* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*)
+open CalendarLib
+
open Unix
open Printf
if v then raise (Goal_result Goal_OK)
let target_all vs = target (List.fold_left (&&) true vs)
let target_exists vs = target (List.fold_left (||) false vs)
-let require () = ()
+let require f = f ()
+
+type period_t = Seconds | Days | Months | Years
+let seconds = (1, Seconds)
+let sec = seconds and secs = seconds and second = seconds
+let minutes = (60, Seconds)
+let min = minutes and mins = minutes and minute = minutes
+let hours = (3600, Seconds)
+let hour = hours
+let days = (1, Days)
+let day = days
+let weeks = (7, Days)
+let week = weeks
+let months = (1, Months)
+let month = months
+let years = (1, Years)
+let year = years
+
+let periodic_jobs = ref []
+
+(* Register a periodic job. *)
+let every ?name i (j, t) f =
+ let period = i*j, t in (* 5 minutes -> ((5 * 60), Seconds) *)
+ periodic_jobs := (period, (name, f)) :: !periodic_jobs
+
+(* [next_time t period] returns the earliest event of [period]
+ strictly after time [t].
+
+ Visualising periods as repeated events on a timeline, this
+ returns [t']:
+
+ {v
+ events: ---+---------+---------+---------+---------+---------+-----
+ times: t t'
+ }
+
+ Note that [period_t] events are not necessarily regular.
+ eg. The start of a month is not a fixed number of seconds
+ after the start of the previous month. 'Epoch' refers
+ to the Unix Epoch (ie. 1970-01-01 00:00:00 UTC).
+
+ If [period = i, Seconds i] then events are when
+ [t' mod i == 0] when t' is the number of seconds since
+ the Epoch. This returns the next t' > t.
+
+ If [period = i, Days] then events happen at
+ midnight UTC every [i] days since the Epoch.
+ This returns the next midnight > t.
+
+ If [period = i, Months] then events happen at
+ midnight UTC on the 1st day of the month every [i] months
+ since the Epoch. This returns midnight on the
+ 1st day of the next month > t.
+
+ If [period = i, Years] then events happen at
+ midnight UTC on the 1st day of the year when
+ [(y - 1970) mod i == 0]. This returns midnight on the
+ 1st day of the next year > t. *)
+
+let next_time =
+ (* Round up 'a' to the next multiple of 'i'. *)
+ let round_up_float a i =
+ let r = mod_float a i in
+ if r = 0. then a +. i else a +. (i -. r)
+ and round_up a i =
+ let r = a mod i in
+ if r = 0 then a + i else a + (i - r)
+ in
+
+ fun t -> function
+ | (i, Seconds) ->
+ let i = float_of_int i in
+ round_up_float t i
+
+ | (i, Years) ->
+ let tm = gmtime t in
+
+ (* Round 'tm' up to the first day of the next year. *)
+ let year = round_up tm.tm_year i in
+ let tm = { tm with tm_sec = 0; tm_min = 0; tm_hour = 0;
+ tm_mday = 1; tm_mon = 0; tm_year = year } in
+ fst (mktime tm)
+
+ | (i, Days) ->
+ let t = Date.from_unixfloat t in
+ let t0 = Date.make 1970 1 1 in
+
+ (* Number of whole days since Unix Epoch. *)
+ let nb_days = Date.Period.safe_nb_days (Date.sub t t0) in
+
+ let nb_days = round_up nb_days i in
+ let t' = Date.add t0 (Date.Period.day nb_days) in
+ Date.to_unixfloat t'
+
+ | (i, Months) ->
+ (* Calculate number of whole months since Unix Epoch. *)
+ let tm = gmtime t in
+ let months = 12 * (tm.tm_year - 70) + tm.tm_mon in
+
+ let months = round_up months i in
+ let t0 = Date.make 1970 1 1 in
+ let t' = Date.add t0 (Date.Period.month months) in
+ Date.to_unixfloat t'
let file_exists = Sys.file_exists
+let directory_exists path =
+ let s =
+ try Some (stat path)
+ with
+ | Unix_error (ENOENT, _, _) -> None
+ | Unix_error (err, _, _) ->
+ let msg = sprintf "directory_exists: %s: %s" path (error_message err) in
+ goal_failed msg in
+ match s with
+ | Some s -> s.st_kind = S_DIR
+ | None -> false
+
let file_newer_than f1 f2 =
let stat f =
try Some (stat f)
sprintf "curl --output /dev/null --silent --head --fail %s" (quote url) in
match Sys.command cmd with
| 0 -> true
- | 1 -> false
+ | 19|22 -> false
| r ->
- let msg = sprintf "curl error testing '%s' (exit code %d)" url r in
+ let msg = sprintf "curl error testing '%s': exit code %d, see curl(1)"
+ url r in
goal_failed msg
let file_contains_string filename str =
sprintf "curl --output %s --silent --fail %s" (quote tmp) (quote url) in
(match Sys.command cmd with
| 0 -> ()
- | 1 ->
+ | 19|22 ->
let msg = sprintf "curl failed to download URL '%s'" url in
goal_failed msg
| r ->
- let msg = sprintf "curl error testing '%s' (exit code %d)" url r in
+ let msg = sprintf "curl error testing '%s': exit code %d, see curl(1)"
+ url r in
goal_failed msg
);
let r = file_contains_string tmp str in
let lines = ref [] in
let rec loop () =
let line = input_line chan in
+ eprintf "%s\n%!" line;
lines := line :: !lines;
loop ()
in
let filename = getenv "HOME" // ".goaljobs-memory" in
let fd = openfile filename [O_RDWR; O_CREAT] 0o644 in
lockf fd (if write then F_LOCK else F_RLOCK) 0;
+ (* If the file is newly created with zero size, write an
+ * empty hash table.
