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schedulerJob.ml
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schedulerJob.ml
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(*
Copyright © 2011 MLstate
This file is part of OPA.
OPA is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License, version 3, as published by
the Free Software Foundation.
OPA is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for
more details.
You should have received a copy of the GNU Affero General Public License
along with OPA. If not, see <http://www.gnu.org/licenses/>.
*)
(*
This module is a generic automaton to work
both on K.Operation.t and K.Priority.t.
@author Cedric Soulas
*)
(*
It manages jobs based on 4 states:
- deciding
- managing an error
- executing
- finalizing
The automaton:
--------------------------------------------------------
(1) (decide : 'dec -> ('exe, 'err, 'fin) job_decide)
=> (finalize : 'fin -> unit)
or => (error : 'err -> unit)
or => (execute : 'exe -> unit)
--async--> (callack : 'exe -> 'dec) ==> (1)
--------------------------------------------------------
*)
#<Debugvar:SCHEDULER_DEBUG>
module K = SchedulerKer
module L = SchedulerLog
module E = SchedulerExc
type ('exe, 'err, 'fin) decide = Execute of 'exe | Error of 'err | Finalize of 'fin
type order =
| Do (* try to do the job immediately *)
| Poll (* try polling to do the job *)
| Wait (* already polled, just wait for an event *)
let make
(operation : K.Operation.t)
(priority : K.Priority.t)
(counter: K.Counter.t)
?(force_polling=false)
(fd : Unix.file_descr)
(direction : K.Operation.direction)
(timeout : Time.t option)
(job_decide : 'dec -> ('exe, 'err, 'fin) decide)
(job_execute : 'exe -> 'dec)
(job_error : 'err -> unit)
(job_finalize : 'fin -> unit)
(init : 'dec)
=
let key = K.Counter.get_key counter in
let log = L.job_info key in
let remove order =
match order with
| Do | Poll -> ()
| Wait ->
begin
match timeout with
| Some _ -> K.Priority.remove priority key
| None -> ()
end;
K.Operation.remove operation key;
K.Counter.release_key counter key
in
let order, decr_sync =
if force_polling then
Poll, fun () -> ()
else begin
begin
try
K.Counter.incr_sync counter;
Do, (fun () -> K.Counter.decr_sync counter)
with
| K.Counter.Sync_limit -> Poll, (fun () -> ())
end
end
in
let error order (v:'err) =
remove order;
job_error v;
in
let finalize order (v:'fin) =
log "FIN";
remove order;
L.incr_level ();
job_finalize v;
begin
match order with
| Do -> () (* not yet incr *)
| Poll -> decr_sync ()
| Wait -> () (* yet decr *)
end;
L.decr_level ();
in
let add_timeout order =
match timeout with
| Some time ->
log "PRI" ~s:(string_of_int (Time.in_milliseconds time));
K.Priority.add priority key time (
fun () -> log "TIM"; error order K.Priority.Timeout;
);
| None -> ()
in
let rec decide order (v:'dec) =
match (job_decide v) with
| Finalize v -> finalize order v
| Execute v -> execute order v
| Error v -> log "ERD"; error order v
and execute order (v:'exe) =
match order with
| Do ->
log "EXE";
callback Poll v ()
| Poll ->
log "EXE" ~s:"!";
add_timeout Wait;
K.Operation.add operation fd direction key (callback Wait v) (error Wait)
| Wait ->
log "EXE" ~s:"+";
if K.Operation.mem_key operation key then
K.Operation.replace operation key (callback Wait v) (error Wait)
else
()
and callback order (v:'exe) () =
log "CAL";
#<If> L.incr_level () #<End>;
let exe () =
let v = job_execute v in
#<If> L.decr_level () #<End>;
v
in
let error e =
log "ERX";
#<If> L.decr_level () #<End>;
error order e
in
let cont_error_log s =
#<If> L.decr_level () #<End>;
L.error "io callback" s
in
E.execute_io
(exe)
(error)
(decide order)
cont_error_log
in
begin
match direction with
| K.Operation.In ->
if K.Operation.mem operation fd K.Operation.In then
raise K.Operation.Busy_direction
else ()
| K.Operation.Out -> ()
end;
decide order init;
key