ligo/src/node/net/p2p.ml

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2016-09-08 21:13:10 +04:00
(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2016. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
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include P2p_types
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include Logging.Make(struct let name = "p2p" end)
type 'meta meta_config = 'meta P2p_connection_pool.meta_config = {
encoding : 'meta Data_encoding.t;
initial : 'meta;
score : 'meta -> float
}
type 'msg app_message_encoding = 'msg P2p_connection_pool.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 = 'msg P2p_connection_pool.message_config = {
encoding : 'msg app_message_encoding list ;
versions : Version.t list;
}
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type config = {
listening_port : port option;
listening_addr : addr option;
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trusted_points : Point.t list ;
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peers_file : string ;
closed_network : bool ;
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identity : Identity.t ;
proof_of_work_target : Crypto_box.target ;
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}
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type limits = {
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authentification_timeout : float ;
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min_connections : int ;
expected_connections : int ;
max_connections : int ;
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backlog : int ;
max_incoming_connections : int ;
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max_download_speed : int option ;
max_upload_speed : int option ;
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read_buffer_size : int ;
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 ;
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known_peer_ids_history_size : int ;
known_points_history_size : int ;
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max_known_peer_ids : (int * int) option ;
max_known_points : (int * int) option ;
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swap_linger : float ;
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binary_chunks_size : int option ;
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}
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let create_scheduler limits =
let max_upload_speed =
map_option limits.max_upload_speed ~f:(( * ) 1024) in
let max_download_speed =
map_option limits.max_upload_speed ~f:(( * ) 1024) in
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P2p_io_scheduler.create
~read_buffer_size:limits.read_buffer_size
?max_upload_speed
?max_download_speed
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?read_queue_size:limits.read_queue_size
?write_queue_size:limits.write_queue_size
()
let create_connection_pool config limits meta_cfg msg_cfg io_sched =
let pool_cfg = {
P2p_connection_pool.identity = config.identity ;
proof_of_work_target = config.proof_of_work_target ;
listening_port = config.listening_port ;
trusted_points = config.trusted_points ;
peers_file = config.peers_file ;
closed_network = config.closed_network ;
min_connections = limits.min_connections ;
max_connections = limits.max_connections ;
max_incoming_connections = limits.max_incoming_connections ;
authentification_timeout = limits.authentification_timeout ;
incoming_app_message_queue_size = limits.incoming_app_message_queue_size ;
incoming_message_queue_size = limits.incoming_message_queue_size ;
outgoing_message_queue_size = limits.outgoing_message_queue_size ;
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known_peer_ids_history_size = limits.known_peer_ids_history_size ;
known_points_history_size = limits.known_points_history_size ;
max_known_points = limits.max_known_points ;
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max_known_peer_ids = limits.max_known_peer_ids ;
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swap_linger = limits.swap_linger ;
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binary_chunks_size = limits.binary_chunks_size ;
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}
in
let pool =
P2p_connection_pool.create pool_cfg meta_cfg msg_cfg io_sched in
pool
let bounds ~min ~expected ~max =
assert (min <= expected) ;
assert (expected <= max) ;
let step_min =
(expected - min) / 3
and step_max =
(max - expected) / 3 in
{ P2p_maintenance.min_threshold = min + step_min ;
min_target = min + 2 * step_min ;
max_target = max - 2 * step_max ;
max_threshold = max - step_max ;
}
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let may_create_discovery_worker _config pool =
Some (P2p_discovery.create pool)
let create_maintenance_worker limits pool disco =
let bounds =
bounds
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~min:limits.min_connections
~expected:limits.expected_connections
~max:limits.max_connections
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in
P2p_maintenance.run
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~connection_timeout:limits.authentification_timeout
bounds pool disco
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let may_create_welcome_worker config limits pool =
match config.listening_port with
| None -> Lwt.return None
| Some port ->
P2p_welcome.run
~backlog:limits.backlog pool
?addr:config.listening_addr
port >>= fun w ->
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Lwt.return (Some w)
type ('msg, 'meta) connection = ('msg, 'meta) P2p_connection_pool.connection
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module Real = struct
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type ('msg, 'meta) net = {
config: config ;
limits: limits ;
io_sched: P2p_io_scheduler.t ;
pool: ('msg, 'meta) P2p_connection_pool.t ;
