I have a Rails 2.3.10 app with bundler. At startup the memory footprint is quite big (300MB in development mode).

I would like to see how much memory each gem takes on startup.

  • interesting approach, I fear you'd have to do this manually, unless there are some hooks in the gems. Beware of eager conclusions: auto_load could make results lame. – apneadiving Oct 25 '12 at 9:40
  • I'm facing a similar issue. New Relic reports over half a dynos memory being used on Heroku at startup. That's without anyone using the site... – Carlos Cervantes Mar 15 '13 at 6:20
up vote 19 down vote accepted

We had a problem in which our basic Rails app, with no traffic or requests, had a footprint of ~140MB on startup.

We used the following approach to trace the memory requirement of each gem specified in the Gemfile of our app, without having to try to patch bundler.

  1. using rails new myappname generate a new empty rails app
  2. Copy the Gemfile from the main project to this new rails project
  3. run bundle install and then rails server to ensure it is possible to boot up the rails server and that any basic configurations required are loaded
  4. Open up the Gemfile and with the exception of the specification for the rails gem, append require: false at the end of each line. Ensure that any other gems that are specified with one name but required using :require => 'othergemname' are using the older ruby Hash notation so that the pattern match below will catch it.
  5. Run bundle install again to regenerate the Gemfile.lock
  6. Create the following script which will use manually require each gem specified in the Gemfile and log the system memory consumed by the rails process before and after.

    # require_and_profile.rb
    def require_and_profile(gemname = nil)
      unless gemname
        puts "%-20s: %10s | %10s" % ['gem','increment','total']
        return
      end
      # This is how to get memory of calling process in OS X, check host OS for variants
      memory_usage = `ps -o rss= -p #{Process.pid}`.to_i / 1024.0
      require gemname
      puts "%-20s: %10.2f | %10.2f" % [ gemname, (`ps -o rss= -p #{Process.pid}`.to_i / 1024.0 - memory_usage), (`ps -o rss= -p #{Process.pid}`.to_i / 1024.0)]
    end
    
    pattern = /^[^#]*gem[ ]*['"]([^,'"]*)['"][ ,~>0-9\.'"]*(:require[ => ]*['"]([^'"]*)['"][, ])?/
    
    require_and_profile
    File.open('Gemfile').each do |line|
      if line.match(pattern)
      if line.match(pattern)[3]
        require_and_profile line.match(pattern)[3]
      else
          require_and_profile line.match(pattern)[1]
        end
      end
    end
    
  7. Run rails c

  8. load 'require_and_profile.rb'
  9. The output shows how much (in MB) each gem adds to the base app footprint (increment) and what the total footprint is after inclusion of the gem (total).

This helped us identify for example, that we'd been requiring asset-sync in our boot when we only needed it in the :asset group. We do find that on different boot-ups the memory footprint of each gem is not exactly the same, but running it a few times does show you the patterns of which ones are the memory-hungry gems.

  • Fantastic answer, thanks – werkshy Jul 1 '14 at 16:58
  • This approach was really incredible helpful, I discovered that using optimal fog loading for carrierwave (github.com/carrierwaveuploader/…) and an explicit :assets group reduced my memory footprint by 10 Mb. – lacco Oct 8 '14 at 8:40

There is an easier way to do this now with the derailed gem:

add to your gemfile:

gem 'derailed', group: :development

then on the command line from your apps root:

bundle exec derailed bundle:mem

This will print out how much memory each gem takes as it's included.

I would do it as follows:

  • Find the place within bundler where all the gems are required.
  • after each gem is required, get the current object count (c = 0; ObjectSpace.each_object { c += 1 })

This way you'll see which gem causes the most objects being instantiated and therefore indirectly causes most memory usage.

Two caveats though:

  • memory usage is not really linear to number of objects, but you should get a good enough estimate about which gems are the worst offenders
  • as already pointed out: gems might not load all their code when being required, so a gem might causes more memory usage later on when more code is loaded...

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