# frozen_string_literal: true require 'thread' module Puma # Internal Docs for A simple thread pool management object. # # Each Puma "worker" has a thread pool to process requests. # # First a connection to a client is made in `Puma::Server`. It is wrapped in a # `Puma::Client` instance and then passed to the `Puma::Reactor` to ensure # the whole request is buffered into memory. Once the request is ready, it is passed into # a thread pool via the `Puma::ThreadPool#<<` operator where it is stored in a `@todo` array. # # Each thread in the pool has an internal loop where it pulls a request from the `@todo` array # and proceses it. class ThreadPool class ForceShutdown < RuntimeError end # How long, after raising the ForceShutdown of a thread during # forced shutdown mode, to wait for the thread to try and finish # up its work before leaving the thread to die on the vine. SHUTDOWN_GRACE_TIME = 5 # seconds # Maintain a minimum of +min+ and maximum of +max+ threads # in the pool. # # The block passed is the work that will be performed in each # thread. # def initialize(min, max, *extra, &block) @not_empty = ConditionVariable.new @not_full = ConditionVariable.new @mutex = Mutex.new @todo = [] @spawned = 0 @waiting = 0 @min = Integer(min) @max = Integer(max) @block = block @extra = extra @shutdown = false @trim_requested = 0 @out_of_band_pending = false @workers = [] @auto_trim = nil @reaper = nil @mutex.synchronize do @min.times do spawn_thread @not_full.wait(@mutex) end end @clean_thread_locals = false @force_shutdown = false @shutdown_mutex = Mutex.new end attr_reader :spawned, :trim_requested, :waiting attr_accessor :clean_thread_locals attr_accessor :out_of_band_hook # @version 5.0.0 def self.clean_thread_locals Thread.current.keys.each do |key| # rubocop: disable Performance/HashEachMethods Thread.current[key] = nil unless key == :__recursive_key__ end end # How many objects have yet to be processed by the pool? # def backlog with_mutex { @todo.size } end # @!attribute [r] pool_capacity def pool_capacity waiting + (@max - spawned) end # @!attribute [r] busy_threads # @version 5.0.0 def busy_threads with_mutex { @spawned - @waiting + @todo.size } end # :nodoc: # # Must be called with @mutex held! # def spawn_thread @spawned += 1 th = Thread.new(@spawned) do |spawned| Puma.set_thread_name 'threadpool %03i' % spawned todo = @todo block = @block mutex = @mutex not_empty = @not_empty not_full = @not_full extra = @extra.map { |i| i.new } while true work = nil mutex.synchronize do while todo.empty? if @trim_requested > 0 @trim_requested -= 1 @spawned -= 1 @workers.delete th Thread.exit end @waiting += 1 if @out_of_band_pending && trigger_out_of_band_hook @out_of_band_pending = false end not_full.signal begin not_empty.wait mutex ensure @waiting -= 1 end end work = todo.shift end if @clean_thread_locals ThreadPool.clean_thread_locals end begin @out_of_band_pending = true if block.call(work, *extra) rescue Exception => e STDERR.puts "Error reached top of thread-pool: #{e.message} (#{e.class})" end end end @workers << th th end private :spawn_thread # @version 5.0.0 def trigger_out_of_band_hook return false unless out_of_band_hook && out_of_band_hook.any? # we execute on idle hook when all threads are free return false unless @spawned == @waiting out_of_band_hook.each(&:call) true rescue Exception => e STDERR.puts "Exception calling out_of_band_hook: #{e.message} (#{e.class})" true end private :trigger_out_of_band_hook # @version 5.0.0 def with_mutex(&block) @mutex.owned? ? yield : @mutex.synchronize(&block) end # Add +work+ to the todo list for a Thread to pickup and process. def <<(work) with_mutex do if @shutdown raise "Unable to add work while shutting down" end @todo << work if @waiting < @todo.size and @spawned < @max spawn_thread end @not_empty.signal end end # This method is used by `Puma::Server` to let the server know when # the thread pool can pull more requests from the socket and # pass to the reactor. # # The general idea is that the thread pool can only work on a fixed # number of requests at the same time. If it is already processing that # number of requests then it is at capacity. If another Puma process has # spare capacity, then the request can be left on the socket so the other # worker can pick it up and process it. # # For example: if there are 5 threads, but only 4 working on # requests, this method will not wait and the `Puma::Server` # can pull a request right