*)
open Whenutils
+open Whenexpr
open Big_int
open Unix
(* See [exit.c]. *)
external _exit : int -> 'a = "whenjobs__exit"
-(* All jobs that are loaded. Maps name -> [job] structure. *)
-let jobs = ref StringMap.empty
-
-(* Map variable names to jobs which depend on that variable. This
- * gives us a quick way to tell which jobs might need to be reevaluated
- * when a variable is set.
- *)
-let dependencies = ref StringMap.empty
-
-(* Current values of variables. Using the referentially transparent
- * type Map is very useful here because it lets us cheaply keep
- * previous values of variables.
- *)
-let variables : variables ref = ref StringMap.empty
-
(* $HOME/.whenjobs *)
let jobsdir = ref ""
-(* Jobs that are running; map of PID -> (job, other data). Note that
- * the job may no longer exist *OR* it may have been renamed,
+(* The state. *)
+let state = ref Whenstate.empty
+
+(* Jobs that are running: a map of PID -> (job, tmpdir, serial, start_time).
+ * Note that the job may no longer exist *OR* it may have been renamed,
* eg. if the jobs file was reloaded.
*)
-let running = ref IntMap.empty
+let runningmap = ref IntMap.empty
+
+(* Serial numbers of running jobs. Map of serial -> PID (in runningmap). *)
+let serialmap = ref BigIntMap.empty
(* Was debugging requested on the command line? *)
let debug = ref false
let esys = Unixqueue.standard_event_system ()
+(* The timer. It's convenient to have this as a global variable
+ * because (a) there should only be one timer (which fires when the
+ * soonest every-job becomes ready), and (b) it's complicated to track
+ * that timer and avoid it getting double-scheduled (eg. when we
+ * reload the jobs file) without having a global variable.
+ *)
+let timer_group = ref None
+
let rec init j d =
jobsdir := j;
debug := d;
let addr = sprintf "%s/socket" !jobsdir in
(try unlink addr with Unix_error _ -> ());
+ (* Create the Unix domain socket server. *)
server := Some (
Whenproto_srv.When.V1.create_server
~proc_reload_file
~proc_get_variable
~proc_get_variable_names
~proc_exit_daemon
+ ~proc_get_jobs
+ ~proc_cancel_job
+ ~proc_start_job
(Rpc_server.Unix addr)
Rpc.Tcp (* not TCP, this is the same as SOCK_STREAM *)
Rpc.Socket
(* Handle SIGCHLD to clean up jobs. *)
Sys.set_signal Sys.sigchld (Sys.Signal_handle handle_sigchld);
- (* Initialize the variables. XXX Eventually this will be saved
- * and loaded from a persistent store.
- *)
- variables := StringMap.add "JOBSERIAL" (T_int zero_big_int) !variables
+ (* Initialize the variables. *)
+ state := Whenstate.set_variable !state "JOBSERIAL" (T_int zero_big_int)
and proc_reload_file () =
if !debug then Syslog.notice "remote call: reload_file";
if !debug then Syslog.notice "remote call: set_variable %s" name;
try
- (* Don't permit certain names. *)
- if name = "JOBSERIAL" then
- failwith "JOBSERIAL variable cannot be set";
-
- let len = String.length name in
- if len = 0 then
- failwith "variable name is an empty string";
- if name.[0] <> '_' && not (isalpha name.[0]) then
- failwith "variable name must start with alphabetic character or underscore";
-
- let rec loop i =
- if i >= len then ()
- else if name.[i] <> '_' && not (isalnum name.[i]) then
- failwith "variable name contains non-alphanumeric non-underscore character"
- else loop (i+1)
- in
- loop 1;
+ check_valid_variable_name name;
let value = variable_of_rpc value in
- variables := StringMap.add name value !variables;
+ state := Whenstate.set_variable !state name value;
