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Common Lisp Scheduler

Module is designed for regular tasks which need to be performed on specific date or on regular basis. For now main component client is reporting module, but it may be used for scheduling calculation refresh, regular cleanups and similar.

Specifying a task

Task should be added in a format similar to the one used in cron tables. There are a few note-worthy differences. Each entry is composed of six fields separated by space:

MINUTE HOUR DAY-OF-MONTH MONTH DAY-OF-WEEK SEXPRESSION

  • MINUTE Minutes within the hour (0–59)
  • HOUR The hour of the day (0–23)
  • DAY-OF-MONTH The day of the month (1–31)
  • MONTH The month (1–12)
  • DAY-OF-WEEK The day of the week (0–7) where 0 and 7 are Sunday
  • SEXPRESSION The Lisp form to be evaluated at given time.

To specify multiple values for one field, the following operators are available. In the order of precedence,

  • * specifies all valid values
  • M-N specifies a range of values
  • M-N/X or */X steps by intervals of X through the specified range or whole valid range
  • A,B,...,Z enumerates multiple values
  • H specifies random value chosen from all valid values for the field (or specified as argument)

Examples:

# make report every fifteen minutes (perhaps at :07, :22, :37, :52)
H/15 * * * * (ie-reports:make-report "foo" "bar" "zzzur")

# refresh data every ten minutes in the first half of every hour (three times, perhaps at :04, :14, :24)
H(0-29)/10 * * * * (grc:refresh-data)

# once every two hours at 45 minutes past the hour starting at 9:45 AM and finishing at 3:45 PM every weekday.
45 9-16/2 * * 1-5 (grc:restart)

# once in every two hours slot between 9 AM and 5 PM every weekday (perhaps at 10:38 AM, 12:38 PM, 2:38 PM, 4:38 PM)
H H(9-16)/2 * * 1-5 (grc:restart)

# once a day on the 1st and 15th of every month except December
H H 1,15 1-11 * nil

Specifying a task with a function

For convenience it is possible to specify a task as a cons of the time spec (a string time specification and a function with no arguments). Such tasks will be harder to serialize, however they should be fine for systems that doesn't require serialization.

> (scheduler:create-scheduler-task *scheduler*
   (cons "* * * * *" (lambda () (print :minute))))

Using scheduler

Using scheduler is fairly simple. First user has to create a scheduler instance of desired class1. Then add some tasks to it. The last task is to stop the scheduler in the first or in the second minute (depends on whenever we have started it on even or odd minute).

> (defvar *scheduler* (make-instance 'scheduler:in-memory-scheduler))
> (scheduler:create-scheduler-task *scheduler* "@reboot (print :reboot)")
> (scheduler:create-scheduler-task *scheduler* "@shutdown (print :shutdown)")
> (scheduler:create-scheduler-task *scheduler* "* * * * * (print :minute)")
> (scheduler:create-scheduler-task *scheduler* "*/2 * * * * (scheduler:stop-scheduler *scheduler*)")

Important note regarding the last task. It assumes, that start-scheduler is run in the same package as *scheduler* is defined. Listing tasks is also very easy. Same goes for starting the scheduler loop:

> (scheduler:list-scheduler-tasks *scheduler*)
(#<SCHEDULER-IMPLEMENTATION::SCHEDULER-TASK {10035E67C3}>
 #<SCHEDULER-IMPLEMENTATION::SCHEDULER-TASK {10035E16F3}>
 #<SCHEDULER-IMPLEMENTATION::SCHEDULER-TASK {1003501F03}>
 #<SCHEDULER-IMPLEMENTATION::SCHEDULER-TASK {10034FF883}>)
> (scheduler:start-scheduler *scheduler*)
;; Starting scheduler.
;; :REBOOT
;; :MINUTE
;; :SHUTDOWN
;; Exiting scheduler
:STOPPED

Since we have started scheduler in the same thread we should see output in the same console we have started it. If it were started in a separate thread *standard-output* would be bound to wherever *inferior-lisp* output is.

Remember, to add package prefixes to commands. Also keep in mind, that we have no means in the cron specification to set a second of occurance (this may be done with update-scheduler-task) and by default seconds are assigned to a random value between 0-59 (to distribute tasks on the timeline a little).

Now let us update the task which stops the scheduler so it ends in 5 minutes from now:

> (let ((task (find "(scheduler:stop-scheduler *scheduler*)"
                    (scheduler:list-scheduler-tasks *scheduler*)
                    :key #'scheduler:command :test #'equal)))
    (scheduler:update-scheduler-task
     *scheduler* task
     :start-at (local-time:timestamp+ (local-time:now) 5 :minute)))
#<SCHEDULER-IMPLEMENTATION::SCHEDULER-TASK {10032FD393}>
> (scheduler:start-scheduler *scheduler*)
;; Starting scheduler.
;; :REBOOT
;; :MINUTE
;; :MINUTE
;; :MINUTE
;; :MINUTE
;; :SHUTDOWN
;; Exiting scheduler.
:STOPPED

This illustrates a capability of the scheduler to postpone the first occurance of the event. After shutdown is triggered, next occurance is recomputed from the stored time specification.

Another interesting aspect of having next occurance precomputed is a capability of running tasks, which was missed (i.e computer was down, or scheduler wasn't running). If the scheduler encounters task with its activation time set in the past it will start it at some point in the future2.

