favour of `sender` */ user_id?: string; /** * @deprecated in favour of `unsigned.prev_content` */ prev_content?: IContent; /** * @deprecated in favour of `origin_server_ts` */ age?: number; } export interface IAggregatedRelation { origin_server_ts: number; event_id?: string; sender?: string; type?: string; count?: number; key?: string; } export interface IEventRelation { "rel_type"?: RelationType | string; "event_id"?: string; "is_falling_back"?: boolean; "m.in_reply_to"?: { event_id?: string; }; "key"?: string; } export interface IMentions { user_ids?: string[]; room?: boolean; } /** * When an event is a visibility change event, as per MSC3531, * the visibility change implied by the event. */ export interface IVisibilityChange { /** * If `true`, the target event should be made visible. * Otherwise, it should be hidden. */ visible: boolean; /** * The event id affected. */ eventId: string; /** * Optionally, a human-readable reason explaining why * the event was hidden. Ignored if the event was made * visible. */ reason: string | null; } export interface IClearEvent { room_id?: string; type: string; content: Omit; unsigned?: IUnsigned; } interface IKeyRequestRecipient { userId: string; deviceId: "*" | string; } export interface IDecryptOptions { emit?: boolean; isRetry?: boolean; forceRedecryptIfUntrusted?: boolean; } /** * Message hiding, as specified by https://github.com/matrix-org/matrix-doc/pull/3531. */ export type MessageVisibility = IMessageVisibilityHidden | IMessageVisibilityVisible; /** * Variant of `MessageVisibility` for the case in which the message should be displayed. */ export interface IMessageVisibilityVisible { readonly visible: true; } /** * Variant of `MessageVisibility` for the case in which the message should be hidden. */ export interface IMessageVisibilityHidden { readonly visible: false; /** * Optionally, a human-readable reason to show to the user indicating why the * message has been hidden (e.g. "Message Pending Moderation"). */ readonly reason: string | null; } export declare enum MatrixEventEvent { Decrypted = "Event.decrypted", BeforeRedaction = "Event.beforeRedaction", VisibilityChange = "Event.visibilityChange", LocalEventIdReplaced = "Event.localEventIdReplaced", Status = "Event.status", Replaced = "Event.replaced", RelationsCreated = "Event.relationsCreated" } export type MatrixEventEmittedEvents = MatrixEventEvent | ThreadEvent.Update; export type MatrixEventHandlerMap = { /** * Fires when an event is decrypted * * @param event - The matrix event which has been decrypted * @param err - The error that occurred during decryption, or `undefined` if no error occurred. */ [MatrixEventEvent.Decrypted]: (event: MatrixEvent, err?: Error) => void; [MatrixEventEvent.BeforeRedaction]: (event: MatrixEvent, redactionEvent: MatrixEvent) => void; [MatrixEventEvent.VisibilityChange]: (event: MatrixEvent, visible: boolean) => void; [MatrixEventEvent.LocalEventIdReplaced]: (event: MatrixEvent) => void; [MatrixEventEvent.Status]: (event: MatrixEvent, status: EventStatus | null) => void; [MatrixEventEvent.Replaced]: (event: MatrixEvent) => void; [MatrixEventEvent.RelationsCreated]: (relationType: string, eventType: string) => void; } & Pick; export declare class MatrixEvent extends TypedEventEmitter { event: Partial; private pushActions; private _replacingEvent; private _localRedactionEvent; private _isCancelled; private clearEvent?; private visibility; private _hasCachedExtEv; private _cachedExtEv; private senderCurve25519Key; private claimedEd25519Key; private forwardingCurve25519KeyChain; private untrusted; private decryptionPromise; private retryDecryption; private txnId?; /** * A reference to the thread this event belongs to */ private thread?; private threadId?; private encryptedDisabledForUnverifiedDevices; localTimestamp: number; /** * The room member who sent this event, or null e.g. * this is a presence event. This is only guaranteed to be set for events that * appear in a timeline, ie. do not guarantee that it will be set on state * events. * @privateRemarks * Should be read-only */ sender: RoomMember | null; /** * The room member who is the target of this event, e.g. * the invitee, the person being banned, etc. * @privateRemarks * Should be read-only */ target: RoomMember | null; /** * The sending status of the event. * @privateRemarks * Should be read-only */ status: EventStatus | null; /** * most recent error associated with sending the