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# frozen_string_literal: true
# This class uses a custom Ruby patch to allow
# a per-thread memory allocation tracking in a efficient manner
#
# This concept is currently tried to be upstreamed here:
# - https://github.com/ruby/ruby/pull/3978
module Gitlab
module Memory
class Instrumentation
KEY_MAPPING = {
total_allocated_objects: :mem_objects,
total_malloc_bytes: :mem_bytes,
total_mallocs: :mem_mallocs
}.freeze
MUTEX = Mutex.new
def self.available?
Thread.respond_to?(:trace_memory_allocations=) &&
Thread.current.respond_to?(:memory_allocations)
end
# This method changes a global state
def self.ensure_feature_flag!
return unless available?
enabled = Feature.enabled?(:trace_memory_allocations, default_enabled: true)
return if enabled == Thread.trace_memory_allocations
MUTEX.synchronize do
# This enables or disables feature dynamically
# based on a feature flag
Thread.trace_memory_allocations = enabled
end
end
def self.start_thread_memory_allocations
return unless available?
ensure_feature_flag!
# it will return `nil` if disabled
Thread.current.memory_allocations
end
# This method returns a hash with the following keys:
# - mem_objects: a number of allocated heap slots (as reflected by GC)
# - mem_mallocs: a number of malloc calls
# - mem_bytes: a number of bytes allocated with a mallocs tied to heap slots
def self.measure_thread_memory_allocations(previous)
return unless available?
return unless previous
current = Thread.current.memory_allocations
return unless current
# calculate difference in a memory allocations
previous.to_h do |key, value|
[KEY_MAPPING.fetch(key), current[key].to_i - value]
end
end
def self.with_memory_allocations
previous = self.start_thread_memory_allocations
yield
self.measure_thread_memory_allocations(previous)
end
end
end
end
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