/
test_thread_pool.rb
258 lines (179 loc) · 4.27 KB
/
test_thread_pool.rb
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require_relative "helper"
require "puma/thread_pool"
class TestThreadPool < Minitest::Test
def teardown
@pool.shutdown(1) if @pool
end
def new_pool(min, max, &block)
block = proc { } unless block
@work_mutex = Mutex.new
@work_done = ConditionVariable.new
@pool = Puma::ThreadPool.new(min, max, &block)
end
def pause
sleep 0.2
end
def test_append_spawns
saw = []
thread_name = nil
pool = new_pool(0, 1) do |work|
@work_mutex.synchronize do
saw << work
thread_name = Thread.current.name if Thread.current.respond_to?(:name)
@work_done.signal
end
end
pool << 1
@work_mutex.synchronize do
@work_done.wait(@work_mutex, 5)
assert_equal 1, pool.spawned
assert_equal [1], saw
assert_equal('puma threadpool 001', thread_name) if Thread.current.respond_to?(:name)
end
end
def test_converts_pool_sizes
pool = new_pool('0', '1')
assert_equal 0, pool.spawned
pool << 1
assert_equal 1, pool.spawned
end
def test_append_queues_on_max
pool = new_pool(0, 0) do
"Hello World!"
end
pool << 1
pool << 2
pool << 3
assert_equal 3, pool.backlog
end
def test_trim
pool = new_pool(0, 1) do |work|
@work_mutex.synchronize do
@work_done.signal
end
end
pool << 1
@work_mutex.synchronize do
@work_done.wait(@work_mutex, 5)
assert_equal 1, pool.spawned
end
pool.trim
pool.instance_variable_get(:@workers).first.join
assert_equal 0, pool.spawned
end
def test_trim_leaves_min
pool = new_pool(1, 2) do |work|
@work_mutex.synchronize do
@work_done.signal
end
end
pool << 1
pool << 2
@work_mutex.synchronize do
@work_done.wait(@work_mutex, 5)
assert_equal 2, pool.spawned
end
pool.trim
pause
assert_equal 1, pool.spawned
pool.trim
pause
assert_equal 1, pool.spawned
end
def test_force_trim_doesnt_overtrim
finish = false
pool = new_pool(1, 2) { Thread.pass until finish }
pool << 1
pool << 2
assert_equal 2, pool.spawned
pool.trim true
pool.trim true
finish = true
pause
assert_equal 1, pool.spawned
end
def test_trim_is_ignored_if_no_waiting_threads
finish = false
pool = new_pool(1, 2) { Thread.pass until finish }
pool << 1
pool << 2
assert_equal 2, pool.spawned
pool.trim
pool.trim
assert_equal 0, pool.trim_requested
finish = true
pause
end
def test_autotrim
finish = false
pool = new_pool(1, 2) { Thread.pass until finish }
pool << 1
pool << 2
assert_equal 2, pool.spawned
finish = true
pause
assert_equal 2, pool.spawned
pool.auto_trim! 1
sleep 1
pause
assert_equal 1, pool.spawned
end
def test_cleanliness
values = []
n = 100
mutex = Mutex.new
finished = false
pool = new_pool(1,1) {
mutex.synchronize { values.push Thread.current[:foo] }
Thread.current[:foo] = :hai
Thread.pass until finished
}
pool.clean_thread_locals = true
n.times { pool << 1 }
finished = true
pause
assert_equal n, values.length
assert_equal [], values.compact
end
def test_reap_only_dead_threads
pool = new_pool(2,2) { Thread.current.kill }
assert_equal 2, pool.spawned
pool << 1
pause
assert_equal 2, pool.spawned
pool.reap
assert_equal 1, pool.spawned
pool << 2
pause
assert_equal 1, pool.spawned
pool.reap
assert_equal 0, pool.spawned
end
def test_auto_reap_dead_threads
pool = new_pool(2,2) { Thread.current.kill }
assert_equal 2, pool.spawned
# TODO: is there a point to these two lines?
pool << 1
pool << 2
pool.auto_reap! 0.1
pause
assert_equal 0, pool.spawned
end
def test_force_shutdown_immediately
pool = new_pool(0, 1) do |work|
begin
@work_mutex.synchronize do
@work_done.signal
end
sleep 10 # TODO: do something here other than sleep
rescue Puma::ThreadPool::ForceShutdown
end
end
pool << 1
@work_mutex.synchronize do
@work_done.wait(@work_mutex, 5)
pool.shutdown(0)
assert_equal 0, pool.spawned
end
end
end