event, if any * @privateRemarks * Should be read-only */ error: MatrixError | null; /** * True if this event is 'forward looking', meaning * that getDirectionalContent() will return event.content and not event.prev_content. * Only state events may be backwards looking * Default: true. This property is experimental and may change. * @privateRemarks * Should be read-only */ forwardLooking: boolean; verificationRequest?: VerificationRequest; private readonly reEmitter; /** * Construct a Matrix Event object * * @param event - The raw (possibly encrypted) event. Do not access * this property directly unless you absolutely have to. Prefer the getter * methods defined on this class. Using the getter methods shields your app * from changes to event JSON between Matrix versions. */ constructor(event?: Partial); /** * Unstable getter to try and get an extensible event. Note that this might * return a falsy value if the event could not be parsed as an extensible * event. * * @deprecated Use stable functions where possible. */ get unstableExtensibleEvent(): Optional; private invalidateExtensibleEvent; /** * Gets the event as though it would appear unencrypted. If the event is already not * encrypted, it is simply returned as-is. * @returns The event in wire format. */ getEffectiveEvent(): IEvent; /** * Get the event_id for this event. * @returns The event ID, e.g. $143350589368169JsLZx:localhost * */ getId(): string | undefined; /** * Get the user_id for this event. * @returns The user ID, e.g. `@alice:matrix.org` */ getSender(): string | undefined; /** * Get the (decrypted, if necessary) type of event. * * @returns The event type, e.g. `m.room.message` */ getType(): EventType | string; /** * Get the (possibly encrypted) type of the event that will be sent to the * homeserver. * * @returns The event type. */ getWireType(): EventType | string; /** * Get the room_id for this event. This will return `undefined` * for `m.presence` events. * @returns The room ID, e.g. !cURbafjkfsMDVwdRDQ:matrix.org * */ getRoomId(): string | undefined; /** * Get the timestamp of this event. * @returns The event timestamp, e.g. `1433502692297` */ getTs(): number; /** * Get the timestamp of this event, as a Date object. * @returns The event date, e.g. `new Date(1433502692297)` */ getDate(): Date | null; /** * Get a string containing details of this event * * This is intended for logging, to help trace errors. Example output: * * @example * ``` * id=$HjnOHV646n0SjLDAqFrgIjim7RCpB7cdMXFrekWYAn type=m.room.encrypted * sender=@user:example.com room=!room:example.com ts=2022-10-25T17:30:28.404Z * ``` */ getDetails(): string; /** * Get the (decrypted, if necessary) event content JSON, even if the event * was replaced by another event. * * @returns The event content JSON, or an empty object. */ getOriginalContent(): T; /** * Get the (decrypted, if necessary) event content JSON, * or the content from the replacing event, if any. * See `makeReplaced`. * * @returns The event content JSON, or an empty object. */ getContent(): T; /** * Get the (possibly encrypted) event content JSON that will be sent to the * homeserver. * * @returns The event content JSON, or an empty object. */ getWireContent(): IContent; /** * Get the event ID of the thread head */ get threadRootId(): string | undefined; /** * A helper to check if an event is a thread's head or not */ get isThreadRoot(): boolean; get replyEventId(): string | undefined; get relationEventId(): string | undefined; /** * Get the previous event content JSON. This will only return something for * state events which exist in the timeline. * @returns The previous event content JSON, or an empty object. */ getPrevContent(): IContent; /** * Get either 'content' or 'prev_content' depending on if this event is * 'forward-looking' or not. This can be modified via event.forwardLooking. * In practice, this means we get the chronologically earlier content value * for this event (this method should surely be called getEarlierContent) * This method is experimental and may change. * @returns event.content if this event is forward-looking, else * event.prev_content. */ getDirectionalContent(): IContent; /** * Get the age of this event. This represents the age of the event when the * event arrived at the device, and not the age of the event when this * function was called. * Can only be returned once the server has echo'ed back * @returns The age of this event in milliseconds. */ getAge(): number | undefined; /** * Get the age of the event when this function was called. * This is the 'age' field adjusted according to how long this client has * had the event. * @returns The age of this event in milliseconds. */ getLocalAge(): number; /** * Get the event state_key if it has one. This will return undefined * for message events. * @returns The event's `state_key`. */ getStateKey(): string | undefined; /** * Check if this event is a state event. * @returns True if this is a state event. */ isState(): boolean; /** * Replace the content of this event with encrypted versions. * (This is used when sending an event; it should not be used by applications). * * @internal * * @param cryptoType - type of the encrypted event - typically * "m.room.encrypted" * * @param cryptoContent - raw 'content' for the encrypted event. * * @param senderCurve25519Key - curve25519 key to record for the * sender of this event. * See {@link MatrixEvent#getSenderKey}. * * @param claimedEd25519Key - claimed ed25519 key to record for the * sender if this event. * See {@link MatrixEvent#getClaimedEd25519Key} */ makeEncrypted(cryptoType: string, cryptoContent: object, senderCurve25519Key: string, claimedEd25519Key: string): void; /** * Check if this event is currently being decrypted. * * @returns True if this event is currently being decrypted, else false. */ isBeingDecrypted(): boolean; getDecryptionPromise(): Promise | null; /** * Check if this event is an encrypted event which we failed to decrypt * * (This implies that we might retry decryption at some point in the future) * * @returns True if this event is an encrypted event which we * couldn't decrypt. */ isDecryptionFailure(): boolean; get isEncryptedDisabledForUnverifiedDevices(): boolean; shouldAttemptDecryption(): boolean; /** * Start the process of trying to decrypt this event. * * (This is used within the SDK: it isn't intended for use by applications) * * @internal * * @param crypto - crypto module * * @returns promise which resolves (to undefined) when the decryption * attempt is completed. */ attemptDecryption(crypto: CryptoBackend, options?: IDecryptOptions): Promise; /** * Cancel any room key request for this event and resend another. * * @param crypto - crypto module * @param userId - the user who received this event * * @returns a promise that resolves when the request is queued */ cancelAndResendKeyRequest(crypto: Crypto, userId: string): Promise; /** * Calculate the recipients for keyshare requests. * * @param userId - the user who received this event. * * @returns array of recipients */ getKeyRequestRecipients(userId: string): IKeyRequestRecipient[]; private decryptionLoop; private badEncryptedMessage; /** * Update the cleartext data on this event. * * (This is used after decrypting an event; it should not be used by applications). * * @internal * * @param decryptionResult - the decryption result, including the plaintext and some key info * * @remarks * Fires {@link MatrixEventEvent.Decrypted} */ private setClearData; /** * Gets the cleartext content for this event. If the event is not encrypted, * or encryption has not been completed, this will return null. * * @returns The cleartext (decrypted) content for the event */ getClearContent(): IContent | null; /** * Check if the event is encrypted. * @returns True if this event is encrypted. */ isEncrypted(): boolean; /** * The curve25519 key for the device that we think sent this event * * For an Olm-encrypted event, this is inferred directly from the DH * exchange at the start of the session: the curve25519 key is involved in * the DH exchange, so only a device which holds the private part of that * key can establish such a session. * * For a megolm-encrypted event, it is inferred from the Olm message which * established the megolm session */ getSenderKey(): string | null; /** * The additional keys the sender of this encrypted event claims to possess. * * Just a wrapper for #getClaimedEd25519Key (q.v.) */ getKeysClaimed(): Partial>; /** * Get the ed25519 the sender of this event claims to own. * * For Olm messages, this claim is encoded directly in the plaintext of the * event itself. For megolm messages, it is implied by the m.room_key event * which established the megolm session. * * Until we download the device list of the sender, it's just a claim: the * device list gives a proof that the owner of the curve25519 key used for * this event (and returned by #getSenderKey) also owns the ed25519 key by * signing the public curve25519 key with the ed25519 key. * * In general, applications should not use this method directly, but should * instead use MatrixClient.getEventSenderDeviceInfo. */ getClaimedEd25519Key(): string | null; /** * Get the curve25519 keys of the devices which were involved in telling us * about the claimedEd25519Key and sender curve25519 key. * * Normally this will be empty, but in the case of a forwarded megolm * session, the sender keys are sent to us by another device (the forwarding * device), which we need to trust to do this. In that case, the result will * be a list consisting of one entry. * * If the device that sent us the key (A) got it from another device which * it wasn't prepared to vouch for (B), the result will be [A, B]. And so on. * * @returns base64-encoded curve25519 keys, from oldest to newest. */ getForwardingCurve25519KeyChain(): string[]; /** * Whether the decryption key was obtained from an untrusted source. If so, * we cannot verify the authenticity of the message. */ isKeySourceUntrusted(): boolean | undefined; getUnsigned(): IUnsigned; setUnsigned(unsigned: IUnsigned): void; unmarkLocallyRedacted(): boolean; markLocallyRedacted(redactionEvent: MatrixEvent): void; /** * Change the visibility of an event, as per https://github.com/matrix-org/matrix-doc/pull/3531 . * * @param visibilityChange - event holding a hide/unhide payload, or nothing * if the event is being reset to its original visibility (presumably * by a visibility event being redacted). * * @remarks * Fires {@link MatrixEventEvent.VisibilityChange} if `visibilityEvent` * caused a change in the actual visibility of this event, either by making it * visible (if it was hidden), by making it hidden (if it was visible) or by * changing the reason (if it was hidden). */ applyVisibilityEvent(visibilityChange?: IVisibilityChange): void; /** * Return instructions to display or hide the message. * * @returns Instructions determining whether the message * should be displayed. */ messageVisibility(): MessageVisibility; /** * Update the content of an event in the same way it would be by the server * if it were redacted before it was sent to us * * @param redactionEvent - event causing the redaction */ makeRedacted(redactionEvent: MatrixEvent): void; /** * Check if this event has been redacted * * @returns True if this event has been redacted */ isRedacted(): boolean; /** * Check if this event is a redaction of another event * * @returns True if this event is a redaction */ isRedaction(): boolean; /** * Return the visibility change caused by this event, * as per https://github.com/matrix-org/matrix-doc/pull/3531. * * @returns If the event is a well-formed visibility change event, * an instance of `IVisibilityChange`, otherwise `null`. */ asVisibilityChange(): IVisibilityChange | null; /** * Check if this event alters the visibility of another event, * as per https://github.com/matrix-org/matrix-doc/pull/3531. * * @returns True if this event alters the visibility * of another event. */ isVisibilityEvent(): boolean; /** * Get the (decrypted, if necessary) redaction event JSON * if event was redacted * * @returns The redaction event JSON, or an empty object */ getRedactionEvent(): IEvent | {} | null; /** * Get the push actions, if known, for this event * * @returns push actions */ getPushActions(): IActionsObject | null; /** * Set the push actions for this event. * * @param pushActions - push actions */ setPushActions(pushActions: IActionsObject | null): void; /** * Replace the `event` property and recalculate any properties based on it. * @param event - the object to assign to the `event` property */ handleRemoteEcho(event: object): void; /** * Whether the event is in any phase of sending, send failure, waiting for * remote echo, etc. */ isSending(): boolean; /** * Update the event's sending status and emit an event as well. * * @param status - The new status */ setStatus(status: EventStatus | null): void; replaceLocalEventId(eventId: string): void; /** * Get whether the event is a relation event, and of a given type if * `relType` is passed in. State events cannot be relation events * * @param relType - if given, checks that the relation is of the * given type */ isRelation(relType?: string): boolean; /** * Get relation info for the event, if any. */ getRelation(): IEventRelation | null; /** * Set an event that replaces the content