Note, that the missing task will be performed only once even if more calls were missed. With our scheduler, if we have waited at least two minutes after last invocation and start the scheduler once more it stopped immedietely after start:

> (scheduler:start-scheduler *scheduler*)
;; Starting scheduler.
;; ; missed (scheduler:stop-scheduler *scheduler*) is called
;; :MINUTE ; <- another missed task, we go through full loop iteration before exit
;; :REBOOT ; <- "ordinary" reboot task
;; :SHUTDOWN ; <- "ordinary" shutdown task
;; Exiting scheduler.
:STOPPED

In this case scheduler loop will exit immedietely. It is an important clue, that it is unwise to schedule stop-scheduler call in scheduler, but rather call this function asynchronously.

Extending Scheduler

This is extensible software. Scheduler is arranged around a simple protocol based on CRUD(L) principle. Reference implementation in-memory-scheduler is provided for conveniance and testing.

More advanced backends may be written by subclassing scheduler class for task storage. Optionally scheduler-task may be subclassed to extend tasks.

Each scheduler must have implemented the following methods: create-scheduler-task, read-scheduler-task, update-scheduler-task, delete-scheduler-task and list-scheduler-tasks. Methods implementation should be fairly straightforward.

Each task must obey the protocol based on the following methods: last-occurance, next-occurance, time-specs and command. Methods create-scheduler-task and update-scheduler-task must be aware of the scheduler-task implementation to be able to manipulate its internal structure.

last-occurance and next-occurance should be set on update-scheduler-task invocation according to key parameters last-run and start-at (when present). Format of these dates is an instance of local-time:timestamp and that's what these methods should return.

time-spec is a property list, which stores occurance time specification. It may be a symbol indicating some supported event, like :reboot and :shootdown or a property list.

Property list must have keys :minute :hour :day-of-month :month day-of-week, which values are lists with integer values when task should be repeated, or a keyword :every. For example:

(list :minute (30)
      :hour (1)
      :day-of-month (7 14)
      :month :every
      :day-of-week :every)

Command is a string, which will be read and evaluated each time the task is executed.

Concurrency

The scheduler does not implement safety measures for concurrent applications. Appropriate locks could be introduced by subclassing the scheduler and adding them in appropriate places.

Reference manual

Classes

SCHEDULER

Abstract class from which each driver has to inherit.
IN-MEMORY-SCHEDULER
base-class: SCHEDULER

Reference implementation of a scheduler. Data is kept in a
memory. Class may be instantiated.
TASK                                                  [class]
readers: TIME-SPECS, COMMAND, LAST-OCCURANCE, NEXT-OCCURANCE

Class representing a single task. All tasks maintained by the
scheduler must be instances of this class.

Protocols

CREATE-SCHEDULER-TASK                                  [generic function]
args: SCHEDULER ENTRY

Parse ENTRY and add the task to SCHEDULER.


CREATE-SCHEDULER-TASK                                            [method]
args: (scheduler SCHEDULER) (entry string)

The method parses a cron-like entry (as specified in the documentation)
and creates an instance of TASK. Then calls:

    (create-scheduler-task scheduler new-task)
UPDATE-SCHEDULER-TASK                                  [generic function]
args: SCHEDULER ENTRY &key &allow-other-keys

Update the task designated by ENTRY in SCHEDULER.


UPDATE-SCHEDULER-TASK                                            [method]
args: (scheduler SCHEDULER) (task TASK) &key cron-entry last-run start-at

When CRON-ENTRY is a string, then it is parsed the same as the default
method on CREATE-SCHEDULER-TASK parses its entry. After updating the
entry, a new command and a new activation time is updated in TASK.

Otherwise LAST-RUN and START-AT, when supplied, are used to update
TASK slots.

It is an error to supply both CRON-ENTRY and LAST-RUN or START-AT.
READ-SCHEDULER-TASK                                    [generic function]
args: SCHEDULER ENTRY

Find the task designated by ENTRY in SCHEDULER. Programmer may specialize
second argument on a desired designator (i.e an UUID).


READ-SCHEDULER-TASK                                              [method]
args: (scheduler SCHEDULER) (entry TASK)

Looks for the task in the result of (LIST-SCHEDULER-TASKS scheduler).

DELETE-SCHEDULER-TASK                                  [generic function]
args: SCHEDULER ENTRY

Delete the task designated by ENTRY in SCHEDULER.
LIST-SCHEDULER-TASKS                                   [generic function]
args: SCHEDULER

Returns a list of all tasks associated with the scheduler.
SCHEDULER:START-SCHEDULER                              [generic function]
args: SCHEDULER

Start the scheduler.


SCHEDULER:START-SCHEDULER                                        [method]
args: (scheduler SCHEDULER)

Starts scheduler in a loop. Function blocks until STOP-SCHEDULER is
called, so it may be wise to start it in another thread. All tasks are
evaluated in the same package that this function is invoked in.

NB: if function is started with

  (bt:make-thread (lambda () (scheduler:start-scheduler *s*)))
  
then the package is CL-USER, because that is how BORDEAUX-THREADS is
implemented.

If the scheduler loop encounters task which was missed (it was meant to be
started in the past) it will schedule this tasks by itself in the near
future (it is not specified when exactly). After each task execution, the
next activation date is recomputed and updated with UPDATE-SCHEDULER-TASK.
SCHEDULER:STOP-SCHEDULER                               [generic function]
args: SCHEDULER

Stop the scheduler.

SCHEDULER:STOP-SCHEDULER                                         [method]
args: (scheduler SCHEDULER)

Stops scheduler. The scheduler task loop should stop after finishing the
current iteration.

Footnotes

  1. Currently only reference scheduler is implemented called in-memory-scheduler. It should be fairly usable for scheduling tasks in running software, but for persistance it may be necessary to write a new backend.

  2. In this case - immedietely, but it is not specifed to allow task distribution to balance the load after restart.

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Extensible Scheduler written in Common Lisp

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