(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) (** A peer connection address *) type addr = Ipaddr.V6.t (** A peer connection port *) type port = int (** A p2p protocol version *) module Version = P2p_types.Version (** A global identifier for a peer, a.k.a. an identity *) module Peer_id = P2p_types.Peer_id module Identity = P2p_types.Identity module Point = P2p_types.Point module Id_point = P2p_types.Id_point module Connection_info = P2p_types.Connection_info module Stat = P2p_types.Stat type 'meta meta_config = { encoding : 'meta Data_encoding.t; initial : 'meta; score : 'meta -> float } type 'msg app_message_encoding = Encoding : { tag: int ; encoding: 'a Data_encoding.t ; wrap: 'a -> 'msg ; unwrap: 'msg -> 'a option ; max_length: int option ; } -> 'msg app_message_encoding type 'msg message_config = { encoding : 'msg app_message_encoding list ; versions : Version.t list; } (** Network configuration *) type config = { listening_port : port option; (** Tells if incoming connections accepted, precising the TCP port on which the peer can be reached *) listening_addr : addr option; (** When incoming connections are accepted, precising on which IP adddress the node listen (default: [[::]]). *) trusted_points : Point.t list ; (** List of hard-coded known peers to bootstrap the network from. *) peers_file : string ; (** The path to the JSON file where the metadata associated to peer_ids are loaded / stored. *) closed_network : bool ; (** If [true], the only accepted connections are from peers whose addresses are in [trusted_peers]. *) identity : Identity.t ; (** Cryptographic identity of the peer. *) proof_of_work_target : Crypto_box.target ; (** Expected level of proof of work of peers' identity. *) } (** Network capacities *) type limits = { authentification_timeout : float ; (** Delay granted to a peer to perform authentication, in seconds. *) min_connections : int ; (** Strict minimum number of connections (triggers an urgent maintenance) *) expected_connections : int ; (** Targeted number of connections to reach when bootstraping / maintaining *) max_connections : int ; (** Maximum number of connections (exceeding peers are disconnected) *) backlog : int ; (** Argument of [Lwt_unix.accept].*) max_incoming_connections : int ; (** Maximum not-yet-authenticated incoming connections. *) max_download_speed : int option ; (** Hard-limit in the number of bytes received per second. *) max_upload_speed : int option ; (** Hard-limit in the number of bytes sent per second. *) read_buffer_size : int ; (** Size in bytes of the buffer passed to [Lwt_unix.read]. *) read_queue_size : int option ; write_queue_size : int option ; incoming_app_message_queue_size : int option ; incoming_message_queue_size : int option ; outgoing_message_queue_size : int option ; (** Various bounds for internal queues. *) known_peer_ids_history_size : int ; known_points_history_size : int ; (** Size of circular log buffers, in number of events recorded. *) max_known_peer_ids : (int * int) option ; max_known_points : (int * int) option ; (** Optional limitation of internal hashtables (max, target) *) } type ('msg, 'meta) t type ('msg, 'meta) net = ('msg, 'meta) t (** A faked p2p layer, which do not initiate any connection nor open any listening socket *) val faked_network : ('msg, 'meta) net (** Main network initialisation function *) val create : config:config -> limits:limits -> 'meta meta_config -> 'msg message_config -> ('msg, 'meta) net Lwt.t (** Return one's peer_id *) val peer_id : ('msg, 'meta) net -> Peer_id.t (** A maintenance operation : try and reach the ideal number of peers *) val maintain : ('msg, 'meta) net -> unit Lwt.t (** Voluntarily drop some peers and replace them by new buddies *) val roll : ('msg, 'meta) net -> unit Lwt.t (** Close all connections properly *) val shutdown : ('msg, 'meta) net -> unit Lwt.t (** A connection to a peer *) type ('msg, 'meta) connection (** Access the domain of active