(* Which jobs need to be re-evaluated? *)
- let jobnames = try StringMap.find name !dependencies with Not_found -> [] in
- reevaluate_whenjobs jobnames;
+ let jobs = Whenstate.get_dependencies !state name in
+ reevaluate_whenjobs jobs;
`ok
with
and proc_get_variable name =
if !debug then Syslog.notice "remote call: get_variable %s" name;
- try rpc_of_variable (StringMap.find name !variables)
- with (* all non-existent variables are empty strings *)
- Not_found -> `string_t ""
+ rpc_of_variable (Whenstate.get_variable !state name)
and proc_get_variable_names () =
if !debug then Syslog.notice "remote call: get_variable_names";
- (* Only return variables that are non-empty. *)
- let vars = StringMap.fold (
- fun name value xs -> if value <> T_string "" then name :: xs else xs
- ) !variables [] in
+ let vars = Whenstate.get_variable_names !state in
+
+ (* Return variable names as a sorted array. *)
let vars = Array.of_list vars in
Array.sort compare vars;
vars
server := None;
`ok
+and proc_get_jobs () =
+ let running = Array.of_list (IntMap.values !runningmap) in
+ Array.map (
+ fun (job, dir, serial, start_time) ->
+ { Whenproto_aux.job_name = job.job_name;
+ job_serial = string_of_big_int serial;
+ job_tmpdir = dir; job_start_time = Int64.of_float start_time }
+ ) running
+
+and proc_cancel_job serial =
+ try
+ let serial = big_int_of_string serial in
+ let pid = BigIntMap.find serial !serialmap in
+ kill pid 15;
+ `ok
+ with
+ | Not_found -> `error "job not found"
+ | exn -> `error (Printexc.to_string exn)
+
+and proc_start_job jobname =
+ try
+ let job = Whenstate.get_job !state jobname in
+ run_job job;
+ `ok
+ with
+ | Not_found -> `error "job not found"
+ | exn -> `error (Printexc.to_string exn)
+
(* Reload the jobs file. *)
and reload_file () =
let file = sprintf "%s/jobs.cmo" !jobsdir in
- Whenfile.init ();
- let js =
+ (* As we are reloading the file, we want to create a new state
+ * that has no jobs, but has all the variables from the previous
+ * state.
+ *)
+ let s = Whenstate.copy_variables !state Whenstate.empty in
+ Whenfile.init s;
+
+ let s =
try
Dynlink.loadfile file;
- let jobs = Whenfile.get_jobs () in
- Syslog.notice "loaded %d job(s) from %s" (List.length jobs) file;
- jobs
+ let s = Whenfile.get_state () in
+ Syslog.notice "loaded %d job(s) from %s" (Whenstate.nr_jobs s) file;
+ s
with
| Dynlink.Error err ->
let err = Dynlink.error_message err in
| exn ->
failwith (Printexc.to_string exn) in
- (* Set 'jobs' and related global variables. *)
- let () =
- let map = List.fold_left (
- fun map j ->
- let name = j.job_name in
- StringMap.add name j map
- ) StringMap.empty js in
- jobs := map in
-
- let () =
- let map = List.fold_left (
- fun map j ->
- let deps = dependencies_of_job j in
- let name = j.job_name in
- List.fold_left (
- fun map d ->
- let names = try StringMap.find d map with Not_found -> [] in
- StringMap.add d (name :: names) map
- ) map deps
- ) StringMap.empty js in
- dependencies := map in
+ state := s;
(* Re-evaluate all when jobs. *)
- reevaluate_whenjobs (StringMap.keys !jobs);
+ reevaluate_whenjobs ~onload:true (Whenstate.get_whenjobs !state);
(* Schedule the next every job to run. *)
schedule_next_everyjob ()
-(* Re-evaluate each named when-statement job, in a loop until we reach
- * a fixpoint. Run those that need to be run. every-statement jobs
- * are ignored here.
+(* Re-evaluate each when-statement job, in a loop until we reach
+ * a fixpoint. Run those that need to be run.
