# Initially we used sidetiq, this was a problem: # # 1. No mechnism to add "randomisation" into job execution # 2. No stats about previous runs or failures # 3. Dependency on ice_cube gem causes runaway CPU require_dependency 'distributed_mutex' module Scheduler class Manager attr_accessor :random_ratio, :redis class Runner def initialize(manager) @mutex = Mutex.new @queue = Queue.new @manager = manager @reschedule_orphans_thread = Thread.new do while true sleep 1.minute @mutex.synchronize do reschedule_orphans end end end @keep_alive_thread = Thread.new do while true @mutex.synchronize do keep_alive end sleep (@manager.keep_alive_duration / 2) end end @thread = Thread.new do while true process_queue end end end def keep_alive @manager.keep_alive rescue => ex Discourse.handle_exception(ex, {message: "Scheduling manager keep-alive"}) end def reschedule_orphans @manager.reschedule_orphans! rescue => ex Discourse.handle_exception(ex, {message: "Scheduling manager orphan rescheduler"}) end def process_queue klass = @queue.deq # hack alert, I need to both deq and set @running atomically. @running = true failed = false start = Time.now.to_f info = @mutex.synchronize { @manager.schedule_info(klass) } begin info.prev_result = "RUNNING" @mutex.synchronize { info.write! } klass.new.perform rescue Jobs::HandledExceptionWrapper # Discourse.handle_exception was already called, and we don't have any extra info to give failed = true rescue => e Discourse.handle_exception(e, {message: "Running a scheduled job", job: klass}) failed = true end duration = ((Time.now.to_f - start) * 1000).to_i info.prev_duration = duration info.prev_result = failed ? "FAILED" : "OK" info.current_owner = nil attempts(3) do @mutex.synchronize { info.write! } end rescue => ex Discourse.handle_exception(ex, {message: "Processing scheduled job queue"}) ensure @running = false end def stop! @mutex.synchronize do @thread.kill @keep_alive_thread.kill @reschedule_orphans_thread.kill end end def enq(klass) @queue << klass end def wait_till_done while !@queue.empty? && !(@queue.num_waiting > 0) sleep 0.001 end # this is a hack, but is only used for test anyway sleep 0.001 while @running sleep 0.001 end end def attempts(n) n.times { begin yield; break rescue sleep Random.rand end } end end def self.without_runner(redis=nil) self.new(redis, true) end def initialize(redis = nil, skip_runner = false) @redis = $redis || redis @random_ratio = 0.1 unless skip_runner @runner = Runner.new(self) self.class.current = self end @manager_id = SecureRandom.hex end def self.current @current end def self.current=(manager) @current = manager end def schedule_info(klass) ScheduleInfo.new(klass, self) end def next_run(klass) schedule_info(klass).next_run end def ensure_schedule!(klass) lock do schedule_info(klass).schedule! end end def remove(klass) lock do schedule_info(klass).del! end end def reschedule_orphans! lock do redis.zrange(Manager.queue_key, 0, -1).each do |key| klass = get_klass(key) next unless klass info = schedule_info(klass) if ['QUEUED', 'RUNNING'].include?(info.prev_result) && (info.current_owner.blank? || !redis.get(info.current_owner)) info.prev_result = 'ORPHAN' info.next_run = Time.now.to_i info.write! end end end end def get_klass(name) name.constantize rescue NameError nil end def tick lock do (key, due), _ = redis.zrange Manager.queue_key, 0, 0, withscores: true return unless key if due.to_i <= Time.now.to_i klass = get_klass(key) unless klass # corrupt key, nuke it (renamed job or something) redis.zrem Manager.queue_key, key return end info = schedule_info(klass) info.prev_run = Time.now.to_i info.prev_result = "QUEUED" info.prev_duration = -1 info.next_run = nil info.current_owner = identity_key info.schedule! @runner.enq(klass) end end end def blocking_tick tick @runner.wait_till_done end def stop! @runner.stop! self.class.current = nil end def keep_alive_duration 60 end def keep_alive redis.setex identity_key, keep_alive_duration, "" end def lock DistributedMutex.new(Manager.lock_key).synchronize do yield end end def self.discover_schedules # hack for developemnt reloader is crazytown # multiple classes with same name can be in # object space unique = Set.new schedules = [] ObjectSpace.each_object(Scheduler::Schedule) do |schedule| if schedule.scheduled? next if unique.include?(schedule.to_s) schedules << schedule unique << schedule.to_s end end schedules end @mutex = Mutex.new def self.seq @mutex.synchronize do @i ||= 0 @i += 1 end end def identity_key @identity_key ||= "_scheduler_#{`hostname`}:#{Process.pid}:#{self.class.seq}" end def self.lock_key "_scheduler_lock_" end def self.queue_key "_scheduler_queue_" end def self.schedule_key(klass) "_scheduler_#{klass}" end end end