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mirror of https://github.com/QuantumPackage/qp2.git synced 2024-12-30 15:15:38 +01:00
qp2/ocaml/TaskServer.ml

896 lines
24 KiB
OCaml

open Qptypes
type pub_state =
| Waiting
| Running of string
| Stopped
let pub_state_of_string = function
| "Waiting" -> Waiting
| "Stopped" -> Stopped
| s -> Running s
let string_of_pub_state = function
| Waiting -> "Waiting"
| Stopped -> "Stopped"
| Running s -> s
type t =
{
queue : Queuing_system.t ;
state : Message.State.t option ;
address_tcp : Address.Tcp.t option ;
address_inproc : Address.Inproc.t option ;
progress_bar : Progress_bar.t option ;
running : bool;
accepting_clients : bool;
data : (string, string) Hashtbl.t;
}
let debug_env =
try
Sys.getenv "QP_TASK_DEBUG" = "1"
with Not_found -> false
let debug str =
if debug_env then
Printf.eprintf "TASK : %s%!" str
let zmq_context =
Zmq.Context.create ()
let () =
Zmq.Context.set_io_threads zmq_context 16
let bind_socket ~socket_type ~socket ~port =
let rec loop = function
| 0 -> failwith @@ Printf.sprintf
"Unable to bind the %s socket to port : %d "
socket_type port
| -1 -> ()
| i ->
try
Zmq.Socket.bind socket @@ Printf.sprintf "tcp://*:%d" port;
loop (-1)
with
| Unix.Unix_error _ -> (Unix.sleep 1 ; loop (i-1) )
| other_exception -> raise other_exception
in loop 60
let hostname = lazy (
try
Unix.gethostname ()
with
| _ -> "localhost"
)
external get_ipv4_address_for_interface : string -> string =
"get_ipv4_address_for_interface" ;;
let ip_address = lazy (
let interface =
try Some (Sys.getenv "QP_NIC")
with Not_found -> None
in
match interface with
| None ->
begin
try
let host =
Lazy.force hostname
|> Unix.gethostbyname
in
Unix.string_of_inet_addr host.h_addr_list.(0);
with
| Unix.Unix_error _ ->
failwith "Unable to find IP address from host name."
end
| Some interface ->
let result = get_ipv4_address_for_interface interface in
if String.sub result 0 5 = "error" then
Printf.sprintf "Unable to use network interface %s" interface
|> failwith
else
result
)
let reply_ok rep_socket =
Message.Ok_msg.create
|> Message.Ok_msg.to_string
|> Zmq.Socket.send rep_socket
let reply_wrong_state rep_socket =
Message.Error_msg.create "Wrong state"
|> Message.Error_msg.to_string
|> Zmq.Socket.send rep_socket
let stop ~port =
debug "STOP";
let req_socket =
Zmq.Socket.create zmq_context Zmq.Socket.req
and address =
Printf.sprintf "tcp://localhost:%d" port
in
Zmq.Socket.set_linger_period req_socket 1_000_000;
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 1_000;
Zmq.Socket.close req_socket
let new_job msg program_state rep_socket pair_socket =
let state =
msg.Message.Newjob_msg.state
in
let progress_bar =
Progress_bar.init
~start_value:0.
~end_value:1.
