(**************************************************************************) (* *) (* Copyright (c) 2014 - 2017. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) type t type config = { genesis: State.Net.genesis ; store_root: string ; context_root: string ; patch_context: (Context.t -> Context.t Lwt.t) option ; p2p: (P2p.config * P2p.limits) option ; test_network_max_tll: int option ; bootstrap_threshold: int ; } and timeout = { operation: float ; block_header: float ; block_operations: float ; protocol: float ; new_head_request: float ; } val create: config -> timeout -> t tzresult Lwt.t module RPC : sig type block = Node_rpc_services.Blocks.block type block_info = Node_rpc_services.Blocks.block_info val inject_block: t -> ?force:bool -> MBytes.t -> Operation.t list list -> (Block_hash.t * unit tzresult Lwt.t) tzresult Lwt.t (** [inject_block node ?force bytes] tries to insert [bytes] (supposedly the serialization of a block header) inside [node]. If [?force] is true, the block will be inserted even on non strictly increasing fitness. *) val inject_operation: t -> ?force:bool -> MBytes.t -> (Operation_hash.t * unit tzresult Lwt.t) Lwt.t val inject_protocol: t -> ?force:bool -> Protocol.t -> (Protocol_hash.t * unit tzresult Lwt.t) Lwt.t val raw_block_info: t -> Block_hash.t -> block_info Lwt.t val block_header_watcher: t -> (Block_hash.t * Block_header.t) Lwt_stream.t * Watcher.stopper val block_watcher: t -> (block_info Lwt_stream.t * Watcher.stopper) val heads: t -> block_info Block_hash.Map.t Lwt.t val predecessors: t -> int -> Block_hash.t -> Block_hash.t list Lwt.t val list: t -> int -> Block_hash.t list -> block_info list list Lwt.t val block_info: t -> block -> block_info Lwt.t val operation_hashes: t -> block -> Operation_hash.t list list Lwt.t val operations: t -> block -> Operation.t list list Lwt.t val operation_watcher: t -> (Operation_hash.t * Operation.t) Lwt_stream.t * Watcher.stopper val pending_operations: t -> block -> (error Prevalidation.preapply_result * Operation.t Operation_hash.Map.t) Lwt.t val protocols: t -> Protocol_hash.t list Lwt.t val protocol_content: t -> Protocol_hash.t -> Protocol.t tzresult Lwt.t val protocol_watcher: t -> (Protocol_hash.t * Protocol.t) Lwt_stream.t * Watcher.stopper val context_dir: t -> block -> 'a RPC.directory option Lwt.t val preapply: t -> block -> timestamp:Time.t -> proto_header:MBytes.t -> sort_operations:bool -> Operation.t list -> (Block_header.shell_header * error Prevalidation.preapply_result) tzresult Lwt.t val context_dir: t -> block -> 'a RPC.directory option Lwt.t val complete: t -> ?block:block -> string -> string list Lwt.t val bootstrapped: t -> (Block_hash.t * Time.t) RPC.Answer.stream module Network : sig val stat : t -> P2p.Stat.t val watch : t -> P2p.RPC.Event.t Lwt_stream.t * Watcher.stopper val connect : t -> P2p.Point.t -> float -> unit tzresult Lwt.t module Connection : sig val info : t -> P2p.Peer_id.t -> P2p.Connection_info.t option val kick : t -> P2p.Peer_id.t -> bool -> unit Lwt.t val list : t -> P2p.Connection_info.t list val count : t -> int end module Peer_id : sig val list : t -> P2p.RPC.Peer_id.state list -> (P2p.Peer_id.t * P2p.RPC.Peer_id.info) list val info : t -> P2p.Peer_id.t -> P2p.RPC.Peer_id.info option val events : t -> P2p.Peer_id.t -> P2p.RPC.Peer_id.Event.t list val watch : t -> P2p.Peer_id.t -> P2p.RPC.Peer_id.Event.t Lwt_stream.t * Watcher.stopper end module Point : sig val list : t -> P2p.RPC.Point.state list -> (P2p.Point.t * P2p.RPC.Point.info) list val info : t -> P2p.Point.t -> P2p.RPC.Point.info option val events : t -> P2p.Point.t -> P2p.RPC.Point.Event.t list val watch : t -> P2p.Point.t -> P2p.RPC.Point.Event.t Lwt_stream.t * Watcher.stopper end end end val shutdown: t -> unit Lwt.t