discoverer: P2p_discovery.t option ;
maintenance: 'meta P2p_maintenance.t ;
welcome: P2p_welcome.t option ;
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}
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let create ~config ~limits meta_cfg msg_cfg =
let io_sched = create_scheduler limits in
create_connection_pool
config limits meta_cfg msg_cfg io_sched >>= fun pool ->
let discoverer = may_create_discovery_worker config pool in
let maintenance = create_maintenance_worker limits pool discoverer in
may_create_welcome_worker config limits pool >>= fun welcome ->
return {
config ;
limits ;
io_sched ;
pool ;
discoverer ;
maintenance ;
welcome ;
}
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let peer_id { config } = config.identity.peer_id
let maintain { maintenance } () =
P2p_maintenance.maintain maintenance
let roll _net () = Lwt.return_unit (* TODO implement *)
(* returns when all workers have shutted down in the opposite
creation order. *)
let shutdown net () =
Lwt_utils.may ~f:P2p_welcome.shutdown net.welcome >>= fun () ->
P2p_maintenance.shutdown net.maintenance >>= fun () ->
Lwt_utils.may ~f:P2p_discovery.shutdown net.discoverer >>= fun () ->
P2p_connection_pool.destroy net.pool >>= fun () ->
P2p_io_scheduler.shutdown ~timeout:3.0 net.io_sched
let connections { pool } () =
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P2p_connection_pool.Connection.fold pool
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~init:[] ~f:(fun _peer_id c acc -> c :: acc)
let find_connection { pool } peer_id =
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P2p_connection_pool.Connection.find_by_peer_id pool peer_id
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let disconnect ?wait conn =
P2p_connection_pool.disconnect ?wait conn
let connection_info _net conn =
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P2p_connection_pool.Connection.info conn
let connection_stat _net conn =
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P2p_connection_pool.Connection.stat conn
let global_stat { pool } () =
P2p_connection_pool.pool_stat pool
let set_metadata { pool } conn meta =
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P2p_connection_pool.Peer_ids.set_metadata pool conn meta
let get_metadata { pool } conn =
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P2p_connection_pool.Peer_ids.get_metadata pool conn
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let recv _net conn =
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P2p_connection_pool.read conn >>=? fun msg ->
lwt_debug "message read from %a"
Connection_info.pp
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(P2p_connection_pool.Connection.info conn) >>= fun () ->
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return msg
let rec recv_any net () =
let pipes =
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P2p_connection_pool.Connection.fold
net.pool ~init:[]
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~f:begin fun _peer_id conn acc ->
(P2p_connection_pool.is_readable conn >>= function
| Ok () -> Lwt.return (Some conn)
| Error _ -> Lwt_utils.never_ending) :: acc
end in
Lwt.pick (
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( P2p_connection_pool.Pool_event.wait_new_connection net.pool >>= fun () ->
Lwt.return_none )::
pipes) >>= function
| None -> recv_any net ()
| Some conn ->
P2p_connection_pool.read conn >>= function
| Ok msg ->
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lwt_debug "message read from %a"
Connection_info.pp
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(P2p_connection_pool.Connection.info conn) >>= fun () ->
Lwt.return (conn, msg)
| Error _ ->
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lwt_debug "error reading message from %a"
Connection_info.pp
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(P2p_connection_pool.Connection.info conn) >>= fun () ->
Lwt_unix.yield () >>= fun () ->
recv_any net ()
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let send _net conn m =
P2p_connection_pool.write conn m >>= function
| Ok () ->
lwt_debug "message sent to %a"
Connection_info.pp
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(P2p_connection_pool.Connection.info conn) >>= fun () ->
return ()
| Error err ->
lwt_debug "error sending message from %a: %a"
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Connection_info.pp
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(P2p_connection_pool.Connection.info conn)
pp_print_error err >>= fun () ->
Lwt.return (Error err)
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let try_send _net conn v =
match P2p_connection_pool.write_now conn v with
| Ok v ->
debug "message trysent to %a"
Connection_info.pp
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(P2p_connection_pool.Connection.info conn) ;
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v
| Error err ->
debug "error trysending message to %a@ %a"
Connection_info.pp
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(P2p_connection_pool.Connection.info conn)
pp_print_error err ;
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false
let broadcast { pool } msg =
P2p_connection_pool.write_all pool msg ;
debug "message broadcasted"
let fold_connections { pool } ~init ~f =
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P2p_connection_pool.Connection.fold pool ~init ~f
let iter_connections { pool } f =
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P2p_connection_pool.Connection.fold pool
~init:()
~f:(fun gid conn () -> f gid conn)
let on_new_connection { pool } f =
P2p_connection_pool.on_new_connection pool f
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let pool { pool } = pool
end
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module Fake = struct
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let id = Identity.generate (Crypto_box.make_target 0.)
