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quantum_package/ocaml/Message.ml

324 lines
8.3 KiB
OCaml

open Core.Std
(** New job : Request to create a new multi-tasked job *)
module State : sig
type t
val of_string : string -> t
val to_string : t -> string
end = struct
type t = string
let of_string x = x
let to_string x = x
end
module Newjob_msg : sig
type t =
{ state: State.t;
address_tcp: Address.Tcp.t ;
address_inproc: Address.Inproc.t;
}
val create : address_tcp:string -> address_inproc:string -> state:string -> t
val to_string : t -> string
end = struct
type t =
{ state: State.t;
address_tcp: Address.Tcp.t ;
address_inproc: Address.Inproc.t;
}
let create ~address_tcp ~address_inproc ~state =
{ state = State.of_string state;
address_tcp = Address.Tcp.of_string address_tcp ;
address_inproc = Address.Inproc.of_string address_inproc ;
}
let to_string t =
Printf.sprintf "newjob %s %s %s"
( State.to_string t.state )
( Address.Tcp.to_string t.address_tcp )
( Address.Inproc.to_string t.address_inproc )
end
(** Connect : connect a new client to the task server *)
module Connect_msg : sig
type t = Tcp | Inproc | Ipc
val create : typ:string -> t
val to_string : t -> string
end = struct
type t = Tcp | Inproc | Ipc
let create ~typ =
match typ with
| "tcp" -> Tcp
| "inproc" -> Inproc
| "ipc" -> Ipc
| _ -> assert false
let to_string = function
| Tcp -> "connect tcp"
| Inproc -> "connect inproc"
| Ipc -> "connect ipc"
end
(** ConnectReply : Reply to the connect messsage *)
module ConnectReply_msg : sig
type t =
{ client_id: Id.Client.t ;
state: State.t ;
push_address: Address.t;
}
val create : state:State.t -> client_id:Id.Client.t -> push_address:Address.t -> t
val to_string : t -> string
end = struct
type t =
{ client_id: Id.Client.t ;
state: State.t ;
push_address: Address.t;
}
let create ~state ~client_id ~push_address =
{ client_id ; state ; push_address }
let to_string x =
Printf.sprintf "connect_reply %s %d %s"
(State.to_string x.state)
(Id.Client.to_int x.client_id)
(Address.to_string x.push_address)
end
(** Disconnect : disconnect a client from the task server *)
module Disconnect_msg : sig
type t =
{ client_id: Id.Client.t ;
state: State.t ;
}
val create : state:string -> client_id:string -> t
val to_string : t -> string
end = struct
type t =
{ client_id: Id.Client.t ;
state: State.t ;
}
let create ~state ~client_id =
{ client_id = Id.Client.of_string client_id ; state = State.of_string state }
let to_string x =
Printf.sprintf "disconnect %s %d"
(State.to_string x.state)
(Id.Client.to_int x.client_id)
end
module DisconnectReply_msg : sig
type t =
{ finished: bool ;
state: State.t ;
}
val create : state:State.t -> finished:bool -> t
val to_string : t -> string
end = struct
type t =
{ finished: bool;
state: State.t ;
}
let create ~state ~finished =
{ state ; finished }
let to_string x =
Printf.sprintf "disconnect_reply %s %d"
(State.to_string x.state)
(if x.finished then 1 else 0)
end
(** AddTask : Add a new task to the queue *)
module AddTask_msg : sig
type t =
{ state: State.t;
task: string;
}
val create : state:string -> task:string -> t
val to_string : t -> string
end = struct
type t =
{ state: State.t;
task: string;
}
let create ~state ~task = { state = State.of_string state ; task }
let to_string x =
Printf.sprintf "add_task %s %s" (State.to_string x.state) x.task
end
(** AddTaskReply : Reply to the AddTask message *)
module AddTaskReply_msg : sig
type t
val create : task_id:Id.Task.t -> t
val to_string : t -> string
end = struct
type t = Id.Task.t
let create ~task_id = task_id
let to_string x =
Printf.sprintf "add_task_reply %d" (Id.Task.to_int x)
end
(** GetTask : get a new task to do *)
module GetTask_msg : sig
type t =
{ client_id: Id.Client.t ;
state: State.t ;
}
val create : state:string -> client_id:string -> t
val to_string : t -> string
