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Shell/P2p: minor renaming.

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This commit is contained in:
Grégoire Henry 2016-11-15 01:52:39 +01:00
parent cbfab86f25
commit 6afcc1ecdd
4 changed files with 110 additions and 163 deletions
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178
src/node/net/p2p.ml
View File

@ -7,6 +7,12 @@
(* *)
(**************************************************************************)
module LU = Lwt_unix
module LC = Lwt_condition
open Lwt
open Lwt_utils
open Logging.Net
(* public types *)
type addr = Ipaddr.t
type port = int
@ -47,104 +53,6 @@ type gid = string
let gid_length = 16
type 'msg msg_encoding = Encoding : {
tag: int ;
encoding: 'a Data_encoding.t ;
wrap: 'a -> 'msg ;
unwrap: 'msg -> 'a option ;
max_length: int option ;
} -> 'msg msg_encoding
module type NET_PARAMS = sig
type meta (** Type of metadata associated to an identity *)
type msg (** Type of message used by higher layers *)
val msg_encodings : msg msg_encoding list
val init_meta : meta
val score_enc : meta Data_encoding.t
val score: meta -> float
(** High level protocol(s) talked by the peer. When two peers
initiate a connection, they exchange their list of supported
versions. The chosen one, if any, is the maximum common one (in
lexicographic order) *)
val supported_versions : version list
end
module type S = sig
include NET_PARAMS
type net
(** A faked p2p layer, which do not initiate any connection
nor open any listening socket. *)
val faked_network : net
(** Main network initialisation function *)
val bootstrap : config:config -> limits:limits -> net Lwt.t
(** A maintenance operation : try and reach the ideal number of peers *)
val maintain : net -> unit Lwt.t
(** Voluntarily drop some peers and replace them by new buddies *)
val roll : net -> unit Lwt.t
(** Close all connections properly *)
val shutdown : net -> unit Lwt.t
(** A connection to a peer *)
type peer
(** Access the domain of active peers *)
val peers : net -> peer list
(** Return the active peer with identity [gid] *)
val find_peer : net -> gid -> peer option
type peer_info = {
gid : gid;
addr : addr;
port : port;
version : version;
}
(** Access the info of an active peer, if available *)
val peer_info : net -> peer -> peer_info
(** Accessors for meta information about a peer *)
val get_meta : net -> gid -> meta option
val set_meta : net -> gid -> meta -> unit
(** Wait for a payload from any peer in the network *)
val recv : net -> (peer * msg) Lwt.t
(** Send a payload to a peer and wait for it to be in the tube *)
val send : net -> peer -> msg -> unit Lwt.t
(** Send a payload to a peer without waiting for the result. Return
[true] if the message can be enqueued in the peer's output queue
or [false] otherwise. *)
val try_send : net -> peer -> msg -> bool
(** Send a payload to all peers *)
val broadcast : net -> msg -> unit
(** Shutdown the connection to all peers at this address and stop the
communications with this machine for [duration] seconds *)
val blacklist : net -> gid -> unit
(** Keep a connection to this pair as often as possible *)
val whitelist : net -> gid -> unit
end
module Make (P: NET_PARAMS) = struct
module LU = Lwt_unix
module LC = Lwt_condition
open Lwt
open Lwt_utils
open Logging.Net
let pp_gid ppf gid =
Format.pp_print_string ppf (Hex_encode.hex_encode gid)
@ -181,6 +89,38 @@ module Make (P: NET_PARAMS) = struct
(req "addr" string)
(req "port" int16))
type 'msg encoding = Encoding : {
tag: int ;
encoding: 'a Data_encoding.t ;
wrap: 'a -> 'msg ;
unwrap: 'msg -> 'a option ;
max_length: int option ;
} -> 'msg encoding
module type PARAMS = sig
(** Type of message used by higher layers *)
type msg
val encodings : msg encoding list
(** Type of metadata associated to an identity *)
type metadata
val initial_metadata : metadata
val metadata_encoding : metadata Data_encoding.t
val score : metadata -> float
(** High level protocol(s) talked by the peer. When two peers
initiate a connection, they exchange their list of supported
versions. The chosen one, if any, is the maximum common one (in
lexicographic order) *)
val supported_versions : version list
end
module Make (P: PARAMS) = struct
(* Low-level network protocol packets (internal). The protocol is
completely symmetrical and asynchronous. First both peers must
present their credentials with a [Connect] packet, then any
@ -236,7 +176,7 @@ module Make (P: NET_PARAMS) = struct
(function Bootstrap -> Some () | _ -> None)
(fun () -> Bootstrap);
] @
ListLabels.map P.msg_encodings ~f:begin function Encoding { tag; encoding; wrap; unwrap } ->
ListLabels.map P.encodings ~f:begin function Encoding { tag; encoding; wrap; unwrap } ->
