(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) open State type t = private Block_hash.t list (** A type for sparse block locator (/à la/ Bitcoin) *) val encoding: t Data_encoding.t type error += Invalid_locator of P2p.Peer_id.t * t val compute: Block.t -> int -> t Lwt.t (** [compute block max_length] compute the sparse block locator for the [block]. The locator contains at most [max_length] elements. *) val fold: f:('a -> block:Block_hash.t -> pred:Block_hash.t -> step:int -> strict_step:bool -> 'a) -> 'a -> t -> 'a (** [map f l] applies [f] to each block of the locator, the last one excepted. The function also receives the expected predecessor [pred] of the [block] after [step] steps, i.e. the next block in the locator. When [strict_step] is [true], then [step] is the exact number of predecessor to be followed before to found [pred]. Otherwise, it is only an upper bound. *) type step = { block: Block_hash.t ; predecessor: Block_hash.t ; step: int ; strict_step: bool ; } val to_steps: t -> step list val estimated_length: t -> int (** [estimated_length locator] estimate the length of the chain represented by [locator]. *) val known_ancestor: State.Net.t -> t -> (Block.t * t) option Lwt.t (** [known_ancestor net_state locator] computes the first block of [locator] that is known to be a valid block. It also computes the 'prefix' of [locator] with end at the first valid block. The function returns [None] when no block in the locator are known or if the first known block is invalid. *) val find_new: State.Net.t -> t -> int -> Block_hash.t list Lwt.t (** [find_new net locator max_length] returns the blocks from our current branch that would be unknown to a peer that sends us the [locator]. *)