quantum_package/ocaml/TaskServer.ml

open Core.Std
open Qptypes

(**
The tasks server listens on a REQ socket and accepts the following commands:

* "new_job %s %s %s" state push_address_tcp push_address_inproc -> "OK"
  -> "OK"

* "connect %s" ["tcp"|"inproc"]
  -> "%d %s %s" id state push_address

* "disconnect %d" id
  -> "OK"

* "get_task %d %s" id state
  -> "%d %s" task_id task

* "task_done %d task_id %s" id state
  -> "%d %s" task_id task

*)

let bind_socket ~socket_type ~socket ~address =
  try
    ZMQ.Socket.bind socket address
  with
  | Unix.Unix_error (_, message, f) ->
    failwith @@ Printf.sprintf
        "\n%s\nUnable to bind the %s socket :\n %s\n%s"
        f socket_type address message
  | other_exception -> raise other_exception


(** Name of the host on which the server runs *)
let hostname = lazy (
    try
      Unix.gethostname ()
    with
    | _ -> "localhost"
  )


(** IP address *)
let ip_address = lazy (
  match Sys.getenv "QP_NIC" with
  | None ->
      begin
        try
          Lazy.force hostname
          |> Unix.Inet_addr.of_string_or_getbyname
          |> Unix.Inet_addr.to_string
        with
        | Unix.Unix_error _ ->
            failwith "Unable to find IP address from host name."
      end
  | Some interface ->
      begin
        try
          ok_exn Linux_ext.get_ipv4_address_for_interface interface
        with
        | Unix.Unix_error _ ->
            Lazy.force hostname
            |> Unix.Inet_addr.of_string_or_getbyname
            |> Unix.Inet_addr.to_string
      end
)

(** Initial ZeroMQ port :
    Random port number between 49152 and 65535 *)
let port = lazy (
  1024 + (Random.int (49151-1024)) )

let stop () =
  let zmq_context =
    ZMQ.Context.create ()
  in
  let req_socket = 
    ZMQ.Socket.create zmq_context ZMQ.Socket.req
  and address =
    Printf.sprintf "tcp://%s:%d" (Lazy.force ip_address) (Lazy.force port)
  in
  ZMQ.Socket.connect req_socket address;

  Message.Terminate (Message.Terminate_msg.create ())
  |> Message.to_string
  |> ZMQ.Socket.send req_socket ;

  let msg = 
    ZMQ.Socket.recv req_socket
    |> Message.of_string
  in
  let () =
    match msg with
    | Message.Ok _ -> ()
    | _ -> failwith "Problem in termination"
  in
  ZMQ.Socket.set_linger_period req_socket 1000;
  ZMQ.Socket.close req_socket 
  

(** Run the task server *)
let run () =

  let zmq_context =
    ZMQ.Context.create ()
  in

  let rep_socket = 
    ZMQ.Socket.create zmq_context ZMQ.Socket.rep
  and address =
    Printf.sprintf "tcp://%s:%d" (Lazy.force ip_address) (Lazy.force port)
  in
  bind_socket "REP" rep_socket address;

  let pollitem =
    ZMQ.Poll.mask_of
      [| (rep_socket, ZMQ.Poll.In) |]
  in

  (** State variables *)
  let q = ref
     (Queuing_system.create ())
  and running = 
     ref true
  and job =
     ref None
  in

  let get_state () =
    match !job with
    | None   -> None
    | Some j -> Some j.Message.Newjob_msg.state
  in

  let get_tcp_address () =
    match !job with
    | Some j -> Address.Tcp j.Message.Newjob_msg.address_tcp
    | None   -> assert false
  in

  let get_inproc_address () =
    match !job with
    | Some j -> Address.Inproc j.Message.Newjob_msg.address_inproc
    | None   -> assert false
  in

  let ok =
    Message.Ok (Message.Ok_msg.create ())
  in

  while ( !running )
  do
    let state =
      get_state ()
    and polling =
      ZMQ.Poll.poll ~timeout:1000 pollitem
    in

    let terminate () = 
      running := false;
      Message.to_string ok
      |> ZMQ.Socket.send rep_socket 

    and newjob x =
      q := Queuing_system.create ();
      job := Some x;
      Message.to_string ok
      |> ZMQ.Socket.send rep_socket 