~bar_length:20
~title:(Message.State.to_string state)
in
let result =
{ program_state with
state = Some state ;
progress_bar = Some progress_bar ;
address_tcp = Some msg.Message.Newjob_msg.address_tcp;
address_inproc = Some msg.Message.Newjob_msg.address_inproc;
accepting_clients = true;
}
in
reply_ok rep_socket;
string_of_pub_state Waiting
|> Zmq.Socket.send pair_socket ;
result
let change_pub_state msg program_state rep_socket pair_socket =
let msg =
match msg with
| `Waiting -> Waiting
| `Stopped -> Stopped
| `Running ->
begin
let state =
match program_state.state with
| Some x -> x
| None -> failwith "Trying to change pub state while no job is ready"
in
Running (Message.State.to_string state)
end
in
reply_ok rep_socket;
string_of_pub_state msg
|> Zmq.Socket.send pair_socket ;
program_state
let force_state =
Message.State.of_string "force"
let end_job msg program_state rep_socket pair_socket =
let failure () =
reply_wrong_state rep_socket;
program_state
and success () =
reply_ok rep_socket;
{
queue = Queuing_system.create ();
state = None ;
progress_bar = Progress_bar.clear ();
address_tcp = None;
address_inproc = None;
running = true;
accepting_clients = false;
data = Hashtbl.create 23;
}
and wait n =
Printf.sprintf "waiting for %d slaves..." n
|> Message.Error_msg.create
|> Message.Error_msg.to_string
|> Zmq.Socket.send rep_socket ;
program_state
in
match program_state.state with
| None -> failure ()
| Some state ->
begin
if (msg.Message.Endjob_msg.state = force_state) then
begin
string_of_pub_state Waiting
|> Zmq.Socket.send pair_socket ;
success ()
end
else if (msg.Message.Endjob_msg.state = state) then
begin
string_of_pub_state Waiting
|> Zmq.Socket.send pair_socket ;
if (Queuing_system.number_of_clients program_state.queue = 0) then
success ()
else
wait (Queuing_system.number_of_clients program_state.queue)
end
else
failure ()
end
let connect msg program_state rep_socket =
let failure () =
reply_wrong_state rep_socket;
program_state
in
if (not program_state.accepting_clients) then
failure ()
else
match program_state.state with
| None -> failure ()
| Some state ->
let push_address =
match msg with
| Message.Connect_msg.Tcp ->
begin
match program_state.address_tcp with
| Some address -> Address.Tcp address
| None -> failwith "Error: No TCP address"
end
| Message.Connect_msg.Inproc ->
begin
match program_state.address_inproc with
| Some address -> Address.Inproc address
| None -> failwith "Error: No inproc address"
end
| Message.Connect_msg.Ipc -> assert false
in
let new_queue, client_id =
Queuing_system.add_client program_state.queue
in
Message.ConnectReply (Message.ConnectReply_msg.create
~state:state ~client_id ~push_address)
|> Message.to_string
|> Zmq.Socket.send rep_socket ;
{ program_state with
queue = new_queue
}
let disconnect msg program_state rep_socket =
let state, client_id =
msg.Message.Disconnect_msg.state,
msg.Message.Disconnect_msg.client_id
in
let failure () =
reply_wrong_state rep_socket;
program_state
and success () =
let new_program_state =
{ program_state with
queue = Queuing_system.del_client ~client_id program_state.queue
}
in
Message.DisconnectReply (Message.DisconnectReply_msg.create ~state)
|> Message.to_string
|> Zmq.Socket.send rep_socket ;
new_program_state
in
match program_state.state with
| None -> assert false
| Some state' ->
begin
if (state = state') then
success ()
else
failure ()
end
let del_task msg program_state rep_socket =
let state, task_ids =
msg.Message.DelTask_msg.state,
msg.Message.DelTask_msg.task_ids
in
let failure () =
reply_wrong_state rep_socket;
program_state
and success () =
let queue =
List.fold_left
(fun queue task_id -> Queuing_system.del_task ~task_id queue)
program_state.queue
task_ids
in
let accepting_clients =
(Queuing_system.number_of_queued queue > Queuing_system.number_of_clients queue)
