The appoptics_apm gem provides AppOptics APM performance instrumentation for Ruby.

It has the ability to report performance metrics on an array of libraries, databases and frameworks such as Rails, Mongo, Memcache, ActiveRecord, Cassandra, Rack, Resque and more.

It requires an AppOptics account to view metrics. Get yours, it's free.

Note: The repository is now at https://github.com/appoptics/appoptics-apm-ruby Please update your github remotes with git remote set-url origin git@github.com:appoptics/appoptics-apm-ruby.git.

• AppOptics Knowledge Base

Before installing the gem below, make sure that you have the dependencies installed on your host first.

The appoptics_apm gem is available on Rubygems and can be installed with:

gem install appoptics_apm

or added to the end of your Gemfile and running bundle install:

gem 'appoptics_apm'

Make sure to set APPOPTICS_SERVICE_KEY in the environment from where the app or service is run, e.g:

export APPOPTICS_SERVICE_KEY=795fb4947d15275d208c49cfd2412d4a5bf38742045b47236c94c4fe5f5b17c7:<your_app_name>

No special steps are needed to instrument Ruby on Rails. Once part of the bundle, the appoptics gem will automatically detect Rails and instrument on stack initialization.

The appoptics_apm gem provides a Rails generator used to seed an initializer where you can configure and control tracing_mode and other options.

To run the install generator run:

bundle exec rails generate appoptics_apm:install

After the prompts, this will create an initializer: config/initializers/appoptics_apm.rb.

You can instrument your Sinatra application by adding the following code to your config.ru Rackup file:

# If you're not using Bundler.require.  Make sure this is done
# after the Sinatra require directive.
require 'appoptics_apm'

Make sure that the appoptics_apm gem is loaded after Sinatra either by listing gem 'appoptics_apm' after Sinatra in your Gemfile or calling the require 'appoptics_gem' directive after Sinatra is loaded.

With this, the appoptics_apm gem will automatically detect Sinatra on boot and instrument key components.

As long as the appoptics_apm gem is in your Gemfile (inserted after the gem 'padrino' directive) and you are calling Bundler.require, the appoptics_apm gem will automatically instrument Padrino applications.

If you need to set AppOpticsAPM::Config values on stack boot, you can do so by adding the following to your config/boot.rb file:

Padrino.before_load do
  # Verbose output of instrumentation initialization
  AppOpticsAPM
end

You can instrument your Grape application by adding the following code to your config.ru Rackup file:

    # If you're not using Bundler.require.  Make sure this is done
    # after the Grape require directive.
    require 'appoptics_apm'

    ...

    class App < Grape::API
      use AppOpticsAPM::Rack
    end

Make sure that the appoptics gem is loaded after Grape either by listing gem 'appoptics_apm' after Grape in your Gemfile or calling the require 'appoptics_apm' directive after Grape is loaded.

You must explicitly tell your Grape application to use AppOpticsAPM::Rack for tracing to occur.

The appoptics_apm gem has the ability to instrument any arbitrary Ruby application or script.

require 'rubygems'
require 'bundler'

Bundler.require

require 'appoptics_apm'

You can add even more visibility into any part of your application or scripts by adding custom instrumentation.

You can instrument any arbitrary block of code using AppOpticsAPM::SDK.trace.

# layer_name will show up in the AppOptics app dashboard
layer_name = 'subsystemX'

# report_kvs are a set of information Key/Value pairs that are sent to
# AppOptics dashboard along with the performance metrics. These KV
# pairs are used to report request, environment and/or client specific
# information.

report_kvs = {}
report_kvs[:mykey] = @client.id

AppOpticsAPM::SDK.trace(layer_name, report_kvs) do
  # the block of code to be traced
end

AppOpticsAPM::SDK.trace is used within the context of a request. It will follow the upstream state of the request being traced. i.e. the block of code will only be traced when the parent request is being traced.

This tracing state of a request can also be queried by using AppOpticsAPM.tracing?.

If you need to instrument code outside the context of a request (such as a cron job, background job or an arbitrary ruby script), use AppOpticsAPM::SDK.start_trace instead which will initiate a new trace based on configuration and probability (based on the sample rate).

require 'rubygems'
require 'bundler'

Bundler.require

# Make sure appoptics_apm is at the bottom of your Gemfile.
# This is likely redundant but just in case.
require 'appoptics_apm'
 

# Tracing mode can be :enabled or :disabled
AppOpticsAPM::Config[:tracing_mode] = :enabled
 
#
# Update April 9, 2015 - this is done automagically now
# and doesn't have to be called manually
#
# Load library instrumentation to auto-capture stuff we know about...
# e.g. ActiveRecord, Cassandra, Dalli, Redis, memcache, mongo
# TraceView::Ruby.load
 
# Some KVs to report to the dashboard
report_kvs = {}
report_kvs[:command_line_params] = ARGV.to_s
report_kvs[:user_id] = `whoami`
 
AppOpticsAPM::SDK.start_trace('my_background_job', nil, report_kvs ) do
  #
  # Initialization code
  #
  
  tasks = get_all_tasks
  
  tasks.each do |t|
    # Optional: Here we embed another 'trace' to separate actual 
    # work for each task.  In the traces dashboard this will show 
    # up as a large 'my_background_job' parent layer with many 
    # child 'task' layers.
    AppOpticsAPM::SDK.trace('task', { :task_id => t.id }) do
      t.perform
    end
  end
  
  #
  # cleanup code
  #
end
 

# Note that we use 'start_trace' in the outer block and 'trace' for
# any sub-blocks of code we wish to instrument.  The arguments for
# both methods vary slightly. 