    and connect state msg = 
      let push_address = 
        match msg with
        | Message.Connect_msg.Tcp    -> get_tcp_address ()
        | Message.Connect_msg.Inproc -> get_inproc_address ()
        | Message.Connect_msg.Ipc    -> assert false
      in
      let new_q, client_id =
         Queuing_system.add_client !q
      in
      q := new_q;
      Message.ConnectReply (Message.ConnectReply_msg.create
        ~state ~client_id ~push_address)
      |> Message.to_string
      |> ZMQ.Socket.send rep_socket

    and disconnect state msg = 
      let s, c =
        msg.Message.Disconnect_msg.state    ,
        msg.Message.Disconnect_msg.client_id
      in
      assert (s = state);
      let new_q = 
        Queuing_system.del_client ~client_id:c !q
      in
      q := new_q;
      Message.to_string ok
      |> ZMQ.Socket.send rep_socket

    and add_task state msg =
      let s, task =
        msg.Message.AddTask_msg.state, 
        msg.Message.AddTask_msg.task
      in
      assert (s = state);
      let new_q, task_id = 
        Queuing_system.add_task ~task !q
      in
      q := new_q;
      Message.to_string ok
      |> ZMQ.Socket.send rep_socket
      
    and get_task state msg =
      let s, client_id =
        msg.Message.GetTask_msg.state, 
        msg.Message.GetTask_msg.client_id
      in
      assert (s = state);
      let new_q, task_id, task = 
        Queuing_system.pop_task ~client_id !q
      in
      q := new_q;
      let reply = 
        match (task, task_id) with
        | Some task, Some task_id ->
           Message.GetTaskReply (Message.GetTaskReply_msg.create ~task ~task_id)
        | _ -> Message.Terminate (Message.Terminate_msg.create ())
      in
      Message.to_string reply
      |> ZMQ.Socket.send rep_socket
      
    and task_done state msg =
      let s, client_id, task_id =
        msg.Message.TaskDone_msg.state,
        msg.Message.TaskDone_msg.client_id,
        msg.Message.TaskDone_msg.task_id
      in
      assert (s = state);
      let new_q = 
        Queuing_system.end_task ~task_id ~client_id !q
      in
      q := new_q;
      Message.to_string ok
      |> ZMQ.Socket.send rep_socket
      
    and error msg = 
      Message.Error (Message.Error_msg.create msg)
      |> Message.to_string
      |> ZMQ.Socket.send rep_socket
    in

    if (polling.(0) = Some ZMQ.Poll.In) then
      let raw_message = 
          ZMQ.Socket.recv rep_socket
      in
      try
        let message = 
          Message.of_string raw_message
        in
        Printf.printf "%s\n%!" (Message.to_string message);
        Printf.printf "%s\n%!" (Queuing_system.to_string !q);
        match (state, message) with
        | _     , Message.Terminate   _ -> terminate ()
        | None  , Message.Newjob      x -> newjob x
        | None  ,                     _ -> error "No job is running"
        | _     , Message.Newjob      _ -> error "A job is already running"
        | Some s, Message.Connect     x -> connect s x
        | Some s, Message.Disconnect  x -> disconnect s x
        | Some s, Message.AddTask     x -> add_task s x
        | Some s, Message.GetTask     x -> get_task s x
        | Some s, Message.TaskDone    x -> task_done s x
        | _     , _                     ->
          error ("Invalid message : "^(Message.to_string message))
      with
      | Failure f -> error (f^" : "^raw_message)
      | Assert_failure (f,i,j) -> error (Printf.sprintf "%s:%d:%d : %s" f i j raw_message)
      
  done;   
  ZMQ.Socket.set_linger_period rep_socket 1000;
  ZMQ.Socket.close rep_socket 


let () =
  Printf.printf "export QP_RUN_ADDRESS=tcp://%s:%d\n%!" (Lazy.force ip_address) (Lazy.force port)
Created task server in ocaml 2015-12-03 23:51:10 +01:00			`open Core.Std`
			`open Qptypes`

			`(**`
			`The tasks server listens on a REQ socket and accepts the following commands:`

			`* "new_job %s %s %s" state push_address_tcp push_address_inproc -> "OK"`
			`-> "OK"`