case ~tag encoding
(function Message msg -> unwrap msg | _ -> None)
(fun msg -> Message (wrap msg))
@ -250,7 +190,7 @@ module Make (P: NET_PARAMS) = struct
| 3 -> Some 0
| 4 -> Some (1 + 1000 * 17) (* tag + 1000 * max (point size) *)
| 5 -> Some 0
| n -> ListLabels.fold_left P.msg_encodings ~init:None ~f:begin fun a -> function
| n -> ListLabels.fold_left P.encodings ~init:None ~f:begin fun a -> function
Encoding { tag; max_length } -> if tag = n then max_length else a
end
@ -359,8 +299,8 @@ module Make (P: NET_PARAMS) = struct
peers : unit -> peer list ;
find_peer : gid -> peer option ;
peer_info : peer -> peer_info ;
set_meta : gid -> P.meta -> unit ;
get_meta : gid -> P.meta option ;
set_metadata : gid -> P.metadata -> unit ;
get_metadata : gid -> P.metadata option ;
}
(* The (internal) type of network events, those dispatched from peer
@ -639,7 +579,7 @@ module Make (P: NET_PARAMS) = struct
unreachable_since : float option;
connections : (int * float) option ;
white_listed : bool ;
meta : P.meta ;
meta : P.metadata ;
}
(* Ad hoc comparison on sources such as good source < bad source *)
@ -789,7 +729,7 @@ module Make (P: NET_PARAMS) = struct
let source = { unreachable_since = None ;
connections = None ;
white_listed = true ;
meta = P.init_meta ;
meta = P.initial_metadata ;
}
in
List.fold_left
@ -821,14 +761,14 @@ module Make (P: NET_PARAMS) = struct
{ unreachable_since = None ;
connections = None ;
white_listed = true ;
meta = P.init_meta ; } in
meta = P.initial_metadata ; } in
PeerMap.update (addr, port) source r
| Some (c, t, gid) ->
let source =
{ unreachable_since = None ;
connections = Some (c, t) ;
white_listed = PointSet.mem (addr, port) white_list ;
meta = P.init_meta ; } in
meta = P.initial_metadata ; } in
PeerMap.update (addr, port) ~gid source r)
PeerMap.empty k in
let black_list =
@ -1066,17 +1006,17 @@ module Make (P: NET_PARAMS) = struct
{ connections = Some (1, Unix.gettimeofday ()) ;
unreachable_since = None ;
white_listed ;
meta = P.init_meta }
meta = P.initial_metadata }
| { connections = Some (n, _) ; white_listed } ->
{ connections = Some (n + 1, Unix.gettimeofday ()) ;
unreachable_since = None ;
white_listed ;
meta = P.init_meta }
meta = P.initial_metadata }
with Not_found ->
{ connections = Some (1, Unix.gettimeofday ()) ;
unreachable_since = None ;
white_listed = white_listed point ;
meta = P.init_meta }
meta = P.initial_metadata }
in
(* if it's me, it's probably not me *)
if my_gid = peer.gid then begin
@ -1136,7 +1076,7 @@ module Make (P: NET_PARAMS) = struct
{ unreachable_since = None ;
connections = None ;
white_listed = false ;
meta = P.init_meta } in
meta = P.initial_metadata } in
known_peers := PeerMap.update point source !known_peers ;
LC.broadcast new_contact point)
peers ;
@ -1276,7 +1216,7 @@ module Make (P: NET_PARAMS) = struct
{ unreachable_since = None ;
connections = None ;
white_listed = true ;
meta = P.init_meta },
meta = P.initial_metadata },
None in
known_peers := PeerMap.update point ?gid source !known_peers
and whitelist peer =
@ -1292,11 +1232,11 @@ module Make (P: NET_PARAMS) = struct
LC.broadcast please_maintain () ;
waiter
and roll () = Pervasives.failwith "roll"
and get_meta _gid = None (* TODO: implement *)
and set_meta _gid _meta = () (* TODO: implement *)
and get_metadata _gid = None (* TODO: implement *)
and set_metadata _gid _meta = () (* TODO: implement *)
in
let net = { shutdown ; peers ; find_peer ; recv_from ; send_to ; try_send ; broadcast ;
blacklist ; whitelist ; maintain ; roll ; peer_info ; get_meta ; set_meta } in
blacklist ; whitelist ; maintain ; roll ; peer_info ; get_metadata ; set_metadata } in
(* main thread, returns after first successful maintenance *)
maintain () >>= fun () ->
debug "(%a) network succesfully bootstrapped" pp_gid my_gid ;
@ -1318,10 +1258,10 @@ module Make (P: NET_PARAMS) = struct
let maintain () = Lwt.return_unit in
let roll () = Lwt.return_unit in
let peer_info _ = assert false in
let get_meta _ = None in
let set_meta _ _ = () in
let get_metadata _ = None in
let set_metadata _ _ = () in
{ shutdown ; peers ; find_peer ; recv_from ; send_to ; try_send ; broadcast ;
blacklist ; whitelist ; maintain ; roll ; peer_info ; get_meta ; set_meta }
blacklist ; whitelist ; maintain ; roll ; peer_info ; get_metadata ; set_metadata }
(* Plug toplevel functions to callback calls. *)
@ -1337,7 +1277,7 @@ module Make (P: NET_PARAMS) = struct
let roll net = net.roll ()
let blacklist _net _gid = ()
let whitelist _net _gid = ()
let get_meta net gid = net.get_meta gid
let set_meta net gid meta = net.set_meta gid meta
let get_metadata net gid = net.get_metadata gid
let set_metadata net gid meta = net.set_metadata gid meta
end