end = struct
type t =
{ client_id: Id.Client.t ;
state: State.t ;
}
let create ~state ~client_id =
{ client_id = Id.Client.of_string client_id ; state = State.of_string state }
let to_string x =
Printf.sprintf "get_task %s %d"
(State.to_string x.state)
(Id.Client.to_int x.client_id)
end
(** GetTaskReply : Reply to the GetTask message *)
module GetTaskReply_msg : sig
type t
val create : task_id:Id.Task.t -> task:string -> t
val to_string : t -> string
end = struct
type t =
{ task_id: Id.Task.t ;
task : string ;
}
let create ~task_id ~task = { task_id ; task }
let to_string x =
Printf.sprintf "get_task_reply %d %s" (Id.Task.to_int x.task_id) x.task
end
(** TaskDone : Inform the server that a task is finished *)
module TaskDone_msg : sig
type t =
{ client_id: Id.Client.t ;
state: State.t ;
task_id: Id.Task.t;
}
val create : state:string -> client_id:string -> task_id:string -> t
val to_string : t -> string
end = struct
type t =
{ client_id: Id.Client.t ;
state: State.t ;
task_id: Id.Task.t;
}
let create ~state ~client_id ~task_id =
{ client_id = Id.Client.of_string client_id ;
state = State.of_string state ;
task_id = Id.Task.of_string task_id }
let to_string x =
Printf.sprintf "task_done %s %d %d"
(State.to_string x.state)
(Id.Client.to_int x.client_id)
(Id.Task.to_int x.task_id)
end
(** Terminate *)
module Terminate_msg : sig
type t
val create : unit -> t
val to_string : t -> string
end = struct
type t = Terminate
let create () = Terminate
let to_string x = "terminate"
end
(** OK *)
module Ok_msg : sig
type t
val create : unit -> t
val to_string : t -> string
end = struct
type t = Ok
let create () = Ok
let to_string x = "ok"
end
(** Error *)
module Error_msg : sig
type t
val create : string -> t
val to_string : t -> string
end = struct
type t = string
let create x = x
let to_string x =
String.concat ~sep:" " [ "error" ; x ]
end
(** Message *)
type t =
| Newjob of Newjob_msg.t
| Connect of Connect_msg.t
| ConnectReply of ConnectReply_msg.t
| Disconnect of Disconnect_msg.t
| DisconnectReply of DisconnectReply_msg.t
| GetTask of GetTask_msg.t
| GetTaskReply of GetTaskReply_msg.t
| AddTask of AddTask_msg.t
| AddTaskReply of AddTaskReply_msg.t
| TaskDone of TaskDone_msg.t
| Terminate of Terminate_msg.t
| Ok of Ok_msg.t
| Error of Error_msg.t
let of_string s =
let l =
String.split ~on:' ' s
|> List.filter ~f:(fun x -> (String.strip x) <> "")
|> List.map ~f:String.lowercase
in
match l with
| "add_task" :: state :: task ->
AddTask (AddTask_msg.create ~state ~task:(String.concat ~sep:" " task) )
| "get_task" :: state :: client_id :: [] ->
GetTask (GetTask_msg.create ~state ~client_id)
| "task_done" :: state :: client_id :: task_id :: [] ->
TaskDone (TaskDone_msg.create ~state ~client_id ~task_id)
| "disconnect" :: state :: client_id :: [] ->
Disconnect (Disconnect_msg.create ~state ~client_id)
| "connect" :: t :: [] ->
Connect (Connect_msg.create t)
| "new_job" :: state :: push_address_tcp :: push_address_inproc :: [] ->
Newjob (Newjob_msg.create push_address_tcp push_address_inproc state)
| "terminate" :: [] ->
Terminate (Terminate_msg.create () )
| "ok" :: [] ->
Ok (Ok_msg.create ())
| "error" :: rest ->
Error (Error_msg.create (String.concat ~sep:" " rest))
| _ -> failwith "Message not understood"
let to_string = function
| Newjob x -> Newjob_msg.to_string x
| Connect x -> Connect_msg.to_string x
| ConnectReply x -> ConnectReply_msg.to_string x
| Disconnect x -> Disconnect_msg.to_string x
| DisconnectReply x -> DisconnectReply_msg.to_string x
| GetTask x -> GetTask_msg.to_string x
| GetTaskReply x -> GetTaskReply_msg.to_string x
| AddTask x -> AddTask_msg.to_string x
| AddTaskReply x -> AddTaskReply_msg.to_string x
| TaskDone x -> TaskDone_msg.to_string x
| Terminate x -> Terminate_msg.to_string x
| Ok x -> Ok_msg.to_string x
| Error x -> Error_msg.to_string x