			`* "connect %s" ["tcp"\|"inproc"]`
			`-> "%d %s %s" id state push_address`

			`* "disconnect %d" id`
			`-> "OK"`

			`* "get_task %d %s" id state`
			`-> "%d %s" task_id task`

			`* "task_done %d task_id %s" id state`
			`-> "%d %s" task_id task`

			`*)`

			`let bind_socket ~socket_type ~socket ~address =`
			`try`
			`ZMQ.Socket.bind socket address`
			`with`
			`\| Unix.Unix_error (_, message, f) ->`
			`failwith @@ Printf.sprintf`
			`"\n%s\nUnable to bind the %s socket :\n %s\n%s"`
			`f socket_type address message`
			`\| other_exception -> raise other_exception`


			`(** Name of the host on which the server runs *)`
			`let hostname = lazy (`
			`try`
			`Unix.gethostname ()`
			`with`
			`\| _ -> "localhost"`
			`)`


			`(** IP address *)`
			`let ip_address = lazy (`
			`match Sys.getenv "QP_NIC" with`
			`\| None ->`
			`begin`
			`try`
			`Lazy.force hostname`
			`\|> Unix.Inet_addr.of_string_or_getbyname`
			`\|> Unix.Inet_addr.to_string`
			`with`
			`\| Unix.Unix_error _ ->`
			`failwith "Unable to find IP address from host name."`
			`end`
			`\| Some interface ->`
			`begin`
			`try`
			`ok_exn Linux_ext.get_ipv4_address_for_interface interface`
			`with`
			`\| Unix.Unix_error _ ->`
			`Lazy.force hostname`
			`\|> Unix.Inet_addr.of_string_or_getbyname`
			`\|> Unix.Inet_addr.to_string`
			`end`
			`)`

			`(** Initial ZeroMQ port :`
			`Random port number between 49152 and 65535 *)`
			`let port = lazy (`
			`1024 + (Random.int (49151-1024)) )`

			`let stop () =`
			`let zmq_context =`
			`ZMQ.Context.create ()`
			`in`
			`let req_socket =`
			`ZMQ.Socket.create zmq_context ZMQ.Socket.req`
			`and address =`
			`Printf.sprintf "tcp://%s:%d" (Lazy.force ip_address) (Lazy.force port)`
			`in`
			`ZMQ.Socket.connect req_socket address;`

			`Message.Terminate (Message.Terminate_msg.create ())`
			`\|> Message.to_string`
			`\|> ZMQ.Socket.send req_socket ;`

			`let msg =`
			`ZMQ.Socket.recv req_socket`
			`\|> Message.of_string`
			`in`
			`let () =`
			`match msg with`
			`\| Message.Ok _ -> ()`
			`\| _ -> failwith "Problem in termination"`
			`in`
			`ZMQ.Socket.set_linger_period req_socket 1000;`
			`ZMQ.Socket.close req_socket`


			`(** Run the task server *)`
			`let run () =`

			`let zmq_context =`
			`ZMQ.Context.create ()`
			`in`

			`let rep_socket =`
			`ZMQ.Socket.create zmq_context ZMQ.Socket.rep`
			`and address =`
			`Printf.sprintf "tcp://%s:%d" (Lazy.force ip_address) (Lazy.force port)`
			`in`
			`bind_socket "REP" rep_socket address;`

			`let pollitem =`
			`ZMQ.Poll.mask_of`
			`[\| (rep_socket, ZMQ.Poll.In) \|]`
			`in`

			`(** State variables *)`
			`let q = ref`
			`(Queuing_system.create ())`
			`and running =`
			`ref true`
			`and job =`
			`ref None`
			`in`

			`let get_state () =`
			`match !job with`
			`\| None -> None`
			`\| Some j -> Some j.Message.Newjob_msg.state`
			`in`

			`let get_tcp_address () =`
			`match !job with`
			`\| Some j -> Address.Tcp j.Message.Newjob_msg.address_tcp`
			`\| None -> assert false`
			`in`

			`let get_inproc_address () =`
			`match !job with`
			`\| Some j -> Address.Inproc j.Message.Newjob_msg.address_inproc`
			`\| None -> assert false`
			`in`

			`let ok =`
			`Message.Ok (Message.Ok_msg.create ())`
			`in`

			`while ( !running )`
			`do`
			`let state =`
			`get_state ()`
			`and polling =`
			`ZMQ.Poll.poll ~timeout:1000 pollitem`
			`in`

			`let terminate () =`
			`running := false;`
			`Message.to_string ok`
			`\|> ZMQ.Socket.send rep_socket`

			`and newjob x =`
			`q := Queuing_system.create ();`
			`job := Some x;`
			`Message.to_string ok`
			`\|> ZMQ.Socket.send rep_socket`