35
src/node/net/p2p.mli
View File

@ -56,36 +56,42 @@ type limits = {
(** A global identifier for a peer, a.k.a. an identity *)
type gid
type 'msg msg_encoding = Encoding : {
type 'msg encoding = Encoding : {
tag: int ;
encoding: 'a Data_encoding.t ;
wrap: 'a -> 'msg ;
unwrap: 'msg -> 'a option ;
max_length: int option ;
} -> 'msg msg_encoding
} -> 'msg encoding
module type NET_PARAMS = sig
type meta (** Type of metadata associated to an identity *)
type msg (** Type of message used by higher layers *)
module type PARAMS = sig
val msg_encodings : msg msg_encoding list
(** Type of message used by higher layers *)
type msg
val init_meta : meta
val score_enc : meta Data_encoding.t
val score: meta -> float
val encodings : msg encoding list
(** Type of metadata associated to an identity *)
type metadata
val initial_metadata : metadata
val metadata_encoding : metadata Data_encoding.t
val score : metadata -> float
(** High level protocol(s) talked by the peer. When two peers
initiate a connection, they exchange their list of supported
versions. The chosen one, if any, is the maximum common one (in
lexicographic order) *)
val supported_versions : version list
end
module Make (P : NET_PARAMS) : sig
module Make (P : PARAMS) : sig
type net
(** A faked p2p layer, which do not initiate any connection
nor open any listening socket. *)
nor open any listening socket *)
val faked_network : net
(** Main network initialisation function *)
@ -119,9 +125,9 @@ module Make (P : NET_PARAMS) : sig
(** Access the info of an active peer, if available *)
val peer_info : net -> peer -> peer_info
(** Accessors for meta information about a peer *)
val get_meta : net -> gid -> P.meta option
val set_meta : net -> gid -> P.meta -> unit
(** Accessors for meta information about a global identifier *)
val get_metadata : net -> gid -> P.metadata option
val set_metadata : net -> gid -> P.metadata -> unit
(** Wait for a payload from any peer in the network *)
val recv : net -> (peer * P.msg) Lwt.t
@ -143,4 +149,5 @@ module Make (P : NET_PARAMS) : sig
(** Keep a connection to this pair as often as possible *)
val whitelist : net -> gid -> unit
end

8
src/node/shell/tezos_p2p.ml
View File

@ -20,7 +20,7 @@ module Param = struct
| Get_protocols of Protocol_hash.t list
| Protocol of MBytes.t
let msg_encodings =
let encodings =
let open Data_encoding in
let case ?max_length ~tag encoding unwrap wrap =
P2p.Encoding { tag; encoding; wrap; unwrap; max_length } in
@ -71,9 +71,9 @@ module Param = struct
(fun proto -> Protocol proto);
]
type meta = unit
let init_meta = ()
let score_enc = Data_encoding.empty
type metadata = unit
let initial_metadata = ()
let metadata_encoding = Data_encoding.empty
let score () = 0.
let supported_versions =

6
src/node/shell/tezos_p2p.mli
View File

@ -40,10 +40,10 @@ val peer_info : net -> peer -> peer_info
(** Accessors for meta information about a global identifier *)
type meta = unit
type metadata = unit
val get_meta : net -> gid -> meta option
val set_meta : net -> gid -> meta -> unit
val get_metadata : net -> gid -> metadata option
val set_metadata : net -> gid -> metadata -> unit
type net_id = Store.net_id