*)
-and reevaluate_whenjobs jobnames =
- let rec loop set jobnames =
+and reevaluate_whenjobs ?onload jobs =
+ let rec loop set jobs =
let set' =
List.fold_left (
- fun set jobname ->
- let job =
- try StringMap.find jobname !jobs
- with Not_found -> assert false in
- assert (jobname = job.job_name);
-
- let r, job' =
- try job_evaluate job !variables
+ fun set job ->
+ let r, state' =
+ try Whenstate.evaluate_whenjob ?onload !state job
with Invalid_argument err | Failure err ->
Syslog.error "error evaluating job %s (at %s): %s"
- jobname (Camlp4.PreCast.Ast.Loc.to_string job.job_loc) err;
- false, job in
+ job.job_name (Camlp4.PreCast.Ast.Loc.to_string job.job_loc) err;
+ false, !state in
- jobs := StringMap.add jobname job' !jobs;
+ state := state';
if !debug then
- Syslog.notice "evaluate %s -> %b\n" jobname r;
+ Syslog.notice "evaluate %s -> %b\n" job.job_name r;
- if r then StringSet.add jobname set else set
- ) set jobnames in
+ if r then StringSet.add job.job_name set else set
+ ) set jobs in
if StringSet.compare set set' <> 0 then
- loop set' jobnames
+ loop set' jobs
else
set'
in
- let set = loop StringSet.empty jobnames in
+ let set = loop StringSet.empty jobs in
let jobnames = StringSet.elements set in
+
(* Ensure the jobs always run in predictable (name) order. *)
let jobnames = List.sort compare_jobnames jobnames in
- List.iter run_job
- (List.map (fun jobname -> StringMap.find jobname !jobs) jobnames)
+
+ (* Run the jobs. *)
+ List.iter run_job (List.map (Whenstate.get_job !state) jobnames)
(* Schedule the next every-statement job to run, if there is one. We
* look at the every jobs, work out the time that each must run at,
let t = time () in
(* Get only everyjobs. *)
- let jobs = StringMap.values !jobs in
- let jobs = filter_map (
+ let jobs = Whenstate.get_everyjobs !state in
+ let jobs = List.map (
function
- | { job_cond = Every_job period } as job -> Some (job, period)
- | { job_cond = When_job _ } -> None
+ | { job_cond = Every_job period } as job -> (job, period)
+ | { job_cond = When_job _ } -> assert false
) jobs in
(* Map everyjob to next time it must run. *)
(string_of_time_t t);
(* Schedule them to run at time t. *)
- let g = Unixqueue.new_group esys in
+ let g = new_timer_group () in
let t_diff = t -. Unix.time () in
let t_diff = if t_diff < 0. then 0. else t_diff in
let run_jobs () =
- Unixqueue.clear esys g; (* Delete the timer. *)
+ delete_timer_group (); (* Delete the timer. *)
List.iter run_job jobs;
schedule_next_everyjob ()
in
)
)
-and string_of_time_t t =
- let tm = gmtime t in
- sprintf "%04d-%02d-%02d %02d:%02d:%02d UTC"
- (1900+tm.tm_year) (1+tm.tm_mon) tm.tm_mday
- tm.tm_hour tm.tm_min tm.tm_sec
+and new_timer_group () =
+ delete_timer_group ();
+ let g = Unixqueue.new_group esys in
+ timer_group := Some g;
+ g
+
+and delete_timer_group () =
+ match !timer_group with
+ | None -> ()
+ | Some g ->
+ Unixqueue.clear esys g;
+ timer_group := None
and run_job job =
- let () =
- (* Increment JOBSERIAL. *)
- let serial =
- match StringMap.find "JOBSERIAL" !variables with
- | T_int serial ->
- let serial = succ_big_int serial in
- variables := StringMap.add "JOBSERIAL" (T_int serial) !variables;
- serial
- | _ -> assert false in
-
- Syslog.notice "running %s (JOBSERIAL=%s)"