let empty_stat = {
Stat.total_sent = 0L ;
total_recv = 0L ;
current_inflow = 0 ;
current_outflow = 0 ;
}
let connection_info = {
Connection_info.incoming = false ;
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peer_id = id.peer_id ;
id_point = (Ipaddr.V6.unspecified, None) ;
remote_socket_port = 0 ;
versions = [] ;
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}
end
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type ('msg, 'meta) t = {
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peer_id : Peer_id.t ;
maintain : unit -> unit Lwt.t ;
roll : unit -> unit Lwt.t ;
shutdown : unit -> unit Lwt.t ;
connections : unit -> ('msg, 'meta) connection list ;
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find_connection : Peer_id.t -> ('msg, 'meta) connection option ;
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disconnect : ?wait:bool -> ('msg, 'meta) connection -> unit Lwt.t ;
connection_info : ('msg, 'meta) connection -> Connection_info.t ;
connection_stat : ('msg, 'meta) connection -> Stat.t ;
global_stat : unit -> Stat.t ;
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get_metadata : Peer_id.t -> 'meta ;
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set_metadata : Peer_id.t -> 'meta -> unit ;
recv : ('msg, 'meta) connection -> 'msg tzresult Lwt.t ;
recv_any : unit -> (('msg, 'meta) connection * 'msg) Lwt.t ;
send : ('msg, 'meta) connection -> 'msg -> unit tzresult Lwt.t ;
try_send : ('msg, 'meta) connection -> 'msg -> bool ;
broadcast : 'msg -> unit ;
pool : ('msg, 'meta) P2p_connection_pool.t option ;
fold_connections :
'a. init:'a -> f:(Peer_id.t -> ('msg, 'meta) connection -> 'a -> 'a) -> 'a ;
iter_connections : (Peer_id.t -> ('msg, 'meta) connection -> unit) -> unit ;
on_new_connection : (Peer_id.t -> ('msg, 'meta) connection -> unit) -> unit ;
}
type ('msg, 'meta) net = ('msg, 'meta) t
let check_limits =
let fail_1 v orig =
if not (v <= 0.) then return ()
else
Error_monad.failwith "value of option %S cannot be negative or null@."
orig
in
let fail_2 v orig =
if not (v < 0) then return ()
else
Error_monad.failwith "value of option %S cannot be negative@." orig
in
fun c ->
fail_1 c.authentification_timeout
"authentification-timeout" >>=? fun () ->
fail_2 c.min_connections
"min-connections" >>=? fun () ->
fail_2 c.expected_connections
"expected-connections" >>=? fun () ->
fail_2 c.max_connections
"max-connections" >>=? fun () ->
fail_2 c.max_incoming_connections
"max-incoming-connections" >>=? fun () ->
fail_2 c.read_buffer_size
"read-buffer-size" >>=? fun () ->
fail_2 c.known_peer_ids_history_size
"known-peer-ids-history-size" >>=? fun () ->
fail_2 c.known_points_history_size
"known-points-history-size" >>=? fun () ->
fail_1 c.swap_linger
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"swap-linger" >>=? fun () ->
begin
match c.binary_chunks_size with
| None -> return ()
| Some size -> P2p_connection.check_binary_chunks_size size
end >>=? fun () ->
return ()
let create ~config ~limits meta_cfg msg_cfg =
check_limits limits >>=? fun () ->
Real.create ~config ~limits meta_cfg msg_cfg >>=? fun net ->
return {
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peer_id = Real.peer_id net ;
maintain = Real.maintain net ;
roll = Real.roll net ;
shutdown = Real.shutdown net ;
connections = Real.connections net ;
find_connection = Real.find_connection net ;
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disconnect = Real.disconnect ;
connection_info = Real.connection_info net ;
connection_stat = Real.connection_stat net ;
global_stat = Real.global_stat net ;
get_metadata = Real.get_metadata net ;
set_metadata = Real.set_metadata net ;
recv = Real.recv net ;
recv_any = Real.recv_any net ;
send = Real.send net ;
try_send = Real.try_send net ;
broadcast = Real.broadcast net ;
pool = Some net.pool ;
fold_connections = (fun ~init ~f -> Real.fold_connections net ~init ~f) ;
iter_connections = Real.iter_connections net ;
on_new_connection = Real.on_new_connection net ;
}
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let faked_network meta_config = {
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peer_id = Fake.id.peer_id ;
maintain = Lwt.return ;
roll = Lwt.return ;
shutdown = Lwt.return ;
connections = (fun () -> []) ;
find_connection = (fun _ -> None) ;
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disconnect = (fun ?wait:_ _ -> Lwt.return_unit) ;
connection_info = (fun _ -> Fake.connection_info) ;
connection_stat = (fun _ -> Fake.empty_stat) ;
global_stat = (fun () -> Fake.empty_stat) ;
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get_metadata = (fun _ -> meta_config.initial) ;
set_metadata = (fun _ _ -> ()) ;
