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open Async
open Core
open Websocket_async
exception Invalid_Payload
module Shard = struct
type t = {
mutable hb: unit Ivar.t option;
mutable seq: int;
mutable session: string option;
token: string;
shard: int * int;
write: Frame.t Pipe.Writer.t;
read: Frame.t Pipe.Reader.t;
ready: unit Ivar.t;
}
let identify_lock = Mutex.create ()
let parse (frame:[`Ok of Frame.t | `Eof]) =
match frame with
| `Ok s -> Yojson.Basic.from_string s.content (* TODO Handler non-text frames *)
| `Eof -> raise Invalid_Payload (* TODO This needs to go into reconnect code, or stop using client_ez and handle frames manually *)
let push_frame ?payload ~ev shard =
print_endline @@ "Pushing frame. OP: " ^ Opcode.to_string @@ ev;
let content = match payload with
| None -> ""
| Some p ->
Yojson.Basic.to_string @@ `Assoc [
("op", `Int (Opcode.to_int ev));
("d", p);
]
in
Pipe.write shard.write @@ Frame.create ~content ()
>>| fun () ->
shard
let heartbeat shard =
let seq = match shard.seq with
| 0 -> `Null
| i -> `Int i
in
let payload = `Assoc [
("op", `Int 1);
("d", seq);
] in
push_frame ~payload ~ev:HEARTBEAT shard
let dispatch ~payload shard =
let module J = Yojson.Basic.Util in
let seq = J.(member "s" payload |> to_int) in
shard.seq <- seq;
let t = J.(member "t" payload |> to_string) in
let data = J.member "d" payload in
if t = "READY" then begin
Ivar.fill_if_empty shard.ready ();
let session = J.(member "session_id" data |> to_string) in
shard.session <- Some session
end;
return shard
let set_status ~status shard =
let payload = match status with
| `Assoc [("name", `String name); ("type", `Int t)] ->
`Assoc [
("status", `String "online");
("afk", `Bool false);
("since", `Null);
("game", `Assoc [
("name", `String name);
("type", `Int t)
])
]
| `String name ->
`Assoc [
("status", `String "online");
("afk", `Bool false);
("since", `Null);
("game", `Assoc [
("name", `String name);
("type", `Int 0)
])
]
| _ -> raise Invalid_Payload
in
Ivar.read shard.ready >>= fun _ ->
push_frame ~payload ~ev:STATUS_UPDATE shard
let request_guild_members ~guild ?(query="") ?(limit=0) shard =
let payload = `Assoc [
("guild_id", `String (string_of_int guild));
("query", `String query);
("limit", `Int limit);
] in
Ivar.read shard.ready >>= fun _ ->
push_frame ~payload ~ev:REQUEST_GUILD_MEMBERS shard
let initialize ~data shard =
let module J = Yojson.Basic.Util in
let hb = match shard.hb with
| None -> begin
let hb_interval = J.(member "heartbeat_interval" data |> to_int) in
let finished = Ivar.create () in
Clock.every'
~continue_on_error:true
~finished
(Core.Time.Span.create ~ms:hb_interval ())
(fun () -> heartbeat shard >>= fun _ -> return ());
finished
end
| Some s -> s
in
shard.hb <- Some hb;
Mutex.lock identify_lock;
let (cur, max) = shard.shard in
let shards = [`Int cur; `Int max] in
match shard.session with
| None ->
let payload = `Assoc [
("token", `String shard.token);
("properties", `Assoc [
("$os", `String Sys.os_type);
("$device", `String "dis.ml");
("$browser", `String "dis.ml")
]);
("compress", `Bool false); (* TODO add compression handling*)
("large_threshold", `Int 250);
("shard", `List shards);
] in
push_frame ~payload ~ev:IDENTIFY shard
| Some s ->
let payload = `Assoc [
("token", `String shard.token);