peers *) val connections : ('msg, 'meta) net -> ('msg, 'meta) connection list (** Return the active peer with identity [peer_id] *) val find_connection : ('msg, 'meta) net -> Peer_id.t -> ('msg, 'meta) connection option (** Access the info of an active peer, if available *) val connection_info : ('msg, 'meta) net -> ('msg, 'meta) connection -> Connection_info.t val connection_stat : ('msg, 'meta) net -> ('msg, 'meta) connection -> Stat.t val global_stat : ('msg, 'meta) net -> Stat.t (** Accessors for meta information about a global identifier *) val get_metadata : ('msg, 'meta) net -> Peer_id.t -> 'meta option val set_metadata : ('msg, 'meta) net -> Peer_id.t -> 'meta -> unit (** Wait for a message from a given connection. *) val recv : ('msg, 'meta) net -> ('msg, 'meta) connection -> 'msg tzresult Lwt.t (** Wait for a message from any active connections. *) val recv_any : ('msg, 'meta) net -> (('msg, 'meta) connection * 'msg) Lwt.t (** [send net peer msg] is a thread that returns when [msg] has been successfully enqueued in the send queue. *) val send : ('msg, 'meta) net -> ('msg, 'meta) connection -> 'msg -> unit Lwt.t (** [try_send net peer msg] is [true] if [msg] has been added to the send queue for [peer], [false] otherwise *) val try_send : ('msg, 'meta) net -> ('msg, 'meta) connection -> 'msg -> bool (** Send a message to all peers *) val broadcast : ('msg, 'meta) net -> 'msg -> unit module RPC : sig val stat : ('msg, 'meta) net -> Stat.t module Event = P2p_connection_pool.LogEvent val watch : ('msg, 'meta) net -> Event.t Lwt_stream.t * Watcher.stopper val connect : ('msg, 'meta) net -> Point.t -> float -> unit tzresult Lwt.t module Connection : sig val info : ('msg, 'meta) net -> Peer_id.t -> Connection_info.t option val kick : ('msg, 'meta) net -> Peer_id.t -> bool -> unit Lwt.t val list : ('msg, 'meta) net -> Connection_info.t list val count : ('msg, 'meta) net -> int end module Point : sig type state = | Requested | Accepted | Running | Disconnected val state_encoding : state Data_encoding.t type info = { trusted : bool ; greylisted_until : Time.t ; state : state ; peer_id : Peer_id.t option ; last_failed_connection : Time.t option ; last_rejected_connection : (Peer_id.t * Time.t) option ; last_established_connection : (Peer_id.t * Time.t) option ; last_disconnection : (Peer_id.t * Time.t) option ; last_seen : (Peer_id.t * Time.t) option ; last_miss : Time.t option ; } val info_encoding : info Data_encoding.t module Event = P2p_connection_pool_types.Point_info.Event val info : ('msg, 'meta) net -> Point.t -> info option val infos : ?restrict:state list -> ('msg, 'meta) net -> (Point.t * info) list val events : ?max:int -> ?rev:bool -> ('msg, 'meta) net -> Point.t -> Event.t list val watch : ('msg, 'meta) net -> Point.t -> Event.t Lwt_stream.t * Watcher.stopper end module Peer_id : sig type state = | Accepted | Running | Disconnected val state_encoding : state Data_encoding.t type info = { score : float ; trusted : bool ; state : state ; id_point : Id_point.t option ; stat : Stat.t ; last_failed_connection : (Id_point.t * Time.t) option ; last_rejected_connection : (Id_point.t * Time.t) option ; last_established_connection : (Id_point.t * Time.t) option ; last_disconnection : (Id_point.t * Time.t) option ; last_seen : (Id_point.t * Time.t) option ; last_miss : (Id_point.t * Time.t) option ; } val info_encoding : info Data_encoding.t module Event = P2p_connection_pool_types.Peer_info.Event val info : ('msg, 'meta) net -> Peer_id.t -> info option val infos : ?restrict:state list -> ('msg, 'meta) net -> (Peer_id.t * info) list val events : ?max:int -> ?rev:bool -> ('msg, 'meta) net -> Peer_id.t -> Event.t list val watch : ('msg, 'meta) net -> Peer_id.t -> Event.t Lwt_stream.t * Watcher.stopper end end (**/**) module Raw : sig type 'a t = | Bootstrap | Advertise of P2p_types.Point.t list | Message of 'a | Disconnect val encoding: 'msg app_message_encoding list -> 'msg t Data_encoding.t end