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mirror of https://gitlab.com/scemama/qmcchem.git synced 2024-11-19 12:32:20 +01:00
qmcchem/ocaml/Qmcchem_forwarder.ml
2020-04-15 23:59:17 +02:00

545 lines
15 KiB
OCaml

let bind_socket ~socket_type ~socket ~address =
let rec loop = function
| 0 -> failwith @@ Printf.sprintf
"Unable to bind the forwarder's %s socket : %s\n"
socket_type address
| -1 -> ()
| i ->
try
Zmq.Socket.bind socket address;
loop (-1)
with
| Unix.Unix_error _ -> (Unix.sleep 1 ; loop (i-1) )
| other_exception -> raise other_exception
in loop 10
let run ezfio_filename dataserver =
let dataserver_address, dataserver_port =
String.sub dataserver 6 (String.length dataserver - 6)
|> String_ext.lsplit2_exn ~on:':'
and qmc =
Lazy.force Qmcchem_config.qmc
in
(* Go into /dev/shm *)
Unix.chdir Qmcchem_config.dev_shm;
let tmpdir =
ezfio_filename ^ "_" ^ dataserver_port
in
(* Port of the data server *)
let port =
(int_of_string dataserver_port)+10
in
(* Build qmc executable command *)
let prog, argv =
qmc,
[| qmc ; ezfio_filename ;
Printf.sprintf "ipc://%s:%d" Qmcchem_config.dev_shm port |];
in
(* Create the temporary directory. If it is possible, then the process is a
* master and the forwarder will start. Otherwise, only start a qmc process.
*)
let () =
try
Unix.mkdir tmpdir 0o755;
Unix.chdir tmpdir
with
| Unix.Unix_error _ ->
begin
Unix.chdir tmpdir;
Unix.sleep 1;
if Sys.file_exists "PID" then
begin
let pid =
let ic = open_in "PID" in
try
int_of_string (input_line ic)
with
| End_of_file -> -1
in
match pid with
| -1 -> ()
| pid ->
try
Unix.kill pid 0 ;
ignore @@ Unix.execvp prog argv
with
| Unix.Unix_error (Unix.ESRCH, _, _) -> ()
end
end
in
(* Now, only one forwarder will execute the following code *)
let oc = open_out "PID" in
Unix.getpid ()
|> Printf.sprintf "%d\n"
|> output_string oc
; close_out oc;
(* Fork a qmc *)
ignore @@
Watchdog.fork_exec ~prog ~args:argv ();
(* Fetch input *)
let zmq_context =
Zmq.Context.create ()
in
let terminate () =
(* Clean up the temp directory *)
Unix.chdir Qmcchem_config.dev_shm;
Zmq.Context.terminate zmq_context ;
for i=port to port+4
do
let filename =
Printf.sprintf ":%d" i
in
try
Sys.remove filename
with
| _ -> ()
;
done;
let command =
Printf.sprintf "rm -rf -- \"%s\" " tmpdir
in
try
ignore @@ Unix.system command
with
| Unix.Unix_error _ -> print_endline "Unable to remove temporary directory"
;
Watchdog.kill ()
in
(* Signal handler to Kill properly all the processes *)
let handler s =
Printf.printf "Forwarder received signal %d... killing\n%!" s;
terminate ()
in
List.iter (fun s -> ignore @@ Sys.signal s (Sys.Signal_handle handler))
[
Sys.sigint ;
Sys.sigterm ;
Sys.sigquit ;
]
;
(* Fetch walkers *)
let walk_num =
ref 0
and walkers =
ref []
in
(* Status thread *)
let status =
ref Status.Running
in
let start_status_thread =
let f () =
let pub_socket =
Zmq.Socket.create zmq_context Zmq.Socket.pub
and address =
Printf.sprintf "ipc://%s:%d" Qmcchem_config.dev_shm (port+1);
in
bind_socket "PUB" pub_socket address;
let sub_socket =
Zmq.Socket.create zmq_context Zmq.Socket.sub
and address =
Printf.sprintf "tcp://%s:%d" dataserver_address (port+1-10)
in
Zmq.Socket.connect sub_socket address;
Zmq.Socket.subscribe sub_socket "";
let pollitem =
Zmq.Poll.mask_of
[| (sub_socket, Zmq.Poll.In) ;
|]
in
while (!status <> Status.Stopped)
do
let polling =
Zmq.Poll.poll ~timeout:1000 pollitem
in
if (polling.(0) = Some Zmq.Poll.In) then
begin
let msg =
Zmq.Socket.recv ~block:false sub_socket
in
Zmq.Socket.send pub_socket msg;
status := Status.of_string msg;
end;
done;
List.iter (fun socket ->
Zmq.Socket.set_linger_period socket 1000 ;
Zmq.Socket.close socket)
[ sub_socket ; pub_socket ]
in
Thread.create f
in
let start_log_thread =
let f () =
let sub_socket =
Zmq.Socket.create zmq_context Zmq.Socket.xsub