			`and connect state msg =`
			`let push_address =`
			`match msg with`
			`\| Message.Connect_msg.Tcp -> get_tcp_address ()`
			`\| Message.Connect_msg.Inproc -> get_inproc_address ()`
			`\| Message.Connect_msg.Ipc -> assert false`
			`in`
			`let new_q, client_id =`
			`Queuing_system.add_client !q`
			`in`
			`q := new_q;`
			`Message.ConnectReply (Message.ConnectReply_msg.create`
			`~state ~client_id ~push_address)`
			`\|> Message.to_string`
			`\|> ZMQ.Socket.send rep_socket`

			`and disconnect state msg =`
			`let s, c =`
			`msg.Message.Disconnect_msg.state ,`
			`msg.Message.Disconnect_msg.client_id`
			`in`
			`assert (s = state);`
			`let new_q =`
			`Queuing_system.del_client ~client_id:c !q`
			`in`
			`q := new_q;`
			`Message.to_string ok`
			`\|> ZMQ.Socket.send rep_socket`

			`and add_task state msg =`
			`let s, task =`
			`msg.Message.AddTask_msg.state,`
			`msg.Message.AddTask_msg.task`
			`in`
			`assert (s = state);`
			`let new_q, task_id =`
			`Queuing_system.add_task ~task !q`
			`in`
			`q := new_q;`
			`Message.to_string ok`
			`\|> ZMQ.Socket.send rep_socket`

			`and get_task state msg =`
			`let s, client_id =`
			`msg.Message.GetTask_msg.state,`
			`msg.Message.GetTask_msg.client_id`
			`in`
			`assert (s = state);`
			`let new_q, task_id, task =`
			`Queuing_system.pop_task ~client_id !q`
			`in`
			`q := new_q;`
			`let reply =`
			`match (task, task_id) with`
			`\| Some task, Some task_id ->`
			`Message.GetTaskReply (Message.GetTaskReply_msg.create ~task ~task_id)`
			`\| _ -> Message.Terminate (Message.Terminate_msg.create ())`
			`in`
			`Message.to_string reply`
			`\|> ZMQ.Socket.send rep_socket`

			`and task_done state msg =`
			`let s, client_id, task_id =`
			`msg.Message.TaskDone_msg.state,`
			`msg.Message.TaskDone_msg.client_id,`
			`msg.Message.TaskDone_msg.task_id`
			`in`
			`assert (s = state);`
			`let new_q =`
			`Queuing_system.end_task ~task_id ~client_id !q`
			`in`
			`q := new_q;`
			`Message.to_string ok`
			`\|> ZMQ.Socket.send rep_socket`

			`and error msg =`
			`Message.Error (Message.Error_msg.create msg)`
			`\|> Message.to_string`
			`\|> ZMQ.Socket.send rep_socket`
			`in`

			`if (polling.(0) = Some ZMQ.Poll.In) then`
			`let raw_message =`
			`ZMQ.Socket.recv rep_socket`
			`in`
			`try`
			`let message =`
			`Message.of_string raw_message`
			`in`
			`Printf.printf "%s\n%!" (Message.to_string message);`
			`Printf.printf "%s\n%!" (Queuing_system.to_string !q);`
			`match (state, message) with`
			`\| _ , Message.Terminate _ -> terminate ()`
			`\| None , Message.Newjob x -> newjob x`
			`\| None , _ -> error "No job is running"`
			`\| _ , Message.Newjob _ -> error "A job is already running"`
			`\| Some s, Message.Connect x -> connect s x`
			`\| Some s, Message.Disconnect x -> disconnect s x`
			`\| Some s, Message.AddTask x -> add_task s x`
			`\| Some s, Message.GetTask x -> get_task s x`
			`\| Some s, Message.TaskDone x -> task_done s x`
			`\| _ , _ ->`
			`error ("Invalid message : "^(Message.to_string message))`
			`with`
			`\| Failure f -> error (f^" : "^raw_message)`
			`\| Assert_failure (f,i,j) -> error (Printf.sprintf "%s:%d:%d : %s" f i j raw_message)`

			`done;`
			`ZMQ.Socket.set_linger_period rep_socket 1000;`
			`ZMQ.Socket.close rep_socket`


			`let () =`
			`Printf.printf "export QP_RUN_ADDRESS=tcp://%s:%d\n%!" (Lazy.force ip_address) (Lazy.force port)`