debian-mirror-gitlab/sidekiq_cluster/sidekiq_cluster.rb
2021-12-11 22:18:48 +05:30

184 lines
5 KiB
Ruby

# frozen_string_literal: true
require_relative 'dependencies'
module Gitlab
module SidekiqCluster
CHECK_TERMINATE_INTERVAL_SECONDS = 1
# How long to wait when asking for a clean termination.
# It maps the Sidekiq default timeout:
# https://github.com/mperham/sidekiq/wiki/Signals#term
#
# This value is passed to Sidekiq's `-t` if none
# is given through arguments.
DEFAULT_SOFT_TIMEOUT_SECONDS = 25
# After surpassing the soft timeout.
DEFAULT_HARD_TIMEOUT_SECONDS = 5
# The signals that should terminate both the master and workers.
TERMINATE_SIGNALS = %i(INT TERM).freeze
# The signals that should simply be forwarded to the workers.
FORWARD_SIGNALS = %i(TTIN USR1 USR2 HUP).freeze
# Traps the given signals and yields the block whenever these signals are
# received.
#
# The block is passed the name of the signal.
#
# Example:
#
# trap_signals(%i(HUP TERM)) do |signal|
# ...
# end
def self.trap_signals(signals)
signals.each do |signal|
trap(signal) do
yield signal
end
end
end
def self.trap_terminate(&block)
trap_signals(TERMINATE_SIGNALS, &block)
end
def self.trap_forward(&block)
trap_signals(FORWARD_SIGNALS, &block)
end
def self.signal(pid, signal)
Process.kill(signal, pid)
true
rescue Errno::ESRCH
false
end
def self.signal_processes(pids, signal)
pids.each { |pid| signal(pid, signal) }
end
# Starts Sidekiq workers for the pairs of processes.
#
# Example:
#
# start([ ['foo'], ['bar', 'baz'] ], :production)
#
# This would start two Sidekiq processes: one processing "foo", and one
# processing "bar" and "baz". Each one is placed in its own process group.
#
# queues - An Array containing Arrays. Each sub Array should specify the
# queues to use for a single process.
#
# directory - The directory of the Rails application.
#
# Returns an Array containing the PIDs of the started processes.
def self.start(queues, env: :development, directory: Dir.pwd, max_concurrency: 50, min_concurrency: 0, timeout: DEFAULT_SOFT_TIMEOUT_SECONDS, dryrun: false)
queues.map.with_index do |pair, index|
start_sidekiq(pair, env: env,
directory: directory,
max_concurrency: max_concurrency,
min_concurrency: min_concurrency,
worker_id: index,
timeout: timeout,
dryrun: dryrun)
end
end
# Starts a Sidekiq process that processes _only_ the given queues.
#
# Returns the PID of the started process.
def self.start_sidekiq(queues, env:, directory:, max_concurrency:, min_concurrency:, worker_id:, timeout:, dryrun:)
counts = count_by_queue(queues)
cmd = %w[bundle exec sidekiq]
cmd << "-c#{self.concurrency(queues, min_concurrency, max_concurrency)}"
cmd << "-e#{env}"
cmd << "-t#{timeout}"
cmd << "-gqueues:#{proc_details(counts)}"
cmd << "-r#{directory}"
counts.each do |queue, count|
cmd << "-q#{queue},#{count}"
end
if dryrun
puts Shellwords.join(cmd) # rubocop:disable Rails/Output
return
end
pid = Process.spawn(
{ 'ENABLE_SIDEKIQ_CLUSTER' => '1',
'SIDEKIQ_WORKER_ID' => worker_id.to_s },
*cmd,
pgroup: true,
err: $stderr,
out: $stdout
)
wait_async(pid)
pid
end
def self.count_by_queue(queues)
queues.tally
end
def self.proc_details(counts)
counts.map do |queue, count|
if count == 1
queue
else
"#{queue} (#{count})"
end
end.join(',')
end
def self.concurrency(queues, min_concurrency, max_concurrency)
concurrency_from_queues = queues.length + 1
max = max_concurrency > 0 ? max_concurrency : concurrency_from_queues
min = [min_concurrency, max].min
concurrency_from_queues.clamp(min, max)
end
# Waits for the given process to complete using a separate thread.
def self.wait_async(pid)
Thread.new do
Process.wait(pid) rescue Errno::ECHILD
end
end
# Returns true if all the processes are alive.
def self.all_alive?(pids)
pids.each do |pid|
return false unless process_alive?(pid)
end
true
end
def self.any_alive?(pids)
pids_alive(pids).any?
end
def self.pids_alive(pids)
pids.select { |pid| process_alive?(pid) }
end
def self.process_alive?(pid)
# Signal 0 tests whether the process exists and we have access to send signals
# but is otherwise a noop (doesn't actually send a signal to the process)
signal(pid, 0)
end
def self.write_pid(path)
File.open(path, 'w') do |handle|
handle.write(Process.pid.to_s)
end
end
end
end