and address =
Printf.sprintf "ipc://%s:%d" Qmcchem_config.dev_shm (port+3);
in
bind_socket "XSUB" sub_socket address;
let pub_socket =
Zmq.Socket.create zmq_context Zmq.Socket.xpub
and address =
Printf.sprintf "tcp://%s:%d" dataserver_address (port+3-10)
in
Zmq.Socket.connect pub_socket address;
let pollitem =
Zmq.Poll.mask_of
[| (sub_socket, Zmq.Poll.In) ;
(pub_socket, Zmq.Poll.In) ;
|]
in
(* Main loop *)
while (!status <> Status.Stopped)
do
let polling =
Zmq.Poll.poll ~timeout:1000 pollitem
in
if (polling.(0) = Some Zmq.Poll.In) then
begin
Zmq.Socket.recv ~block:false sub_socket
|> Zmq.Socket.send pub_socket ;
end
else if (polling.(1) = Some Zmq.Poll.In) then
begin
Printf.eprintf "Forwarder subscribe\n%!";
Zmq.Socket.recv ~block:false pub_socket
|> Zmq.Socket.send sub_socket ;
end
done;
List.iter (fun socket ->
Zmq.Socket.set_linger_period socket 1000 ;
Zmq.Socket.close socket)
[ sub_socket ; pub_socket ]
in
Thread.create f
in
(* Proxy thread *)
let start_proxy_thread =
let f () =
let req_socket =
Zmq.Socket.create zmq_context Zmq.Socket.req
in
Zmq.Socket.connect req_socket dataserver;
Zmq.Socket.set_receive_timeout req_socket 600_000;
let dealer_socket =
Zmq.Socket.create zmq_context Zmq.Socket.dealer
in
bind_socket "PROXY" dealer_socket "inproc://dealer";
Zmq.Socket.set_receive_high_water_mark dealer_socket 100_000;
Zmq.Socket.set_send_high_water_mark dealer_socket 100_000;
Zmq.Socket.set_immediate dealer_socket true;
Zmq.Socket.set_linger_period dealer_socket 600_000;
let fetch_walkers () =
Zmq.Socket.send_all req_socket ["get_walkers" ; string_of_int !walk_num ];
Zmq.Socket.recv_all req_socket
in
let pollitem =
Zmq.Poll.mask_of
[| (dealer_socket, Zmq.Poll.In) ;
|]
in
(* EZFIO Cache *)
let ezfio_cache =
Hashtbl.create 63
in
let handle_ezfio msg =
match Hashtbl.find_opt ezfio_cache msg with
| Some result -> result
| None ->
begin
Zmq.Socket.send_all req_socket ["Ezfio" ; msg];
let result =
Zmq.Socket.recv_all req_socket
in
Hashtbl.add ezfio_cache msg result;
result
end
in
(* Main loop *)
while (!status <> Status.Stopped)
do
let polling =
Zmq.Poll.poll ~timeout:1000 pollitem
in
if (polling.(0) = Some Zmq.Poll.In) then
begin
let raw_msg =
Zmq.Socket.recv_all ~block:false dealer_socket
in
let header, msg =
let rec aux header = function
| "" :: msg -> List.rev ("" :: header), Message.create msg
| head :: tail -> aux (head::header) tail
| _ -> failwith "Too many routers in the middle"
in
aux [] (List.rev @@ List.rev_map String.trim raw_msg)
in
let handle message =
match message with
| Message.Ezfio ezfio_msg ->
let result =
handle_ezfio ezfio_msg
in
Zmq.Socket.send_all dealer_socket (header @ result)
| Message.GetWalkers n_walks ->
begin
if (!walk_num = 0) then
begin
walk_num := Qptypes.Strictly_positive_int.to_int n_walks;
walkers := fetch_walkers ();
end;
Zmq.Socket.send_all dealer_socket (header @ !walkers);
walkers := fetch_walkers ();
end
| Message.Test ->
Zmq.Socket.send_all dealer_socket (header @ [ "OK" ])
| Message.Error _ -> ()
| Message.Register _
| Message.Unregister _
| Message.Walkers _
| Message.Property _ ->
failwith "Bad message"
in handle msg
end;
done;
Zmq.Socket.set_linger_period dealer_socket 1000 ;
Zmq.Socket.set_linger_period req_socket 1000 ;
Zmq.Socket.close dealer_socket;
Zmq.Socket.close req_socket;
in
Thread.create f
in
(* Main thread *)
let start_main_thread =
let f () =
let dealer_socket =
Zmq.Socket.create zmq_context Zmq.Socket.dealer
in
Zmq.Socket.connect dealer_socket dataserver;
Zmq.Socket.set_linger_period dealer_socket 600_000;
let proxy_socket =
Zmq.Socket.create zmq_context Zmq.Socket.dealer
in
Zmq.Socket.connect proxy_socket "inproc://dealer";
let router_socket =
Zmq.Socket.create zmq_context Zmq.Socket.router
and address =
Printf.sprintf "ipc://%s:%d" Qmcchem_config.dev_shm (port);
