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Memstat: Fast memory statistics

Build Status

memstat offers a fast way to retrieve the memory usage of the current process, by providing object mapping to /proc/[pid]/status and /proc/[pid]/smaps on Linux.

If you've ever called the ps -o rss command from inside a Ruby process to capture real memory usage, chances are, you've already learned that it is very slow.

That's because shelling out ps creates an entire copy of the ruby process - typically 70-150MB for a Rails app - then wipe out those memory with the executable of ps. Even with copy-on-write and POSIX-spawn optimization, you can't beat the speed of directly reading statistics from memory that is maintained by the kernel.

For a typical Rails app, memstat is 130 times faster than ps -o rss:

Benchmark.bm(10) do |x|
  x.report("ps:")       { 100.times.each { `ps -o rss -p #{Process.pid}`.strip.to_i } }
  x.report("memstat:")  { 100.times.each { Memstat::Proc::Status.new(:pid => Process.pid).rss } }
end

                 user     system      total        real
ps:          0.110000   4.280000   6.260000 (  6.302661)
memstat:     0.040000   0.000000   0.040000 (  0.048166)

Tested on Linode with a Rails app of 140MB memory usage.

Installation

Add this line to your application's Gemfile:

gem 'memstat'

Or install it yourself as:

$ gem install memstat

Usage

status = Memstat::Proc::Status.new(pid: Process.pid)

status.peak   # Peak VM size
status.size   # Current VM size
status.lck    # mlock-ed memory size (unswappable)
status.pin    # pinned memory size (unswappable and fixed physical address)
status.hwm    # Peak physical memory size
status.rss    # Current physical memory size
status.data   # Data area size
status.stk    # Stack size
status.exe    # Text (executable) size
status.lib    # Loaded library size
status.pte    # Page table size
status.swap   # Swap size

See details for each item.

For shared memory status between forked processes:

smaps = Memstat::Proc::Smaps.new(pid: Process.pid)

smaps.size
smaps.rss
smaps.pss
smaps.shared_clean
smaps.shared_dirty
smaps.private_clean
smaps.private_dirty
smaps.swap

See this question.

Command Line

memstat also comes with a command line utility to report detailed memory statistics by aggregating /proc/[pid]/smaps.

This is useful to examine the effectiveness of copy-on-write for forking clusters like Unicorn, Passenger, Puma and Resque.

Usage:

$ memstat smaps [PID]

will give you the following result:

Process:             13405
Command Line:        unicorn master -D -E staging -c /path/to/current/config/unicorn.rb
Memory Summary:
  size                      274,852 kB
  rss                       131,020 kB
  pss                        66,519 kB
  shared_clean                8,408 kB
  shared_dirty               95,128 kB
  private_clean                   8 kB
  private_dirty              27,476 kB
  swap                            0 kB

In this case, 103,536 kB out of 131,020 kB is shared, which means 79% of its memory is shared with worker processes.

For more details, read this gist.

Out-of-band GC Usage

Ruby 2.1 introduced generational garbage collection. It is a major improvement in terms of shorter GC pauses and overall higher throughput, but that comes with a drawback of potential memory bloat.

You can mitigate the bloat by manually running GC.start, but like Unicorn's out-of-band GC, doing it after every request can seriously hurt the performance. You want to run GC.start only when the process gets larger than X MB.

Check the memory usage, and run GC if it's too big.

if Memstat.linux?
  status = Memstat::Proc::Status.new(pid: Process.pid)
  if status.rss > 150.megabytes
    GC.start
  end
end

For Unicorn, add these lines to your config.ru (should be added above loading environment) to check memory size on every request and run GC out-of-band:

require 'memstat'

use Memstat::OobGC::Unicorn, 150*(1024**2)  # Invoke GC if the process is bigger than 150MB

Changelog

0.1.0, release 2014-04-03

  • Initial release

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Fast memory statistics and better out-of-band GC

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