recv = (fun _ -> Lwt_utils.never_ending) ;
recv_any = (fun () -> Lwt_utils.never_ending) ;
send = (fun _ _ -> fail P2p_connection_pool.Connection_closed) ;
try_send = (fun _ _ -> false) ;
fold_connections = (fun ~init ~f:_ -> init) ;
iter_connections = (fun _f -> ()) ;
on_new_connection = (fun _f -> ()) ;
broadcast = ignore ;
pool = None
}
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let peer_id net = net.peer_id
let maintain net = net.maintain ()
let roll net = net.roll ()
let shutdown net = net.shutdown ()
let connections net = net.connections ()
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let disconnect net = net.disconnect
let find_connection net = net.find_connection
let connection_info net = net.connection_info
let connection_stat net = net.connection_stat
let global_stat net = net.global_stat ()
let get_metadata net = net.get_metadata
let set_metadata net = net.set_metadata
let recv net = net.recv
let recv_any net = net.recv_any ()
let send net = net.send
let try_send net = net.try_send
let broadcast net = net.broadcast
let fold_connections net = net.fold_connections
let iter_connections net = net.iter_connections
let on_new_connection net = net.on_new_connection
module Raw = struct
type 'a t = 'a P2p_connection_pool.Message.t =
| Bootstrap
| Advertise of P2p_types.Point.t list
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| Swap_request of Point.t * Peer_id.t
| Swap_ack of Point.t * Peer_id.t
| Message of 'a
| Disconnect
let encoding = P2p_connection_pool.Message.encoding
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end
module RPC = struct
let stat net =
match net.pool with
| None -> Stat.empty
| Some pool -> P2p_connection_pool.pool_stat pool
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module Event = P2p_connection_pool.Log_event
let watch net =
match net.pool with
| None -> Watcher.create_fake_stream ()
| Some pool -> P2p_connection_pool.watch pool
let connect net point timeout =
match net.pool with
| None -> failwith "fake net"
| Some pool ->
P2p_connection_pool.connect ~timeout pool point >>|? ignore
module Connection = struct
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let info net peer_id =
match net.pool with
| None -> None
| Some pool ->
map_option
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(P2p_connection_pool.Connection.find_by_peer_id pool peer_id)
~f:P2p_connection_pool.Connection.info
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let kick net peer_id wait =
match net.pool with
| None -> Lwt.return_unit
| Some pool ->
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match P2p_connection_pool.Connection.find_by_peer_id pool peer_id with
| None -> Lwt.return_unit
| Some conn -> P2p_connection_pool.disconnect ~wait conn
let list net =
match net.pool with
| None -> []
| Some pool ->
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P2p_connection_pool.Connection.fold
pool ~init:[]
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~f:begin fun _peer_id c acc ->
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P2p_connection_pool.Connection.info c :: acc
end
let count net =
match net.pool with
| None -> 0
| Some pool -> P2p_connection_pool.active_connections pool
end
module Point = struct
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include Point
type state =
| Requested
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| Accepted of Peer_id.t
| Running of Peer_id.t
| Disconnected
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let peer_id_of_state = function
| Requested -> None
| Accepted pi -> Some pi
| Running pi -> Some pi
| Disconnected -> None
let state_of_state_peerid state pi = match state, pi with
| Requested, _ -> Requested
| Accepted _, Some pi -> Accepted pi
| Running _, Some pi -> Running pi
| Disconnected, _ -> Disconnected
| _ -> invalid_arg "state_of_state_peerid"
let pp_state_digram ppf = function
| Requested -> Format.fprintf ppf ""
| Accepted _ -> Format.fprintf ppf ""
| Running _ -> Format.fprintf ppf ""
| Disconnected -> Format.fprintf ppf ""
let state_encoding =
let open Data_encoding in
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let branch_encoding name obj =
conv (fun x -> (), x) (fun ((), x) -> x)
(merge_objs
(obj1 (req "event_kind" (constant name))) obj) in
union ~tag_size:`Uint8 [
case ~tag:0 (branch_encoding "requested" empty)
(function Requested -> Some () | _ -> None)
(fun () -> Requested) ;
case ~tag:1 (branch_encoding "accepted"
(obj1 (req "peer_id" Peer_id.encoding)))
(function Accepted peer_id -> Some peer_id | _ -> None)
(fun peer_id -> Accepted peer_id) ;
case ~tag:2 (branch_encoding "running"
(obj1 (req "peer_id" Peer_id.encoding)))