away. # # If there are 5 threads and all 5 of them are busy, then it will # pause here, and wait until the `not_full` condition variable is # signaled, usually this indicates that a request has been processed. # # It's important to note that even though the server might accept another # request, it might not be added to the `@todo` array right away. # For example if a slow client has only sent a header, but not a body # then the `@todo` array would stay the same size as the reactor works # to try to buffer the request. In that scenario the next call to this # method would not block and another request would be added into the reactor # by the server. This would continue until a fully bufferend request # makes it through the reactor and can then be processed by the thread pool. def wait_until_not_full with_mutex do while true return if @shutdown # If we can still spin up new threads and there # is work queued that cannot be handled by waiting # threads, then accept more work until we would # spin up the max number of threads. return if busy_threads < @max @not_full.wait @mutex end end end # @version 5.0.0 def wait_for_less_busy_worker(delay_s) # Ruby MRI does GVL, this can result # in processing contention when multiple threads # (requests) are running concurrently return unless Puma.mri? return unless delay_s > 0 with_mutex do return if @shutdown # do not delay, if we are not busy return unless busy_threads > 0 # this will be signaled once a request finishes, # which can happen earlier than delay @not_full.wait @mutex, delay_s end end # If there are any free threads in the pool, tell one to go ahead # and exit. If +force+ is true, then a trim request is requested # even if all threads are being utilized. # def trim(force=false) with_mutex do free = @waiting - @todo.size if (force or free > 0) and @spawned - @trim_requested > @min @trim_requested += 1 @not_empty.signal end end end # If there are dead threads in the pool make them go away while decreasing # spawned counter so that new healthy threads could be created again. def reap with_mutex do dead_workers = @workers.reject(&:alive?) dead_workers.each do |worker| worker.kill @spawned -= 1 end @workers.delete_if do |w| dead_workers.include?(w) end end end class Automaton def initialize(pool, timeout, thread_name, message) @pool = pool @timeout = timeout @thread_name = thread_name @message = message @running = false end def start! @running = true @thread = Thread.new do Puma.set_thread_name @thread_name while @running @pool.public_send(@message) sleep @timeout end end end def stop @running = false @thread.wakeup end end def auto_trim!(timeout=30) @auto_trim = Automaton.new(self, timeout, "threadpool trimmer", :trim) @auto_trim.start! end def auto_reap!(timeout=5) @reaper = Automaton.new(self, timeout, "threadpool reaper", :reap) @reaper.start! end # Allows ThreadPool::ForceShutdown to be raised within the # provided block if the thread is forced to shutdown during execution. def with_force_shutdown t = Thread.current @shutdown_mutex.synchronize do raise ForceShutdown if @force_shutdown t[:with_force_shutdown] = true end yield ensure t[:with_force_shutdown] = false end # Tell all threads in the pool to exit and wait for them to finish. # Wait +timeout+ seconds then raise +ForceShutdown+ in remaining threads. # Next, wait an extra +grace+ seconds then force-kill remaining threads. # Finally, wait +kill_grace+ seconds for remaining threads to exit. # def shutdown(timeout=-1) threads = with_mutex do @shutdown = true @trim_requested = @spawned @not_empty.broadcast @not_full.broadcast @auto_trim.stop if @auto_trim @reaper.stop if @reaper # dup workers so that we join them all safely @workers.dup end if timeout == -1 # Wait for threads to finish without force shutdown. threads.each(&:join) else join = ->(inner_timeout) do start = Process.clock_gettime(Process::CLOCK_MONOTONIC) threads.reject! do |t| elapsed = Process.clock_gettime(Process::CLOCK_MONOTONIC) - start t.join inner_timeout - elapsed end end # Wait +timeout+ seconds for threads to finish. join.call(timeout) # If threads are still running, raise ForceShutdown and wait to finish. @shutdown_mutex.synchronize do @force_shutdown = true threads.each do |t| t.raise ForceShutdown if t[:with_force_shutdown] end end join.call(SHUTDOWN_GRACE_TIME) # If threads are _still_ running, forcefully kill them and wait to finish. threads.each(&:kill) join.call(1) end @spawned = 0 @workers = [] end end end