Newer version of acknowledgements. To be active for protocol versions >= 4. The signature is checked on the server side to avoid that malicious sequencers create fake acknowledgements in multi-writer architectures where writers don't fully trust each other.

Acknowledge that a member has successfully handled all events up to and including the timestamp provided. Makes earlier events for this member available for pruning. The timestamp is in sequencer time and will likely correspond to an event that the client has processed however this is not validated. It is assumed that members in consecutive calls will never acknowledge an earlier timestamp however this is also not validated (and could be invalid if the member has many subscriptions from the same or many processes). It is expected that members will periodically call this endpoint with their latest clean timestamp rather than calling it for every event they process. The default interval is in the range of once a minute.

A member should only acknowledge timestamps it has actually received. The behaviour of the sequencer is implementation-defined when a member acknowledges a later timestamp.

Return the last timestamp of the containing block of the provided timestamp. This is needed to determine the effective timestamp to observe in topology processing, required to produce a correct snapshot.

Disable the provided member. Should prevent them from reading or writing in the future (although they can still be addressed). Their unread data can also be pruned. Effectively disables all instances of this member.

True if member is registered in sequencer persistent state / storage (i.e. database).

Locate a timestamp relative to the earliest available sequencer event based on an index starting at one.

When index == 1, indicates the progress of pruning as the timestamp of the oldest unpruned response When index > 1, returns the timestamp of the index'th oldest response which is useful for pruning in batches when index == batchSize.

Prune as much sequencer data as safely possible without breaking operation (except for members that have been previously flagged as disabled). Sequencers are permitted to prune to an earlier timestamp if required to for their own consistency. For example, the Database Sequencer will adjust this time to a potentially earlier point in time where counter checkpoints are available for all members (who aren't being ignored).

Implementations that support pruning also update the "oldest-response-age" metric if pruning succeeds.

Return a structure containing the members registered with the sequencer and the latest positions of clients reading events.

Report the max-event-age metric based on the oldest event timestamp and the current clock time or zero if no oldest timestamp exists (e.g. events fully pruned).

Sets the traffic purchased of a member to the new provided value. This will only become effective if / when properly authorized by enough sequencers according to the synchronizer owners threshold.

Return a snapshot state that other newly onboarded sequencers can use as an initial state from which to support serving events. This state depends on the provided timestamp and will contain registered members, counters per member, latest timestamp (which will be greater than or equal to the provided timestamp) as well as a sequencer implementation specific piece of information such that all together form the point after which the new sequencer can safely operate. The provided timestamp is typically the timestamp of the requesting sequencer's private key, which is the point in time where it can effectively sign events.

Return the latest known status of the specified members, either at wall clock time of this sequencer or latest known sequenced event, whichever is the most recent. This method should be used for information purpose only and not to get a deterministic traffic state as the state will depend on current time. To get the state at a specific timestamp, use getTrafficStateAt instead. If the list is empty, return the status of all members. Requested members who are not registered in the Sequencer will not be in the response. Registered members with no sent or received event will return an empty status.

TODO(#16601) Make this method private once PerformUnlessClosing doesn't need it any more

The com.digitalasset.canton.lifecycle.HasRunOnClosing associated with this object.

When this com.digitalasset.canton.lifecycle.HasRunOnClosing closes, the health state permanently becomes closingState and all listeners are notified about this.

Blocks until all earlier tasks have completed and then prevents further tasks from being run.

The state set when the associatedHasRunOnClosing closes

Returns the current state

The initial state upon creation

Check whether we're closing. Susceptible to race conditions; unless you're using this as a flag to the retry lib or you really know what you're doing, prefer performUnlessClosing and friends.

Set this to true to get detailed information about all futures that did not complete during shutdown.

How often to poll to check that all tasks have completed.

Use this method to create a PromiseUnlessShutdown that will automatically be cancelled when the close context is closed. This allows proper clean up of stray promises when the node is transitioning to a passive state.

Note: you should *not* invoke success on the returned promise but rather use trySuccess. The reason is that the call to success may fail in case of shutdown.

Name of the health element. Used for logging.

Blocks until all earlier tasks have completed and then prevents further tasks from being run.

Performs the task given by f unless a shutdown has been initiated. The shutdown will only begin after f completes, but other tasks may execute concurrently with f, if started using this function, or one of the other variants (performUnlessClosingF and performUnlessClosingEitherT). The tasks are assumed to take less than closingTimeout to complete.

DO NOT CALL this.close as part of f, because it will result in a deadlock. DO NOT PUT retries, especially indefinite ones, inside f.

Performs the EitherT[Future] given by etf unless a shutdown has been initiated, in which case the provided error is returned instead. Both etf and the error are lazy; etf is only evaluated if there is no shutdown, the error only if we're shutting down. The shutdown will only begin after etf completes, but other tasks may execute concurrently with etf, if started using this function, or one of the other variants (performUnlessClosing and performUnlessClosingF). The tasks are assumed to take less than closingTimeout to complete.

DO NOT CALL this.close as part of etf, because it will result in a deadlock. DO NOT PUT retries, especially indefinite ones, inside f.

Use this method if closing/shutdown of the object should wait for asynchronous computation to finish too.

Performs the Future given by f unless a shutdown has been initiated. The future is lazy and not evaluated during shutdown. The shutdown will only begin after f completes, but other tasks may execute concurrently with f, if started using this function, or one of the other variants (performUnlessClosing and performUnlessClosingEitherT). The tasks are assumed to take less than closingTimeout to complete.

DO NOT CALL this.close as part of f, because it will result in a deadlock. DO NOT PUT retries, especially indefinite ones, inside f.

Use this method if closing/shutdown of the object should wait for asynchronous computation to finish too.

Builds a pruning scheduler once storage is available

Triggers a refresh of the component's state, using newState to determine the new state. May return before the newState has been evaluated and the listeners have been poked.

Note that listeners need not be poked about every state change; it suffices that they are poked eventually after each state change. So if there are frequent updates to the state, possibly from concurrent calls, then the listeners may never see some intermediate states.

Registers a high priority listener that gets poked upon each change of this element's health state. This listener will be run before listeners registered via registerOnHealthChange

Registers a listener that gets poked upon each change of this element's health state.

TODO(#16601) Make this method private once PerformUnlessClosing doesn't need it any more

Sets the state of this component and notifies its listeners

Schedules the given task to be run upon closing.

Register a task to run when closing is initiated, or run it immediately if closing is already ongoing. Unlike runOnClose, this method does not guarantee that this task will have run by the time the LifeCycleManager's closeAsync method completes or AutoCloseable's close returns. This is because the task is run immediately if the component has already been closed.

Variant of runOnOrAfterClose that does not return a com.digitalasset.canton.lifecycle.LifeCycleRegistrationHandle.

Runs the computation fa unless isClosing returns true.

This method does not delay the closing while fa is running, unlike the methods in HasSynchronizeWithClosing. Accordingly, this method is useful for intermittent checks whether the result of the computation is still relevant.

Unregisters a listener.