Find more details in the RubyDoc page on how to use the Tracing SDK in an independent Ruby script.

If you run into a problem, find a bug, or would like to request an enhancement, feel free to contact our tech support support@appoptics.com.

You are obviously a person of great sense and intelligence. We happily appreciate all contributions to the appoptics gem whether it is documentation, a bug fix, new instrumentation for a library or framework or anything else we haven't thought of.

We welcome you to send us PRs. We also humbly request that any new instrumentation submissions have corresponding tests that accompany them. This way we don't break any of your additions when we (and others) make changes after the fact.

The appoptics gem uses a standard gem layout. Here are the notable directories.

lib/appoptics/inst               # Auto load directory for various instrumented libraries
lib/appoptics/frameworks         # Framework instrumentation directory
lib/appoptics/frameworks/rails   # Files specific to Rails instrumentation
lib/rails                        # A Rails required directory for the Rails install generator
lib/api                          # The AppOpticsAPM Tracing API: layers, logging, tracing
ext/oboe_metal                   # The Ruby c extension that links against the system liboboe library

The appoptics gem is built with the standard gem build command passing in the gemspec:

gem build appoptics_apm.gemspec

Custom instrumentation for a library, database or other service can be authored fairly easily. Generally, instrumentation of a library is done by wrapping select operations of that library and timing their execution using the AppOpticsAPM Tracing SDK which then reports the metrics to the users' AppOptics dashboard.

Here, I'll use a stripped down version of the Dalli instrumentation (lib/appoptics/inst/dalli.rb) as a quick example of how to instrument a client library (the dalli gem).

The Dalli gem nicely routes all memcache operations through a single perform operation. Wrapping this method allows us to capture all Dalli operations called by an application.

First, we define a module (AppOpticsAPM::Inst::Dalli) and our own custom perform_with_appoptics method that we will use as a wrapper around Dalli's perform method. We also declare an included method which automatically gets called when this module is included by another.
See Module#included Ruby reference documentation.

module AppOpticsAPM
  module Inst
    module Dalli
      include AppOpticsAPM::API::Memcache
 
      def self.included(cls)
        cls.class_eval do
          if ::Dalli::Client.private_method_defined? :perform
            alias perform_without_appoptics perform
            alias perform perform_with_appoptics
          end
        end
      end
 
      def perform_with_appoptics(*all_args, &blk)
        op, key, *args = *all_args
 
        if AppOpticsAPM.tracing?
          opts = {}
          opts[:KVOp] = op
          opts[:KVKey] = key
 
          AppOpticsAPM::SDK.trace('memcache', opts || {}) do
            result = perform_without_appoptics(*all_args, &blk)
            if op == :get and key.class == String
                AppOpticsAPM::API.log_info('memcache', { :KVHit => memcache_hit?(result) })
            end
            result
          end
        else
          perform_without_appoptics(*all_args, &blk)
        end
      end
       
    end
  end
end

Second, we tail onto the end of the instrumentation file a simple ::Dalli::Client.module_eval call to tell the Dalli module to include our newly defined instrumentation module. Doing this will invoke our previously defined included method.

if defined?(Dalli) and AppOpticsAPM::Config[:dalli][:enabled]
  ::Dalli::Client.module_eval do
    include AppOpticsAPM::Inst::Dalli
  end
end

Third, in our wrapper method, we capture the arguments passed in, collect the operation and key information into a local hash and then invoke the AppOpticsAPM::SDK.trace method to time the execution of the original operation.

The AppOpticsAPM::SDK.trace method calls Dalli's native operation and reports the timing metrics and your custom report_kvs up to AppOptics servers to be shown on the user's dashboard.

Some other tips and guidelines:

• You can point your Gemfile directly at your cloned appoptics gem source by using gem 'appoptics', :path => '/path/to/ruby-appoptics'

• If instrumenting a library, database or service, place your new instrumentation file into the lib/appoptics/inst/ directory. From there, the appoptics gem will detect it and automatically load the instrumentation file.

• If instrumenting a new framework, place your instrumentation file in lib/appoptics/frameworks. Refer to the Rails instrumentation for on ideas on how to load the appoptics gem correctly in your framework.

• Review other existing instrumentation similar to the one you wish to author. lib/appoptics/inst/ is a great place to start.

• Depending on the configured :sample_rate, not all requests will be traced. Use AppOpticsAPM.tracing? to determine of this is a request that is being traced.

• Performance is paramount. Make sure that your wrapped methods don't slow down users applications.

• Include tests with your instrumentation. See test/instrumentation/ for some examples of existing instrumentation tests.

The appoptics gem utilizes a C extension to interface with a core library bundled in with the gem which handles reporting the trace and performance data back to AppOptics servers.

C extensions are usually built on gem install but when working out of a local git repository, it's required that you manually build this C extension for the gem to function.

To make this simpler, we've included a few rake tasks to automate this process:

rake clean               # make sure no old stuff is around
rake fetch_ext_deps      # download c-files
rake compile             # Build the gem's c extension

To see the code related to the C extension, take a look at ext/oboe_metal/extconf.rb for details.

You can read more about Ruby gems with C extensions in the Rubygems Guides.

See the README in the test directory.

Copyright (c) 2018 SolarWinds, LLC

Released under the Librato Open License