Instrumenting Ruby Methods



Instrumentation is the addition of measurement to code - for example timing how long Ruby is spending in a given method. There are many approaches to adding instrumentation to code in Ruby - whether it’s using 3rd party services like New Relic and Datadog, using libraries like Rubyprof, or even plain old logging. Here I propose an unintrusive Ruby 2.0+ technique to add instrumentation to arbitrary methods. If you want to jump straight to the proposed code without the explanation of how or why we got there, here’s your TLDR.

Instrumenting Code Directly Is Messy

One thing that bothers me when adding custom instrumentation to code is how intrusive it can be. Sometimes the code necessary to add measurements around a process are more code than the process itself. If you intertwine the instrumenting code with the code that it’s intended to measure, it obscures the intent of the original code.

Coupling

If you use a library for instrumentation, and add that instrumentation to code all over your codebase, it can quickly turn into a broad but shallow coupling to that library. For example imagine that you started a project using New Relic and it grew to a point where there were dozens of custom calls to New Relic’s instrumentation - so far so good. What if you stop using New Relic in the future? Or if the instrumentation API changes? Or you notice a subtle bug in the boilerplate instrumenting code you’ve sprinkled everywhere? Now you have dozens of files to modify in order to get instrumentation working properly again.

Not Convinced?

If you’ve made it this far, you may be thinking “Well that’s just great. Instrumenting is useful, but don’t add instrumentation directly to the code. So what ARE you supposed to be doing?!” So let’s dive into real code example to illustrate.

class Sleeper def sleep Kernel . sleep 1 end def deep_sleep Kernel . sleep 2 end end

OK, we have a contrived example! Now let’s add some instrumentation!

Here’s an example of what New Relic instrumentation might look like.

class Sleeper extend :: NewRelic :: Agent :: MethodTracer def sleep value = nil self . class . trace_execution_scoped ([ 'sleep' ]) do value = Kernel . sleep 1 end value end def deep_sleep value = nil self . class . trace_execution_scoped ([ 'deep_sleep' ]) do Kernel . sleep 2 end value end end

There’s a lot of repetition in there, but also this add methods to the Sleeper class and there are New Relic-specific method calls alongside the code that’s being instrumented.

Let’s revert back to the original implementation of Sleeper . How might we be able to add instrumentation WITHOUT changing the Sleeper class? Here’s a first pass:

module InstrumentedSleep def sleep value = nil self . class . trace_execution_scoped ([ 'sleep' ]) { value = super } value end def prepended ( klass ) klass . extend :: NewRelic :: Agent :: MethodTracer unless klass . is_a? ( :: NewRelic :: Agent :: MethodTracer ) end end module InstrumentedDeepSleep def deep_sleep value = nil self . class . trace_execution_scoped ([ 'deep_sleep' ]) { value = super } value end def prepended ( klass ) klass . extend :: NewRelic :: Agent :: MethodTracer unless klass . is_a? ( :: NewRelic :: Agent :: MethodTracer ) end end Sleeper . prepend InstrumentedSleep Sleeper . prepend InstrumentedDeepSleep

Why prepend?

Prepending gives us a way to insert our module in the method lookup chain. When you call Sleeper.sleep it will resolve which sleep method to execute in the order of its ancestors array. Prepend puts a module first in the ancestor list, before even the Class itself. The order of resolving methods in this example will then will be:

InstrumentedDeepSleep InstrumentedSleep Sleeper Object Kernel BasicObject

If you had used include , the order of the ancestry, and how Ruby would attempt to resolve the method being called would look more like this:

Sleeper InstrumentedDeepSleep InstrumentedSleep Object Kernel BasicObject

Also worth noting that we used the prepended hook to extend the New Relic code

It’s a lot of work to create a Module per method

The only difference between the Instrumented modules is the name of the method to instrument. If only there was a way to write a template for this type of Module , and generate a new module every place we want to instrument. It so-happens there IS a handy way to do that - enter the Module Builder pattern.

class Intrumentation < Module def initialize ( method ) @method = method define_method ( method ) do |* args , & block | value = nil self . class . trace_execution_scoped ([ @method ]) { value = super ( * args , & block ) } value end end def prepended ( klass ) klass . extend :: NewRelic :: Agent :: MethodTracer unless klass . is_a? ( :: NewRelic :: Agent :: MethodTracer ) end end Sleeper . prepend Instrumentation . new ( :sleep ) Sleeper . prepend Instrumentation . new ( :deep_sleep )

Not bad! Now we don’t have to define a Module for every method - the Instrumentation class will build modules for us based on the template we’ve provided.

You may have noticed a tweak that was made to the invocation of super - because we are using the block form of define_method we must call super with arguments rather than the implied arguments of a bare call to super . If you try using a plain super Ruby will correct you with an error message. It’s just the way it is - for reasons, I assume.

Making this more-usable

In terms of usability, I think there are a couple of rough edges here. First-off, despite it being a language feature, a lot of people don’t think to prepend modules, and even if it did make sense to a person it’s not-so-natural to prepend a module/class that you instantiate. Maybe I’m too pessimistic about what folks are comfortable with? Lastly, how would you be able to apply this to a Class method? It IS possible, but it’s not obvious.

A more-polished interface might look like this:

module Instrumentor def self . instrument_method ( klass , method , label = " #{ klass . name } . #{ method } " ) unless klass . respond_to? ( method ) raise ArgumentError , " #{ klass . name } does not define #{ method } - unable to instrument #{ label . inspect } " end klass . prepend Instrumentation . new ( method , label ) end def self . instrument_class_method ( klass , method , label = " #{ klass . name } # #{ method } " ) instrument_method ( klass . singleton_class , method , label ) end class Intrumentation < Module def initialize ( method , label ) @method = method @label = label define_method ( method ) do |* args , & block | value = nil self . class . trace_execution_scoped ([ @label ]) { value = super ( * args , & block ) } value end end def inspect klass = self . class . name || self . class . inspect "#< #{ klass } : method= #{ @method . inspect } label= #{ @label . inspect } >" end def prepended ( klass ) klass . extend :: NewRelic :: Agent :: MethodTracer unless klass . is_a? ( :: NewRelic :: Agent :: MethodTracer ) end end end Instrumenter . instrument_method ( Sleeper , :sleep ) Instrumenter . instrument_method ( Sleeper , :deep_sleep ) Instrumenter . instrument_class_method ( Sleeper , :new )

The way we are able to wrap class methods is to pass klass.singleton_class as the class used for prepending the instrumentation module.

I added some other niceties, such as the inspect method which is helpful for describing the module if you look at a class’s ancestors . You may not do that explicitly a lot, but it does come up - for example you might see this in a pry console when you do ls Sleeper .

There’s also now an arbitrary label that can be used for the instrumentation, with some useful defaults. No need to justify that technically-speaking, it’s just nice to have!

There you have it

This presents a friendly API, doesn’t infest the code that is being instrumented, doesn’t pollute the instrumented code’s interface, captures the pattern of instrumention unique to your project in a single place, and is easy to change when your instrumentation strategy changes.