- job.job_name (string_of_big_int serial) in
+ (* Increment JOBSERIAL. *)
+ let serial =
+ match Whenstate.get_variable !state "JOBSERIAL" with
+ | T_int serial ->
+ let serial = succ_big_int serial in
+ state := Whenstate.set_variable !state "JOBSERIAL" (T_int serial);
+ serial
+ | _ -> assert false in
+
+ Syslog.notice "running %s (JOBSERIAL=%s)"
+ job.job_name (string_of_big_int serial);
(* Create a temporary directory. The current directory of the job
* will be in this directory. The directory is removed when the
chdir dir;
(* Set environment variables corresponding to each variable. *)
- StringMap.iter
- (fun name value -> putenv name (string_of_variable value)) !variables;
+ List.iter
+ (fun (name, value) -> putenv name (string_of_variable value))
+ (Whenstate.get_variables !state);
(* Set the $JOBNAME environment variable. *)
putenv "JOBNAME" job.job_name;
(* Create a temporary file containing the shell script fragment. *)
- let script = dir // "script" in
+ let script = dir // "script.sh" in
let chan = open_out script in
+ fprintf chan "set -e\n"; (* So that jobs exit on error. *)
output_string chan job.job_script.sh_script;
close_out chan;
chmod script 0o700;
+ let shell = try getenv "SHELL" with Not_found -> "/bin/sh" in
+
+ (* Set output to file. *)
+ let output = dir // "output.txt" in
+ let fd = openfile output [O_WRONLY; O_CREAT; O_TRUNC; O_NOCTTY] 0o600 in
+ dup2 fd stdout;
+ dup2 fd stderr;
+ close fd;
+
(* Execute the shell script. *)
- (try execvp "bash" [| "bash"; "-c"; script |];
+ (try execvp shell [| shell; "-c"; script |];
with Unix_error (err, fn, _) ->
Syslog.error "%s failed: %s: %s" fn script (error_message err)
);
(* Remember this PID, the job and the temporary directory, so we
* can clean up when the child exits.
*)
- running := IntMap.add pid (job, dir) !running
+ runningmap := IntMap.add pid (job, dir, serial, time ()) !runningmap;
+ serialmap := BigIntMap.add serial pid !serialmap
and tmpdir () =
let chan = open_in "/dev/urandom" in
let pid, status = waitpid [WNOHANG] 0 in
if pid > 0 then (
(* Look up the PID in the running jobs map. *)
- let job, dir = IntMap.find pid !running in
- running := IntMap.remove pid !running;
- cleanup_job job dir
+ let job, dir, serial, time = IntMap.find pid !runningmap in
+ runningmap := IntMap.remove pid !runningmap;
+ serialmap := BigIntMap.remove serial !serialmap;
+ post_job job dir serial time status
)
with Unix_error _ | Not_found -> ()
-and cleanup_job job dir =
+and post_job job dir serial time status =
+ (* If there is a post function, run it. *)
+ (match job.job_post with
+ | None -> ()
+ | Some post ->
+ let code =
+ match status with
+ | WEXITED c -> c
+ | WSIGNALED s | WSTOPPED s -> 1 in
+ let result = {
+ res_job_name = job.job_name;
+ res_serial = serial;
+ res_code = code;
+ res_tmpdir = dir;
+ res_output = dir // "output.txt";
+ res_start_time = time
+ } in
+ try post result
+ with
+ | Failure msg ->
+ Syslog.error "job %s post function failed: %s" job.job_name msg
+ | exn ->
+ Syslog.error "job %s post function exception: %s"
+ job.job_name (Printexc.to_string exn)
+ );
+
(* This should be safe because the path cannot contain shell metachars. *)
let cmd = sprintf "rm -rf '%s'" dir in
ignore (Sys.command cmd)
git.annexia.org / whenjobs.git / blobdiff