in
bind_socket "ROUTER" router_socket address;
Zmq.Socket.set_receive_high_water_mark router_socket 100000;
Zmq.Socket.set_send_high_water_mark router_socket 100000;
Zmq.Socket.set_immediate router_socket true;
Zmq.Socket.set_linger_period router_socket 600_000;
(* Pull socket for computed data *)
let push_socket =
Zmq.Socket.create zmq_context Zmq.Socket.push
and address =
Printf.sprintf "tcp://%s:%d" dataserver_address (port+2-10)
in
Zmq.Socket.connect push_socket address;
Zmq.Socket.set_linger_period push_socket 600_000;
let pull_socket =
Zmq.Socket.create zmq_context Zmq.Socket.pull
and address =
Printf.sprintf "ipc://%s:%d" Qmcchem_config.dev_shm (port+2);
in
bind_socket "PULL" pull_socket address;
(* Handles messages coming into the ROUTER socket. *)
let handle_router () =
let raw_msg =
Zmq.Socket.recv_all ~block:false router_socket
in
let header, msg =
let rec aux header = function
| "" :: msg -> List.rev ("" :: header), Message.create msg
| head :: tail -> aux (head::header) tail
| _ -> failwith "Too many routers in the middle"
in
aux [] (List.rev @@ List.rev_map String.trim raw_msg)
in
let handle message =
match message with
| Message.GetWalkers _
| Message.Ezfio _
| Message.Test ->
Zmq.Socket.send_all proxy_socket raw_msg
| Message.Register _
| Message.Unregister _ ->
Zmq.Socket.send_all dealer_socket raw_msg
| Message.Walkers (_, _, _)
| Message.Property _ ->
failwith "Bad message"
| Message.Error _ -> ()
in handle msg
in
let handle_dealer () =
Zmq.Socket.recv_all ~block:false dealer_socket
|> Zmq.Socket.send_all router_socket
in
let handle_proxy () =
Zmq.Socket.recv_all ~block:false proxy_socket
|> Zmq.Socket.send_all router_socket
in
let select_n_of ~n ~len l =
let a =
Array.of_list l
in
let s =
(Array.length a)/ len
in
let fetch i =
let rec loop accu = function
| -1 -> accu
| k -> loop ((Array.get a (i*len+k)) :: accu) (k-1)
in
loop [] (len-1)
in
let rec select accu = function
| 0 -> accu
| i -> let new_accu =
(fetch @@ Random.int s) :: accu
in
select new_accu (i-1)
in
select [] n
|> List.concat
in
(* Handles messages coming into the PULL socket. *)
let handle_pull () =
let message =
Zmq.Socket.recv_all ~block:false pull_socket
in
let new_message =
match message with
| "elec_coord":: hostname :: pid :: id :: n_str :: rest ->
let n =
int_of_string n_str
in
let len =
if !walk_num = 0 then n else
n / !walk_num
in
if (n < 5*len) then
message
else
List.concat [ [ "elec_coord" ; hostname ; pid ; id ;
string_of_int (5*len)] ; ( select_n_of ~n:5 ~len rest ) ]
| _ -> message
in
Zmq.Socket.send_all push_socket new_message
in
(* Polling item to poll ROUTER and PULL sockets. *)
let pollitem =
Zmq.Poll.mask_of
[| (router_socket , Zmq.Poll.In) ;
(pull_socket , Zmq.Poll.In) ;
(dealer_socket, Zmq.Poll.In) ;
(proxy_socket , Zmq.Poll.In)
|]
in
(* Main loop *)
while (!status <> Status.Stopped)
do
let polling =
Zmq.Poll.poll ~timeout:1000 pollitem
in
if (polling.(0) = Some Zmq.Poll.In) then
handle_router ();
if (polling.(1) = Some Zmq.Poll.In) then
handle_pull ();
if (polling.(2) = Some Zmq.Poll.In) then
handle_dealer ();
if (polling.(3) = Some Zmq.Poll.In) then
handle_proxy ();
done;
List.iter (fun socket ->
Zmq.Socket.set_linger_period socket 1000 ;
Zmq.Socket.close socket)
[ router_socket ; dealer_socket ; push_socket ; pull_socket ; proxy_socket ]
in
Thread.create f
in
(* Start the status thread and the main thread *)
begin
try
(List.iter Thread.join
[ start_status_thread ();
start_log_thread ();
start_proxy_thread ();
start_main_thread ();
])
with
| err ->
begin
print_endline "Trapped error. Waiting 10 seconds...";
status := Status.Stopping;
Unix.sleep 10 ;
raise err
end
end;
(* Wait for the qmc process to complete *)
try
ignore (Watchdog.join ());
terminate ()
with
| error ->
begin
terminate ();
raise error
end