(function Running peer_id -> Some peer_id | _ -> None)
(fun peer_id -> Running peer_id) ;
case ~tag:3 (branch_encoding "disconnected" empty)
(function Disconnected -> Some () | _ -> None)
(fun () -> Disconnected) ;
]
type info = {
trusted : bool ;
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greylisted_until : Time.t ;
state : state ;
last_failed_connection : Time.t option ;
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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 ;
}
let info_encoding =
let open Data_encoding in
conv
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(fun { trusted ; greylisted_until ; state ;
last_failed_connection ; last_rejected_connection ;
last_established_connection ; last_disconnection ;
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last_seen ; last_miss } ->
let peer_id = peer_id_of_state state in
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(trusted, greylisted_until, state, peer_id,
last_failed_connection, last_rejected_connection,
last_established_connection, last_disconnection,
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last_seen, last_miss))
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(fun (trusted, greylisted_until, state, peer_id,
last_failed_connection, last_rejected_connection,
last_established_connection, last_disconnection,
last_seen, last_miss) ->
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let state = state_of_state_peerid state peer_id in
{ trusted ; greylisted_until ; state ;
last_failed_connection ; last_rejected_connection ;
last_established_connection ; last_disconnection ;
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last_seen ; last_miss })
(obj10
(req "trusted" bool)
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(dft "greylisted_until" Time.encoding Time.epoch)
(req "state" state_encoding)
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(opt "peer_id" Peer_id.encoding)
(opt "last_failed_connection" Time.encoding)
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(opt "last_rejected_connection" (tup2 Peer_id.encoding Time.encoding))
(opt "last_established_connection" (tup2 Peer_id.encoding Time.encoding))
(opt "last_disconnection" (tup2 Peer_id.encoding Time.encoding))
(opt "last_seen" (tup2 Peer_id.encoding Time.encoding))
(opt "last_miss" Time.encoding))
let info_of_point_info i =
let open P2p_connection_pool_types in
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let state = match Point_info.State.get i with
| Requested _ -> Requested
| Accepted { current_peer_id } -> Accepted current_peer_id
| Running { current_peer_id } -> Running current_peer_id
| Disconnected -> Disconnected in
Point_info.{
trusted = trusted i ;
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state ;
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greylisted_until = greylisted_until i ;
last_failed_connection = last_failed_connection i ;
last_rejected_connection = last_rejected_connection i ;
last_established_connection = last_established_connection i ;
last_disconnection = last_disconnection i ;
last_seen = last_seen i ;
last_miss = last_miss i ;
}
let info net point =
match net.pool with
| None -> None
| Some pool ->
map_option
(P2p_connection_pool.Points.info pool point)
~f:info_of_point_info
module Event = P2p_connection_pool_types.Point_info.Event
let events ?(max=max_int) ?(rev=false) net point =
match net.pool with
| None -> []
| Some pool ->
unopt_map
(P2p_connection_pool.Points.info pool point)
~default:[]
~f:begin fun pi ->
let evts =
P2p_connection_pool_types.Point_info.fold_events
pi ~init:[] ~f:(fun a e -> e :: a) in
(if rev then list_rev_sub else list_sub) evts max
end
let watch net point =
match net.pool with
| None -> raise Not_found
| Some pool ->
match P2p_connection_pool.Points.info pool point with
| None -> raise Not_found
| Some pi -> P2p_connection_pool_types.Point_info.watch pi
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let list ?(restrict=[]) net =
match net.pool with
| None -> []
| Some pool ->
P2p_connection_pool.Points.fold_known
pool ~init:[]
~f:begin fun point i a ->
let info = info_of_point_info i in
match restrict with
| [] -> (point, info) :: a
| _ when List.mem info.state restrict -> (point, info) :: a
| _ -> a
end
end
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module Peer_id = struct
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include Peer_id
type state =
| Accepted
| Running
| Disconnected
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let pp_state_digram ppf = function
| Accepted -> Format.fprintf ppf ""
| Running -> Format.fprintf ppf ""
| Disconnected -> Format.fprintf ppf ""