in
let new_program_state =
{ program_state with
accepting_clients ;
queue ;
}
in
let more =
(Queuing_system.number_of_tasks queue > 0)
in
Message.DelTaskReply (Message.DelTaskReply_msg.create ~task_ids ~more)
|> Message.to_string
|> Zmq.Socket.send ~block:true rep_socket ; (** /!\ Has to be blocking *)
new_program_state
in
match program_state.state with
| None -> assert false
| Some state' ->
begin
if (state = state') then
success ()
else
failure ()
end
let add_task msg program_state rep_socket =
let state, tasks =
msg.Message.AddTask_msg.state,
msg.Message.AddTask_msg.tasks
in
let increment_progress_bar = function
| Some bar -> Some (Progress_bar.increment_end bar)
| None -> None
in
let result =
let new_queue, new_bar =
List.fold_left (fun (queue, bar) task ->
Queuing_system.add_task ~task queue,
increment_progress_bar bar)
(program_state.queue, program_state.progress_bar)
tasks
in
{ program_state with
queue = new_queue;
progress_bar = new_bar
}
in
reply_ok rep_socket;
result
let get_task msg program_state rep_socket pair_socket =
let state, client_id =
msg.Message.GetTask_msg.state,
msg.Message.GetTask_msg.client_id
in
let failure () =
reply_wrong_state rep_socket;
program_state
and success () =
let queue, task_id, task =
Queuing_system.pop_task ~client_id program_state.queue
in
let accepting_clients =
(Queuing_system.number_of_queued queue >
Queuing_system.number_of_clients queue)
in
let no_task =
Queuing_system.number_of_queued queue = 0
in
if no_task then
string_of_pub_state Waiting
|> Zmq.Socket.send pair_socket
else
string_of_pub_state (Running (Message.State.to_string state))
|> Zmq.Socket.send pair_socket;
let new_program_state =
{ program_state with
queue ;
accepting_clients;
}
in
Message.GetTaskReply (Message.GetTaskReply_msg.create ~task ~task_id)
|> Message.to_string
|> Zmq.Socket.send rep_socket ;
new_program_state
in
match program_state.state with
| None -> assert false
| Some state' ->
begin
if (state = state') then
success ()
else
failure ()
end
let get_tasks msg program_state rep_socket pair_socket =
let state, client_id, n_tasks =
msg.Message.GetTasks_msg.state,
msg.Message.GetTasks_msg.client_id,
Strictly_positive_int.to_int msg.Message.GetTasks_msg.n_tasks
in
let failure () =
reply_wrong_state rep_socket;
program_state
and success () =
let rec build_list accu queue = function
| 0 -> queue, (List.rev accu)
| n ->
let new_queue, task_id, task =
Queuing_system.pop_task ~client_id queue
in
match (task_id, task) with
| Some task_id, Some task ->
build_list ( (Some task_id, task)::accu ) new_queue (n-1)
| _ -> build_list ( (None, "terminate")::accu ) queue 0
in
let new_queue, result =
build_list [] program_state.queue (n_tasks)
in
let no_task =
Queuing_system.number_of_queued new_queue = 0
in
let accepting_clients =
(Queuing_system.number_of_queued new_queue >
Queuing_system.number_of_clients new_queue)
in
if no_task then
string_of_pub_state Waiting
|> Zmq.Socket.send pair_socket
else
string_of_pub_state (Running (Message.State.to_string state))
|> Zmq.Socket.send pair_socket;
let new_program_state =
{ program_state with
queue = new_queue;
accepting_clients;
}
in
Message.GetTasksReply (Message.GetTasksReply_msg.create result)
|> Message.to_string_list
|> Zmq.Socket.send_all rep_socket ;
new_program_state
in
match program_state.state with
| None -> assert false
| Some state' ->
begin
if (state = state') then
success ()
else
failure ()
end
let task_done msg program_state rep_socket =
let state, client_id, task_ids =
msg.Message.TaskDone_msg.state,
msg.Message.TaskDone_msg.client_id,
msg.Message.TaskDone_msg.task_ids
in
let increment_progress_bar = function
| Some bar -> Some (Progress_bar.increment_cur bar)
| None -> None
in
let failure () =
reply_wrong_state rep_socket;
program_state
and success () =