("session_id", `String s);
("seq", `Int shard.seq)
] in
push_frame ~payload ~ev:RESUME shard
>>| fun s ->
Clock.after (Core.Time.Span.create ~sec:5 ())
>>| (fun _ -> Mutex.unlock identify_lock)
|> ignore;
s
let handle_frame ~f shard =
let module J = Yojson.Basic.Util in
let op = J.(member "op" f |> to_int)
|> Opcode.from_int
in
match op with
| DISPATCH -> dispatch ~payload:f shard
| HEARTBEAT -> heartbeat shard
| RECONNECT -> print_endline "OP 7"; return shard (* TODO reconnect *)
| INVALID_SESSION -> print_endline "OP 9"; return shard (* TODO invalid session *)
| HELLO -> initialize ~data:(J.member "d" f) shard
| HEARTBEAT_ACK -> return shard
| opcode ->
print_endline @@ "Invalid Opcode: " ^ Opcode.to_string opcode;
return shard
let create ~url ~shards ~token () =
let open Core in
let uri = (url ^ "?v=6&encoding=json") |> Uri.of_string in
let extra_headers = Http.Base.process_request_headers () in
let host = Option.value_exn ~message:"no host in uri" Uri.(host uri) in
let port =
match Uri.port uri, Uri_services.tcp_port_of_uri uri with
| Some p, _ -> p
| None, Some p -> p
| _ -> 443 in
let scheme = Option.value_exn ~message:"no scheme in uri" Uri.(scheme uri) in
let tcp_fun (net_to_ws, ws_to_net) =
let (app_to_ws, write) = Pipe.create () in
let (read, ws_to_app) = Pipe.create () in
let initialized = Ivar.create () in
client
~initialized
~extra_headers
~app_to_ws
~ws_to_app
~net_to_ws
~ws_to_net
uri
>>> ignore;
Ivar.read initialized >>| fun () ->
let rec ev_loop ~reader shard =
Pipe.read reader
>>= fun frame ->
handle_frame ~f:(parse frame) shard
>>= fun shard ->
ev_loop ~reader shard
in
let shard = {
read;
write;
ready = Ivar.create ();
hb = None;
seq = 0;
shard = shards;
session = None;
token = token;
}
in
ev_loop ~reader:read shard |> ignore;
shard
in
match Unix.getaddrinfo host (string_of_int port) [] with
| [] -> failwithf "DNS resolution failed for %s" host ()
| { ai_addr; _ } :: _ ->
let addr =
match scheme, ai_addr with
| _, ADDR_UNIX path -> `Unix_domain_socket path
| "https", ADDR_INET (h, p)
| "wss", ADDR_INET (h, p) ->
let h = Ipaddr_unix.of_inet_addr h in
`OpenSSL (h, p, Conduit_async.V2.Ssl.Config.create ())
| _, ADDR_INET (h, p) ->
let h = Ipaddr_unix.of_inet_addr h in
`TCP (h, p)
in
Conduit_async.V2.connect addr >>= tcp_fun
end
type t = {
shards: Shard.t list;
}
let start ?count token =
let module J = Yojson.Basic.Util in
Http.get_gateway_bot () >>= fun data ->
let url = J.(member "url" data |> to_string) in
let count = match count with
| Some c -> c
| None -> J.(member "shards" data |> to_int)
in
let shard_list = (0, count) in
let rec gen_shards l a =
match l with
| (id, total) when id >= total -> return a
| (id, total) ->
Shard.create ~url ~shards:(id, total) ~token ()
>>= fun shard ->
let a = shard :: a in
gen_shards (id+1, total) a
in
gen_shards shard_list []
>>| fun shards ->
{
shards;
}
let set_status sharder status =
Deferred.all @@ List.map ~f:(fun shard ->
Shard.set_status ~status shard
) sharder.shards
let set_status_with sharder f =
Deferred.all @@ List.map ~f:(fun shard ->
Shard.set_status ~status:(f shard) shard
) sharder.shards
let request_guild_members ~guild ?query ?limit sharder =
Deferred.all @@ List.map ~f:(fun shard ->
Shard.request_guild_members ~guild ?query ?limit shard
) sharder.shards
|