let state_encoding =
let open Data_encoding in
string_enum [
"accepted", Accepted ;
"running", Running ;
"disconnected", Disconnected ;
]
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 ;
}
let info_encoding =
let open Data_encoding in
conv
(fun (
{ score ; trusted ; state ; id_point ; stat ;
last_failed_connection ; last_rejected_connection ;
last_established_connection ; last_disconnection ;
last_seen ; last_miss }) ->
((score, trusted, state, id_point, stat),
(last_failed_connection, last_rejected_connection,
last_established_connection, last_disconnection,
last_seen, last_miss)))
(fun ((score, trusted, state, id_point, stat),
(last_failed_connection, last_rejected_connection,
last_established_connection, last_disconnection,
last_seen, last_miss)) ->
{ score ; trusted ; state ; id_point ; stat ;
last_failed_connection ; last_rejected_connection ;
last_established_connection ; last_disconnection ;
last_seen ; last_miss })
(merge_objs
(obj5
(req "score" float)
(req "trusted" bool)
(req "state" state_encoding)
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(opt "reachable_at" Id_point.encoding)
(req "stat" Stat.encoding))
(obj6
(opt "last_failed_connection" (tup2 Id_point.encoding Time.encoding))
(opt "last_rejected_connection" (tup2 Id_point.encoding Time.encoding))
(opt "last_established_connection" (tup2 Id_point.encoding Time.encoding))
(opt "last_disconnection" (tup2 Id_point.encoding Time.encoding))
(opt "last_seen" (tup2 Id_point.encoding Time.encoding))
(opt "last_miss" (tup2 Id_point.encoding Time.encoding))))
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let info_of_peer_info pool i =
let open P2p_connection_pool in
let open P2p_connection_pool_types in
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let state, id_point = match Peer_info.State.get i with
| Accepted { current_point } -> Accepted, Some current_point
| Running { current_point } -> Running, Some current_point
| Disconnected -> Disconnected, None
in
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let peer_id = Peer_info.peer_id i in
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let score = Peer_ids.get_score pool peer_id in
let stat =
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match P2p_connection_pool.Connection.find_by_peer_id pool peer_id with
| None -> Stat.empty
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| Some conn -> P2p_connection_pool.Connection.stat conn
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in Peer_info.{
score ;
trusted = trusted i ;
state ;
id_point ;
stat ;
last_failed_connection = last_failed_connection i ;
last_rejected_connection = last_rejected_connection i ;
last_established_connection = last_established_connection i ;
last_disconnection = last_disconnection i ;
last_seen = last_seen i ;
last_miss = last_miss i ;
}
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let info net peer_id =
match net.pool with
| None -> None
| Some pool -> begin
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match P2p_connection_pool.Peer_ids.info pool peer_id with
| Some info -> Some (info_of_peer_info pool info)
| None -> None
end
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module Event = P2p_connection_pool_types.Peer_info.Event
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let events ?(max=max_int) ?(rev=false) net peer_id =
match net.pool with
| None -> []
| Some pool ->
unopt_map
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(P2p_connection_pool.Peer_ids.info pool peer_id)
~default:[]
~f:begin fun gi ->
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let evts = P2p_connection_pool_types.Peer_info.fold_events gi
~init:[] ~f:(fun a e -> e :: a) in
(if rev then list_rev_sub else list_sub) evts max
end
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let watch net peer_id =
match net.pool with
| None -> raise Not_found
| Some pool ->
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match P2p_connection_pool.Peer_ids.info pool peer_id with
| None -> raise Not_found
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| Some gi -> P2p_connection_pool_types.Peer_info.watch gi
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let list ?(restrict=[]) net =
match net.pool with
| None -> []
| Some pool ->
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P2p_connection_pool.Peer_ids.fold_known pool
~init:[]
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~f:begin fun peer_id i a ->
let info = info_of_peer_info pool i in
match restrict with
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| [] -> (peer_id, info) :: a
| _ when List.mem info.state restrict -> (peer_id, info) :: a
| _ -> a
end
end
end