let new_queue, new_bar =
List.fold_left (fun (queue, bar) task_id ->
Queuing_system.end_task ~task_id ~client_id queue,
increment_progress_bar bar)
(program_state.queue, program_state.progress_bar)
task_ids
in
let accepting_clients =
(Queuing_system.number_of_queued new_queue >
Queuing_system.number_of_clients new_queue)
in
let result =
{ program_state with
queue = new_queue;
progress_bar = new_bar;
accepting_clients
}
in
reply_ok rep_socket;
result
in
match program_state.state with
| None -> assert false
| Some state' ->
begin
if (state = state') then
success ()
else
failure ()
end
let put_data msg rest_of_msg program_state rep_socket =
debug (Message.PutData_msg.to_string msg);
let state, key, value =
msg.Message.PutData_msg.state,
msg.Message.PutData_msg.key,
match rest_of_msg with
| [ x ] -> x
| _ -> failwith "Badly formed put_data message"
in
let success () =
Hashtbl.add program_state.data key value ;
Message.PutDataReply (Message.PutDataReply_msg.create ())
|> Message.to_string
|> Zmq.Socket.send rep_socket;
program_state
and failure () =
reply_wrong_state rep_socket;
program_state
in
match program_state.state with
| None -> assert false
| Some state' ->
if (state = state') then
success ()
else
failure ()
let get_data msg program_state rep_socket =
debug (Message.GetData_msg.to_string msg);
let state, key =
msg.Message.GetData_msg.state,
msg.Message.GetData_msg.key
in
let success () =
let value =
try Hashtbl.find program_state.data key with
| Not_found -> "\000"
in
Message.GetDataReply (Message.GetDataReply_msg.create ~value)
|> Message.to_string_list
|> Zmq.Socket.send_all rep_socket;
program_state
and failure () =
reply_wrong_state rep_socket;
program_state
in
match program_state.state with
| None -> assert false
| Some state' ->
if (state = state') then
success ()
else
failure ()
let terminate program_state rep_socket =
reply_ok rep_socket;
{ program_state with
address_tcp = None;
address_inproc = None;
running = false
}
let abort program_state rep_socket =
let queue, client_id =
Queuing_system.add_client program_state.queue
in
let rec aux accu queue = function
| 0 -> (queue, accu)
| rest ->
let new_queue, task_id, _ =
Queuing_system.pop_task ~client_id queue
in
let new_accu =
match task_id with
| Some task_id -> task_id::accu
| None -> accu
in
Queuing_system.number_of_queued new_queue
|> aux new_accu new_queue
in
let queue, tasks =
aux [] queue 1
in
let queue =
List.fold_left
(fun queue task_id -> Queuing_system.end_task ~task_id ~client_id queue)
queue
tasks
in
let queue =
List.fold_left
(fun queue task_id -> Queuing_system.del_task ~task_id queue)
queue
tasks
in
let queue =
Queuing_system.del_client ~client_id queue
in
reply_ok rep_socket;
{ program_state with
queue ;
accepting_clients = false;
}
let error msg program_state rep_socket =
Message.Error (Message.Error_msg.create msg)
|> Message.to_string
|> Zmq.Socket.send rep_socket ;
program_state
let start_pub_thread ~port =
Thread.create (fun () ->
let timeout =
1000
in
let pair_socket =
Zmq.Socket.create zmq_context Zmq.Socket.pair
and address =
"inproc://pair"
in
Zmq.Socket.connect pair_socket address;
let pub_socket =
Zmq.Socket.create zmq_context Zmq.Socket.pub
in
bind_socket ~socket_type:"PUB" ~socket:pub_socket ~port;
let pollitem =
Zmq.Poll.mask_of
[| (pair_socket, Zmq.Poll.In) |]
in
let rec run state =
let new_state =
let polling =
Zmq.Poll.poll ~timeout pollitem
in
if (polling.(0) = Some Zmq.Poll.In) then
Zmq.Socket.recv ~block:false pair_socket
|> pub_state_of_string
else
state
in
Zmq.Socket.send pub_socket @@ string_of_pub_state new_state;
match state with
| Stopped -> ()
| _ -> run new_state
in
run Waiting;
Zmq.Socket.set_linger_period pair_socket 1000 ;
Zmq.Socket.close pair_socket;
Zmq.Socket.set_linger_period pub_socket 1000 ;
Zmq.Socket.close pub_socket;
)
let run ~port =
