An attempt to wrap portions of the Beanstalk protocol with EventMachine. Every command will return a deferrable object. That object will succeed or fail depending on the reply returned from Beanstalk.
One thing to keep in mind. The Beanstalk protocol executes all commands serially. So, if you send a reserve command and there are no jobs Beanstalk _won’t_ process any of the commands that come after the reserve until the reserve completes.
This is a bit of a gotcha when sending a series of reserve, delete, etc and there are no available jobs.
- EventMachine - RSpec (to run the tests)
EM.run { jack = EMJack::Connection.new r = jack.use('mytube') r.callback { |tube| puts "Using #{tube}" } r = jack.reserve r.callback do |job| puts job.jobid r2 = jack.delete(job) { puts "Successfully deleted" } end r = jack.put("my message", :ttr => 300) { |jobid| puts "put successful #{jobid}" } r = jack.stats r.callback { |stats| puts "Server up for #{stats['uptime']} seconds" } r = jack.stats(:tube, "mytube") r.callback { |stats| puts "Total jobs #{stats['total-jobs']}" } r = jack.list(:used) r.callback { |tubes| puts "There are #{tubes.length} tubes defined" } } Each of the Jack commands allows an optional block to be provided. If the block is given it will be setup as the callback on the deferrable. EMJack#each_job is useful for scenarios where the client is a job worker and intended to process jobs continuously as they become available. Once the queue is empty, the client will block and wait for a new job. If multiple workers connect to the queue Beanstalkd will round-robin between the workers. EM.run { jack = EMJack::Connection.new jack.each_job do |job| puts "Got job ##{job.jobid}: #{job}" if process(job) r = jack.delete(job) r.callback { puts "*Deleted #{job}*" } else end end def process(job) # Some kind of job processing end }
If you’ve got any questions, comments or bugs, please let me know. You can contact me by email at dj2 at everburning dot com.
Charles Melbye (cmelbye) Peter Kieltyka (pkieltyka) Martyn Loughran (mloughran) Mike Perham (mperham)