of this event, through an m.replace relation. * * @param newEvent - the event with the replacing content, if any. * * @remarks * Fires {@link MatrixEventEvent.Replaced} */ makeReplaced(newEvent?: MatrixEvent): void; /** * Returns the status of any associated edit or redaction * (not for reactions/annotations as their local echo doesn't affect the original event), * or else the status of the event. */ getAssociatedStatus(): EventStatus | null; getServerAggregatedRelation(relType: RelationType | string): T | undefined; /** * Returns the event ID of the event replacing the content of this event, if any. */ replacingEventId(): string | undefined; /** * Returns the event replacing the content of this event, if any. * Replacements are aggregated on the server, so this would only * return an event in case it came down the sync, or for local echo of edits. */ replacingEvent(): MatrixEvent | null; /** * Returns the origin_server_ts of the event replacing the content of this event, if any. */ replacingEventDate(): Date | undefined; /** * Returns the event that wants to redact this event, but hasn't been sent yet. * @returns the event */ localRedactionEvent(): MatrixEvent | null; /** * For relations and redactions, returns the event_id this event is referring to. */ getAssociatedId(): string | undefined; /** * Checks if this event is associated with another event. See `getAssociatedId`. * @deprecated use hasAssociation instead. */ hasAssocation(): boolean; /** * Checks if this event is associated with another event. See `getAssociatedId`. */ hasAssociation(): boolean; /** * Update the related id with a new one. * * Used to replace a local id with remote one before sending * an event with a related id. * * @param eventId - the new event id */ updateAssociatedId(eventId: string): void; /** * Flags an event as cancelled due to future conditions. For example, a verification * request event in the same sync transaction may be flagged as cancelled to warn * listeners that a cancellation event is coming down the same pipe shortly. * @param cancelled - Whether the event is to be cancelled or not. */ flagCancelled(cancelled?: boolean): void; /** * Gets whether or not the event is flagged as cancelled. See flagCancelled() for * more information. * @returns True if the event is cancelled, false otherwise. */ isCancelled(): boolean; /** * Get a copy/snapshot of this event. The returned copy will be loosely linked * back to this instance, though will have "frozen" event information. Other * properties of this MatrixEvent instance will be copied verbatim, which can * mean they are in reference to this instance despite being on the copy too. * The reference the snapshot uses does not change, however members aside from * the underlying event will not be deeply cloned, thus may be mutated internally. * For example, the sender profile will be copied over at snapshot time, and * the sender profile internally may mutate without notice to the consumer. * * This is meant to be used to snapshot the event details themselves, not the * features (such as sender) surrounding the event. * @returns A snapshot of this event. */ toSnapshot(): MatrixEvent; /** * Determines if this event is equivalent to the given event. This only checks * the event object itself, not the other properties of the event. Intended for * use with toSnapshot() to identify events changing. * @param otherEvent - The other event to check against. * @returns True if the events are the same, false otherwise. */ isEquivalentTo(otherEvent: MatrixEvent): boolean; /** * Summarise the event as JSON. This is currently used by React SDK's view * event source feature and Seshat's event indexing, so take care when * adjusting the output here. * * If encrypted, include both the decrypted and encrypted view of the event. * * This is named `toJSON` for use with `JSON.stringify` which checks objects * for functions named `toJSON` and will call them to customise the output * if they are defined. */ toJSON(): object; setVerificationRequest(request: VerificationRequest): void; setTxnId(txnId: string): void; getTxnId(): string | undefined; /** * Set the instance of a thread associated with the current event * @param thread - the thread */ setThread(thread?: Thread): void; /** * Get the instance of the thread associated with the current event */ getThread(): Thread | undefined; setThreadId(threadId?: string): void; } //# sourceMappingURL=event.d.ts.map