(** Bind inproc socket for changing state of pub *)
let pair_socket =
Zmq.Socket.create zmq_context Zmq.Socket.pair
and address =
"inproc://pair"
in
Zmq.Socket.bind pair_socket address;
let pub_thread =
start_pub_thread ~port:(port+1) ()
in
(** Bind REP socket *)
let rep_socket =
Zmq.Socket.create zmq_context Zmq.Socket.rep
in
Zmq.Socket.set_linger_period rep_socket 1_000_000;
bind_socket "REP" rep_socket port;
let initial_program_state =
{ queue = Queuing_system.create () ;
running = true ;
state = None;
address_tcp = None;
address_inproc = None;
progress_bar = None ;
accepting_clients = false;
data = Hashtbl.create 23;
}
in
(** ZMR polling item *)
let pollitem =
Zmq.Poll.mask_of
[| (rep_socket, Zmq.Poll.In) |]
in
let address =
Printf.sprintf "tcp://%s:%d" (Lazy.force ip_address) port
in
Printf.printf "Task server running : %s\n%!" address;
(** Main loop *)
let rec main_loop program_state = function
| false -> ()
| true ->
let polling =
Zmq.Poll.poll ~timeout:1000 pollitem
in
if (polling.(0) <> Some Zmq.Poll.In) then
main_loop program_state true
else
begin
let program_state =
match program_state.progress_bar with
| None -> program_state
| Some bar ->
if bar.Progress_bar.dirty then
{ program_state with
progress_bar = Some (Progress_bar.display bar)
}
else
program_state
in
(** Extract message *)
let raw_message, rest =
match Zmq.Socket.recv_all rep_socket with
| x :: rest -> x, rest
| [] -> failwith "Badly formed message"
in
let message =
Message.of_string raw_message
in
(** Debug input *)
let () =
if debug_env then
begin
Printf.sprintf "q:%d r:%d n:%d c:%d : %s\n%!"
(Queuing_system.number_of_queued program_state.queue)
(Queuing_system.number_of_running program_state.queue)
(Queuing_system.number_of_tasks program_state.queue)
(Queuing_system.number_of_clients program_state.queue)
(Message.to_string message)
|> debug
end
in
let new_program_state =
try
match program_state.state, message with
| _ , Message.Terminate _ -> terminate program_state rep_socket
| _ , Message.Abort _ -> abort program_state rep_socket
| _ , Message.PutData x -> put_data x rest program_state rep_socket
| _ , Message.GetData x -> get_data x program_state rep_socket
| None , Message.Newjob x -> new_job x program_state rep_socket pair_socket
| _ , Message.Newjob _ -> error "A job is already running" program_state rep_socket
| Some _, Message.Endjob x -> end_job x program_state rep_socket pair_socket
| Some _, Message.SetRunning -> change_pub_state `Running program_state rep_socket pair_socket
| _, Message.SetWaiting -> change_pub_state `Waiting program_state rep_socket pair_socket
| _, Message.SetStopped -> change_pub_state `Stopped program_state rep_socket pair_socket
| None , _ -> error "No job is running" program_state rep_socket
| Some _, Message.Connect x -> connect x program_state rep_socket
| Some _, Message.Disconnect x -> disconnect x program_state rep_socket
| Some _, Message.AddTask x -> add_task x program_state rep_socket
| Some _, Message.DelTask x -> del_task x program_state rep_socket
| Some _, Message.GetTask x -> get_task x program_state rep_socket pair_socket
| Some _, Message.GetTasks x -> get_tasks x program_state rep_socket pair_socket
| Some _, Message.TaskDone x -> task_done x program_state rep_socket
| _ , _ ->
error ("Invalid message : "^(Message.to_string message)) program_state rep_socket
with
| Failure f ->
error (f^" : "^raw_message) program_state rep_socket
| Assert_failure (f,i,j) ->
error (Printf.sprintf "%s:%d:%d : %s" f i j raw_message) program_state rep_socket
in
main_loop new_program_state new_program_state.running
end
in main_loop initial_program_state true;
Zmq.Socket.send pair_socket @@ string_of_pub_state Stopped;
Thread.join pub_thread;
Zmq.Socket.close pair_socket;
Zmq.Socket.close rep_socket;
Zmq.Context.terminate zmq_context