# frozen_string_literal: true module Facter module Resolvers module Linux class Memory < BaseResolver @semaphore = Mutex.new @fact_list ||= {} @log = Facter::Log.new(self) class << self private def post_resolve(fact_name) @fact_list.fetch(fact_name) { read_meminfo_file(fact_name) } end def read_meminfo_file(fact_name) meminfo_output = Util::FileHelper.safe_read('/proc/meminfo', nil) return unless meminfo_output read_system(meminfo_output) read_swap(meminfo_output) @fact_list[fact_name] end def read_system(output) @fact_list[:total] = kilobytes_to_bytes(output.match(/MemTotal:\s+(\d+)\s/)[1]) @fact_list[:memfree] = kilobytes_to_bytes(output.match(/MemFree:\s+(\d+)\s/)[1]) @fact_list[:used_bytes] = compute_used(@fact_list[:total], reclaimable_memory(output)) @fact_list[:capacity] = compute_capacity(@fact_list[:used_bytes], @fact_list[:total]) end def read_swap(output) total = output.match(/SwapTotal:\s+(\d+)\s/)[1] return if total.to_i.zero? @fact_list[:swap_total] = kilobytes_to_bytes(total) @fact_list[:swap_free] = kilobytes_to_bytes(output.match(/SwapFree:\s+(\d+)\s/)[1]) @fact_list[:swap_used_bytes] = compute_used(@fact_list[:swap_total], @fact_list[:swap_free]) @fact_list[:swap_capacity] = compute_capacity(@fact_list[:swap_used_bytes], @fact_list[:swap_total]) end def kilobytes_to_bytes(quantity) quantity.to_i * 1024 end def reclaimable_memory(output) buffers = kilobytes_to_bytes(output.match(/Buffers:\s+(\d+)\s/)[1]) cached = kilobytes_to_bytes(output.match(/Cached:\s+(\d+)\s/)[1]) s_reclaimable = kilobytes_to_bytes(output.match(/SReclaimable:\s+(\d+)\s/)[1]) @fact_list[:memfree] + buffers + cached + s_reclaimable end def compute_capacity(used, total) format('%.2f', computed_capacity: (used / total.to_f * 100)) + '%' end def compute_used(total, free) total - free end end end end end end