+ *)
+ if (fstat fd).st_size = 0 then (
+ let empty : (string, string) Hashtbl.t = Hashtbl.create 13 in
+ let chan = out_channel_of_descr fd in
+ output_value chan empty;
+ Pervasives.flush chan;
+ ignore (lseek fd 0 SEEK_SET)
+ );
+
+ (* Run the function. *)
let r = try Either (f fd) with exn -> Or (exn) in
lockf fd F_ULOCK 0;
match r with
Hashtbl.replace memory key value;
let chan = out_channel_of_descr fd in
seek_out chan 0;
- output_value chan memory
+ output_value chan memory;
+ Pervasives.flush chan;
)
let memory_delete key =
Hashtbl.remove memory key;
let chan = out_channel_of_descr fd in
seek_out chan 0;
- output_value chan memory
+ output_value chan memory;
+ Pervasives.flush chan;
)
let published_goals = ref []
let msg = sprintf "file '%s' required but not found" filename in
goal_failed msg
)
+let goal_directory_exists path =
+ if not (directory_exists path) then (
+ let msg = sprintf "directory '%s' required but not found" path in
+ goal_failed msg
+ )
let goal_file_newer_than f1 f2 =
if not (file_newer_than f1 f2) then (
let msg = sprintf "file %s is required to be newer than %s" f1 f2 in
goal_failed msg
)
+let guard fn arg =
+ try fn arg; true
+ with
+ | Goal_result (Goal_failed msg) ->
+ prerr_endline ("error: " ^ msg);
+ false
+ | exn ->
+ prerr_endline (Printexc.to_string exn);
+ false
+
(* Run the program. *)
-let init () =
+let rec init () =
let prog = Sys.executable_name in
let prog = Filename.basename prog in
let args = List.rev !args in
(* Was a goal named on the command line? *)
- match args with
+ (match args with
| name :: args ->
(match get_goal name with
- | Some fn -> fn args
+ | Some fn ->
+ exit (if guard fn args then 0 else 1)
| None ->
eprintf "error: no goal called '%s' was found.\n" name;
eprintf "Use %s -l to list all published goals in this script.\n" name;
exit 1
)
| [] ->
- (* Does a published 'all' goal exist? *)
- match get_goal "all" with
- | Some fn -> fn []
- | None ->
- (* No published 'all' goal. This is only a warning, because
- * other top-level code may exist in the script.
- *)
- eprintf "warning: no 'all' goal found.\n"
+ (* If periodic jobs exist, fall through. *)
+ if !periodic_jobs = [] then (
+ (* Does a published 'all' goal exist? *)
+ match get_goal "all" with
+ | Some fn ->
+ exit (if guard fn [] then 0 else 1)
+ | None ->
+ (* No published 'all' goal. *)
+ eprintf "error: no goal called 'all' was found.\n";
+ exit 1
+ )
+ );
+
+ assert (!periodic_jobs <> []);
+
+ (* Run the periodic jobs. Note these run forever, or until killed. *)
+ while true do
+ (* Find the next job to run. *)
+ let now = time () in
+ let jobs = List.map (
+ fun (period, (_, _ as name_f)) ->
+ next_time now period, name_f
+ ) !periodic_jobs in
+ let jobs = List.sort (fun (t1,_) (t2,_) -> compare t1 t2) jobs in
+
+ (* Find all jobs that have the same next time.
+ * XXX When we can handle parallel jobs we can do better here,
+ * but until them run all the ones which have the same time
+ * in series.
+ *)
+ let next_t = int_of_float (fst (List.hd jobs)) in
+ let jobs = List.filter (fun (t, _) -> int_of_float t = next_t) jobs in
+
+ (* Run next job(s) after waiting for the appropriate amount of time. *)
+ let seconds = next_t - int_of_float now in
+ eprintf "next job will run in %s\n%!" (printable_seconds seconds);
+ sleep seconds;
+
+ List.iter (
+ fun (_, (name, f)) ->
+ eprintf "running job: %s\n%!"
+ (match name with Some name -> name | None -> "[unnamed]");
+ ignore (guard f ())
+ ) jobs
+ done
+
+and printable_seconds s =
+ if s < 60 then sprintf "%d seconds" s
+ else if s < 6000 then sprintf "%d minutes, %d seconds" (s/60) (s mod 60)
+ else if s < 86400 then sprintf "%d hours, %d minutes" (s/3600) (s/60)
+ else sprintf "about %d days" (s/86400)
git.annexia.org / goaljobs.git / blobdiff